How Sweet It Isn’t

Hello again. Last week when I was writing about Bipolar Disorder and Chronic Kidney Disease, I mentioned nephrogenic diabetes insipidus. During the week I realized how little I know about that.

Let’s start by going back and reviewing what I wrote last week:

“What is nephrogenic diabetes insipidus?
The most common problem from taking lithium is a form of diabetes due to kidney damage called nephrogenic diabetes insipidus. This type of diabetes is different than diabetes mellitus caused by high blood sugar. In nephrogenic diabetes insipidus, the kidneys cannot respond to anti-diuretic hormone (ADH), a chemical messenger that controls fluid balance. This results in greater than normal urine out-put and excessive thirst. It can be hard to treat nephrogenic diabetes insipidus.”

Frankly, that’s not enough information for me, although it’s pretty clear. Former English teacher here. Let’s take a look at the words themselves. Keep in mind, this is what I learned along the years.

Nephro = kidneys

Genic = Beginning in

So we know this disease begins in the kidneys. And diabetes? According to Michigan State University at https://www.canr.msu.edu/news/how_diabetes_got_its_name,

“The ancient Greek word for diabetes means, ‘passing though; a large discharge of urine.’ The meaning is associated with frequent urination, which is a symptom of diabetes.”

And finally insipidus. I found myself turning to Wikipedia at https://en.wikipedia.org/wiki/Diabetes_insipidus#:~:text=”Insipidus”%20comes%20from%20Latin%20language,or%20zest%3B%20not%20tasty for help with this.

” ‘Insipidus’ comes from Latin language insipidus (tasteless), from Latin: in- ‘not’ + sapidus ‘tasty’ from sapere ‘have a taste’ — the full meaning is ‘lacking flavor or zest; not tasty’.”

This one I didn’t quite get. Back to the above link to figure out what tasteless has to do with this disease.

“Application of this name to DI arose from the fact that diabetes insipidus does not cause glycosuria (excretion of glucose into the urine).”

Ah, so the urine is not sweet. Reminder: Diabetes can be diagnosed by the doctor tasting the urine. While this was more common in the 1600s, I have read about doctors tasting urine for diabetes more recently and even currently. If the urine is sweet, diabetes is present.

This is interesting. I’d never considered a form of diabetes that didn’t deal with blood glucose, which may also be called blood sugar, so sweet. Of course, I then began to wonder if taking lithium was the only way to develop this disease. The Mayo Clinic at https://www.mayoclinic.org/diseases-conditions/diabetes-insipidus/symptoms-causes/syc-20351269#:~:text=Nephrogenic%20diabetes%20insipidus%20occurs%20when,or%20a%20chronic%20kidney%20disorder was quite a bit of help here:

“Nephrogenic diabetes insipidus occurs when there’s a defect in the kidney tubules — the structures in your kidneys that cause water to be excreted or reabsorbed. This defect makes your kidneys unable to properly respond to ADH.

The defect may be due to an inherited (genetic) disorder or a chronic kidney disorder. Certain drugs, such as lithium or antiviral medications such as foscarnet (Foscavir), also can cause nephrogenic diabetes insipidus.”

This is a lot of new information to understand unless we get more help. Let’s take a look at kidney tubules now. I turned to my old favorite Healthline at https://www.healthline.com/health/human-body-maps/kidney#nephrons and found the following:

“Each tubule has several parts:

  • Proximal convoluted tubule. This section absorbs water, sodium, and glucose back into the blood.
  • Loop of Henle. This section further absorbs potassium, chloride, and sodium into the blood.
  • Distal convoluted tubule. This section absorbs more sodium into the blood and takes in potassium and acid.

By the time fluid reaches the end of the tubule, it’s diluted and filled with urea. Urea is byproduct of protein metabolism that’s released in urine.”

That makes sense, but what about this ADH? What is that?  My Health Alberta Ca at https://myhealth.alberta.ca/Health/pages/conditions.aspx?hwid=hw211268 tells us:

“Antidiuretic hormone (ADH) is a chemical produced in the brain that causes the kidneys to release less water, decreasing the amount of urine produced. A high ADH level causes the body to produce less urine. A low level results in greater urine production.

Normally, the amount of ADH in the body is higher during the night. This helps prevent urination while you are sleeping. But if the levels of ADH remain low during the night, the body will produce large amounts of urine, so urination during the night is more likely.”

We know how you can develop nephrogenic diabetes insipidus, but how do you treat it once you’ve been diagnosed? WebMD at https://www.webmd.com/diabetes/guide/nephrogenic-diabetes-insipidus-symptoms-causes-and-treatments offers us the following:

“If a drug like lithium is responsible, switching medicines might improve nephrogenic diabetes insipidus.

Most adults with nephrogenic diabetes insipidus are able to keep up with fluid losses by drinking water. For some people, though, the symptoms of near-constant thirst and urination can become intolerable. Some treatments can reduce the symptoms of nephrogenic diabetes insipidus, at least somewhat:

All adults and children with nephrogenic diabetes insipidus should take frequent bathroom breaks. This helps to avoid over-distending the bladder, which can cause long-term problems, though rarely.

The most important treatment for nephrogenic diabetes insipidus is to ensure constant access to lots of water. Not keeping up with fluid losses can lead to dehydration or electrolyte imbalances, which can sometimes be severe. Seek medical help if symptoms don’t improve after rehydrating, eating fresh fruit, and taking a multivitamin.”

Now, the biggie…. Is this rare disease curable? Unfortunately it isn’t, although,

“For individuals with acquired NDI treating the underlying cause (e.g., correcting metabolic imbalances or discontinuing drug use) can reverse the kidneys resistance to vasopressin. [Gail here again: Vasopressin is another name for ADH as far as I can tell.] However, this reversal may take weeks. In some cases caused by the use of drugs such as lithium, it may take years for the kidneys to respond to vasopressin again or it can become irreversible.”

Thank you to National Organization for Rare Diseases (NORD) at https://rarediseases.org/rare-diseases/nephrogenic-diabetes-insipidus/ for the above information.

I feel like I’ve been down the rabbit hole with Alice with all this new information about a rare disease that your already existing kidney disease may cause. Hopefully, you won’t be one of its victims.

Until next week,

Keep living your life!

Bipolar Disorder and Chronic Kidney Disease

It turns out I know more people with bipolar disorder than I’d thought. Of course, that led me to wonder again what, if anything, this might have to do with CKD. That’s just the way my mind works. Everything – and I do mean everything – leads back to CKD for me. So, as usual, I started asking them questions and poking around on the internet.

It seems that most of them are taking lithium to help control the bipolar disorder. Okay, I’ll bite: what is lithium? Drugs.com at https://www.drugs.com/lithium.html has quite a lot to say about this drug, but I’ll start with the basic definition:

Lithium affects the flow of sodium through nerve and muscle cells in the body. Sodium affects excitation or mania.

Lithium a mood stabilizer that is a used to treat or control the manic episodes of bipolar disorder (manic depression). Manic symptoms include hyperactivity, rushed speech, poor judgment, reduced need for sleep, aggression, and anger.

Lithium also helps to prevent or lessen the intensity of manic episodes.”

Notice sodium is mentioned. Keep that in mind while we backtrack for a definition of bipolar disorder. It seems I jumped right in without giving you some of the necessary background information. I’ll rectify that right now.

The National Institute of Mental Health at https://www.nimh.nih.gov/health/topics/bipolar-disorder/index.shtml tells us:

“Bipolar disorder (formerly called manic-depressive illness or manic depression) is a mental disorder that causes unusual shifts in mood, energy, activity levels, concentration, and the ability to carry out day-to-day tasks.

There are three types of bipolar disorder. All three types involve clear changes in mood, energy, and activity levels. These moods range from periods of extremely ‘up,’ elated, irritable, or energized behavior (known as manic episodes) to very ‘down,’ sad, indifferent, or hopeless periods (known as depressive episodes). Less severe manic periods are known as hypomanic episodes.

  • Bipolar I Disorder— defined by manic episodes that last at least 7 days, or by manic symptoms that are so severe that the person needs immediate hospital care. Usually, depressive episodes occur as well, typically lasting at least 2 weeks. Episodes of depression with mixed features (having depressive symptoms and manic symptoms at the same time) are also possible.
  • Bipolar II Disorder— defined by a pattern of depressive episodes and hypomanic episodes, but not the full-blown manic episodes that are typical of Bipolar I Disorder.
  • Cyclothymic Disorder (also called Cyclothymia)— defined by periods of hypomanic symptoms as well as periods of depressive symptoms lasting for at least 2 years (1 year in children and adolescents). However, the symptoms do not meet the diagnostic requirements for a hypomanic episode and a depressive episode.

Sometimes a person might experience symptoms of bipolar disorder that do not match the three categories listed above, which is referred to as ‘other specified and unspecified bipolar and related disorders’ .”

In the July 3rd, 2017, blog, I wrote about those who already have CKD and then develop bipolar disorder.

“Kidney.org at https://www.kidney.org/atoz/content/lithium has me downright frightened for my friend…

“How does lithium cause kidney damage?
Lithium may cause problems with kidney health. Kidney damage due to lithium may include acute (sudden) or chronic (long-term) kidney disease and kidney cysts. The amount of kidney damage depends on how long you have been taking lithium. It is possible to reverse kidney damage caused by lithium early in treatment, but the damage may become permanent over time.

What is nephrogenic diabetes insipidus?
The most common problem from taking lithium is a form of diabetes due to kidney damage called nephrogenic diabetes insipidus. This type of diabetes is different than diabetes mellitus caused by high blood sugar. In nephrogenic diabetes insipidus, the kidneys cannot respond to anti-diuretic hormone (ADH), a chemical messenger that controls fluid balance. This results in greater than normal urine out-put and excessive thirst. It can be hard to treat nephrogenic diabetes insipidus.”

As we can see, this is not the first time I’ve written about a dual diagnose of these two diseases – one mental, one physical – and how they affect each other. One of the interesting facts I found is that you need to tell your doctor if you have kidney disease when he prescribes lithium. None of my friends has CKD yet, although one is under surveillance (if that’s the proper word) since she’s having some decline in her eGFR.

Remember I asked you to keep that sodium reference in mind? One problem with lithium is that it requires you to include sodium in your diet. As a CKD patient, you’re asked to limit your sodium intake. You can’t do both at once. This is from WebMD at https://www.webmd.com/bipolar-disorder/guide/bipolar-disorder-lithium#2:

“Tell your doctor about history of cancerheart diseasekidney diseaseepilepsy, and allergies. Make sure your doctor knows about all other drugs you are taking. Avoid products that are low in sodium (salt) since a low sodium diet can lead to excessively high lithium levels.

So what can you do to protect your kidneys if you must take lithium for your mental health? This is what Psychiatric Times at https://www.psychiatrictimes.com/view/6-ways-protect-kidneys-while-prescribing-lithium has to say about the subject:

Tip 1. Avoid toxicity

The link between lithium and renal dysfunction may be explained by exposure to toxic lithium levels. Toxic levels kill renal cells, and that damage builds up every time the level rises above the toxic line….

Tip 2. Keep the level low

Keeping the lithium level as low as possible can prevent renal impairment. The ideal level needs to be personalized and tends to fall with age….

Tip 3. Dose lithium once a day

Dosing lithium once in the evening reduces the risk of renal problems….

If high serum levels are needed to treat active mania, dosing twice a day may be necessary to avoid toxic peaks. The line of toxicity is different for each patient because it’s defined by symptoms.…

Tip 4. Drinking and urinating too much

Polyuria and polydipsia are common adverse effects of lithium (30% to 80%), and they are not always benign. When severe, they may indicate nephrogenic diabetes insipidus (NDI), which means that changes in the renal tubules are impeding the kidneys ability to concentrate the urine. Those changes raise the risk of future renal impairments.

Besides stopping lithium, the main treatment for NDI is amiloride, a potassium sparing diuretic (5 mg po qd). Amiloride may prevent further renal problems by reducing fibrotic changes in the kidneys…. This medication is best managed through consultation with the medical team because it carries a risk of hyperkalemia, particularly in patients with renal insufficiency or diabetes.

Tip 5. Consider N-Acetylcysteine

N-Acetylcysteine (NAC) is an antioxidant that can protect and even reverse renal toxicity, including toxicity from lithium…. NAC is part of a healthy diet, and the capsule form is safe, well-tolerated (the main risk is constipation), and inexpensive. Sounds like a winner, but there is one catch. The renal studies…were all done in animals.

However, there is another reason to use NAC in bipolar disorder. This supplement is effective for bipolar depression in some, but not all, studies… and those benefits are more pronounced in the medically ill….

The dose in bipolar disorder (2000 mg/day) is about twice the amount that was used for renal protection (10 mg/kg)….

Tip 6. Measure

Renal function should be monitored every 3 to 6 months on lithium. Older patients benefit from more frequent monitoring, as do those with a history of toxicity, high serum levels, or drug interactions. Creatinine is usually sufficient, but a more accurate measure of renal function is the estimated glomerular filtration rate (eGFR)….

Laboratory changes that should prompt a nephrology consult include:

  • eGFR < 30 ml/min/1.73m2
  • Creatinine ≥ 1.5 mg/dL
  • A decline of eGFR by more than 4 ml/min/1.73m… per year….”

There’s more, much more, on this site if you’re interested.

Until next week,

Keep living your life!

 

A Different Kind of App  

Periodically for the last decade, I’ve written about apps that could help us manage our Chronic Kidney Disease. They would be those with electrolyte counters, portion counters, GFR calculators, and even calorie counters or exercise counters. They were helpful. Some still exist; some have gone by the wayside.

In recent years, I’ve been vocal about the necessity for CKD patients to understand what our disease is, how it came to be, and what we might do about it. This is different from wanting people to be aware of CKD. My contention is that the educated patient is the one most able to help him or herself.

Responsum for CKD does just that, but I’ll let them explain their app themselves. This is from their April 28th blog at https://responsumhealth.com/great-news-for-the-ckd-community/.

“I have great news to share with Responsum Health’s extended family of supporters and everyone around the world whose lives are affected by kidney disease. Responsum Health, with support from Otsuka Pharmaceutical, is launching a new platform and app designed specifically for people with kidney disease, including chronic kidney disease (CKD)—a condition that affects 37 million Americans.

Responsum for CKD represents our company’s second disease-specific platform—the first being Responsum for PF—and includes some amazing new features. These include a translation function into seven languages and a dynamic social wall called Community Chat, which automatically suggests articles and resources based upon each comment or entry. Just like with pulmonary fibrosis, Responsum for CKD will be available as a free web-based platform and a mobile app for iOS and Android.

We’ve recruited an all-star Content Advisory Council made up of some of the top specialists in CKD to serve as our content validators. Instead of partnering with a specific patient advocacy group to vet our content, we chose this approach to ensure that the platform is free of commercial bias. We will roll out the names of our esteemed council alongside the app launch.

To the CKD community, Responsum Health is on the way! We can’t wait to serve you, join you, learn from you, and listen to you.

Let’s get started!

Andy Rosenberg
Founder and CEO, Responsum Health

Perhaps we could use a bit more information. Let’s try their May 5th press release at https://responsumhealth.com/press-and-media/responsum-health-launches-innovative-kidney-disease-information-platform/.

“Responsum Health Launches Innovative Kidney Disease Information Platform
New technology supports patients, families, caregivers, and healthcare professionals

​[WASHINGTON, D.C., May 28 2020] — Today, Responsum Health (Responsum), an innovative developer of personalized patient apps and chronic disease knowledge communities, with support from Otsuka Pharmaceutical, a global healthcare company, announced the launch of an online connection and knowledge platform for patients with kidney disease, such as chronic kidney disease (CKD), a condition that affects an estimated 37 million Americans. The platform, called Responsum for CKD, can be accessed for free via web browser or mobile app.

Designed to meet the needs of patients, families, caregivers, and healthcare professionals, Responsum for CKD offers a number of informational and community-oriented features. At its core, Responsum replaces unreliable web aggregators and social sites by providing patients and caregivers with a customized Newsfeed that has easy-to-read summaries of important kidney health news items. All of the information found on Responsum’s platforms is written by professional health writers and vetted by a team of researchers under the guidance of an advisory council, which is made up of leading kidney health experts.

Other features include a moderated social wall to serve as a community chat room and the Patient One-Sheet, which allows patients to easily collect, download, print, and share their key medical information. Patients will also have access to a robust collection of trusted patient support links.

“We are grateful that Otsuka is willing to support our mission to educate, support, and empower patients with chronic conditions through our unique approach to providing patients with the information they need to drive better outcomes,” said Andrew Rosenberg, founder of Responsum Health. “By working with recognized leaders from the patient advocacy community, we have created a trusted online platform that fills a vital information gap—while simultaneously creating an authentic, welcoming online community for people with kidney disease.”

About Responsum Health

Responsum Health’s mission is to build and support online knowledge communities for chronic disease patients. The company offers a free, revolutionary patient engagement platform that monitors, searches, and curates the Internet to generate a personalized news feed of article summaries, which are vetted by Responsum’s patient group partners. Responsum wraps the news feed into a comprehensive platform that enables patients to comment on and rate the articles, as well as share them with their professional care team and loved ones. Responsum also enables patients to better organize their health information, find local patient support groups and services, and support one another through a moderated, disease-specific social wall.”

The one thing that has been missing from other CKD apps is the education. I write to help people become aware of CKD and maybe understand a little bit of what affects you as a CKD patient. Responsum has articles in real time, so to speak. What I mean by that is if you’re interested in potassium and ask a question in the community about it, you also have articles attached that will explain more about your topic: no searching, no delay, just click on the upper right hand corner. How marvelous.

I think I’ve mentioned that I’ve been involved in what we used to call think tanks about what CKD patients need. My answer has always been education… and what could be better than immediate education? The one sheet with your medical information is also a boon, but not specific to only this app.

But the community with instant articles about your topic? Priceless. I would say that it’s free is also priceless, but that’s a little bit obvious. Do I recommend this app? Yes. Do I use this app? Yes… and if asked my opinion, I would say you should use it, too. The key to our kidney health just may be self-education.

Until next week,

Keep living your life!

Echo… Echo… Echo…

Remember that golden time I’ve mentioned before? The time when I problem solve and write in my head just as I’m waking up? Well, today the word was echo at that time. Echo? As in echo chamber? Echo Canyon? No, doesn’t feel right. Got it! Echocardiogram.

The English teacher in me is already delighted. Why? I know what most of the word means through my college study of Greek and Latin roots. Card means heart, io is simply a connective, and gram means write. What about echo you ask? I think we all know what that means in common usage, but in conjunction with cardiogram? Yep, time for some help.

The Merriam-Webster Dictionary, still my favorite, at https://www.merriam-webster.com/dictionary/ echocardiography tells us an echocardiogram is,

“the use of ultrasound to examine the structure and functioning of the heart for abnormalities and disease”

Let’s put in a little reminder of what an ultrasound is here. This is from MedicineNet at https://www.medicinenet.com/script/main/art.asp?articlekey=5897:

“A test in which high-frequency sound waves (ultrasound) are bounced off tissues and the echoes are converted into a picture (sonogram).”

Oh, like the picture of my grandson growing in his mom’s womb. Great, now what does this have to do with Chronic Kidney Disease? I just had an echocardiogram because my oncologist was concerned about the great distance between my diastolic (lower) and systolic (upper) numbers on my blood pressure readings. It was fine, but it did get me to thinking about what CKD and the heart have in common.

Here’s a reminder from Healthline at https://www.healthline.com/health/diastole-vs-systole#:~:text=Your%20systolic%20blood%20pressure%20is,bottom%20number%20on%20your%20reading of what the two numbers mean:

“Your systolic blood pressure is the top number on your reading. It measures the force of blood against your artery walls while your ventricles — the lower two chambers of your heart — squeeze, pushing blood out to the rest of your body.

Your diastolic blood pressure is the bottom number on your reading. It measures the force of blood against your artery walls as your heart relaxes and the ventricles are allowed to refill with blood. Diastole — this period of time when your heart relaxes between beats — is also the time that your coronary artery is able to supply blood to your heart.”

Got it. This next quote is a little medicalese, but basically it’s saying there are specific difficulties if you have both CKD and high blood pressure. It’s from Kidney International at https://www.kidney-international.org/article/S0085-2538(19)30276-5/fulltext :

“In CKD and ESKD, risk factors for HF include long-standing hypertension with often worsened blood pressure (BP) control as CKD worsens, salt and water retention causing excessive preload, and cardiomyopathic factors including left ventricular (LV) hypertrophy and fibrosis. In addition, there are CKD- and ESKD-specific factors that affect afterload (increased arterial stiffness and high output shunting through arteriovenous fistulae or grafts) as well as load-independent factors (neurohormonal activation, impaired iron utilization, anemia, demand ischemia, profibrotic factors [e.g., fibroblast growth factor 23 {FGF-23}], inflammation, etc.)…. Arteriovenous fistulae or grafts have been reported to worsen right ventricular hypertrophy, increase pulmonary pressures, associate with significant right ventricular dilatation, and reduce right ventricular function, which are closely linked to survival….”

An echocardiogram can show in real time if all the ventricles of your heart are working correctly as far as pumping blood and and/or leaking when your heart should be at rest.

Well, why get an echocardiogram if you already know you have CKD and high blood pressure? Here’s WebMD at https://www.webmd.com/heart-disease/guide/diagnosing-echocardiogram#4’s response.  You can find much more information there, too, as is true of all the sites mentioned.

“An echocardiogram can help your doctor diagnose several kinds of heart problems, including:

  • An enlarged heart or thick ventricles (the lower chambers)
  • Weakened heart muscles
  • Problems with your heart valves
  • Heart defects that you’ve had since birth
  • Blood clots or tumors”

Mayo Clinic at https://www.mayoclinic.org/tests-procedures/echocardiogram/about/pac-20393856 offers an easily understandable explanation of the actual process. There are many types of echocardiograms, but this is the most usual.

Transthoracic echocardiogram

In this standard type of echocardiogram:

  • A technician (sonographer) spreads gel on a device (transducer).
  • The sonographer presses the transducer firmly against your skin, aiming an ultrasound beam through your chest to your heart.
  • The transducer records the sound wave echoes from your heart.
  • A computer converts the echoes into moving images on a monitor.”

This is yet another reminder of why we need to have both the heart and kidneys functioning well. This one is from Heart.org at https://www.heart.org/en/health-topics/high-blood-pressure/health-threats-from-high-blood-pressure/how-high-blood-pressure-can-lead-to-kidney-damage-or-failure#:~:text=The%20:

  • Damaged kidney arteries do not filter blood well. Kidneys have small, finger-like nephrons that filter your blood. Each nephron receives its blood supply through tiny hair-like capillaries, the smallest of all blood vessels. When the arteries become damaged, the nephrons do not receive the essential oxygen and nutrients — and the kidneys lose their ability to filter blood and regulate the fluid, hormones, acids and salts in the body.
  • Damaged kidneys fail to regulate blood pressure. Healthy kidneys produce a hormone called aldosterone to help the body regulate blood pressure. Kidney damage and uncontrolled high blood pressure each contribute to a negative spiral. As more arteries become blocked and stop functioning, the kidneys eventually fail.”

The American Journal of Kidney Disease at https://www.ajkd.org/article/S0272-6386(18)30598-5/fulltext gives us these final words on why an echocardiogram could be necessary for certain CKD patients:

“Abnormal cardiac structure and function are common in chronic kidney disease (CKD) and end-stage renal disease (ESRD) and linked with mortality and heart failure.”

Topic change: We tried Flavis’s high protein spaghetti and found it just as light and delightful as their penne. This, I can endorse.

Oh, before I forget. I like to read… a lot. One of the books I read recently was Ray Flynt’s Transplanted Death. I don’t want to tell you too much about it, except that it is a well-written murder mystery with a good story that revolves around transplant recipients, two of them kidney recipients. I am recommending this book.

Until next week,

Keep living your life!

It’s Not Your Hands and Feet; It’s Your Brain.

Here I sit feeling so incredibly pleased that I don’t have pancreatic cancer anymore. Yet, at the same time, I’m so very displeased with the neuropathy that has me using a cane and causing my fingers to hit between the keys on the keyboard instead of on them. I’ve already mentioned in a previous blog that this is a brain connection problem. Today, I’d like to explore that more.

Let’s start with something simple before we wade into what I suspect is going to be complex. Lexico’s English Dictionary at https://www.lexico.com/en/definition/neuropathy tells us neuropathy is,

“Disease or dysfunction of one or more peripheral nerves, typically causing numbness or weakness.”

I get the numbness or weakness, but what are peripheral nerves? I went to WebMD at https://www.webmd.com/brain/understanding-peripheral-neuropathy-basics#1 for help.

“The name of the condition tells you a bit about what it is:

Peripheral: Beyond (in this case, beyond the brain and the spinal cord.)
Neuro-: Related to the nerves
-pathy: Disease

Peripheral neuropathy refers to the conditions that result when nerves that carry messages to and from the brain and spinal cord from and to the rest of the body are damaged or diseased.

The peripheral nerves make up an intricate network that connects the brain and spinal cord to the muscles, skin, and internal organs. Peripheral nerves come out of the spinal cord and are arranged along lines in the body called dermatomes. Typically, damage to a nerve will affect one or more dermatomes, which can be tracked to specific areas of the body. Damage to these nerves interrupts communication between the brain and other parts of the body and can impair muscle movement, prevent normal sensation in the arms and legs, and cause pain.”

Let’s see if we can find out what these nerves are. The Cleveland Clinic at https://my.clevelandclinic.org/health/diseases/14737-neuropathy has an easily understood answer for us,

“The peripheral nervous system is made up of three types of nerves, each with an important role in keeping your body healthy and functioning properly.

  • Sensory nerves carry messages from your five senses (sight, hearing, smell, taste, touch) through your spinal cord to your brain. For example, a sensory nerve would communicate to your brain information about objects you hold in your hand, like pain, temperature, and texture.
  • Motor nerves travel in the opposite direction of sensory nerves. They carry messages from your brain to your muscles. They tell your muscles how and when to contract to produce movement. For example, to move your hand away from something hot.
  • Autonomic nerves are responsible for body functions that occur outside of your direct control, such as breathing, digestion, heart rate, blood pressure, sweating, bladder control and sexual arousal. The autonomic nerves are constantly monitoring and responding to external stresses and bodily needs. For instance, when you exercise, your body temperatures increases. The autonomic nervous system triggers sweating to prevent your body’s temperature from rising too high.

The type of symptoms you feel depend on the type of nerve that is damaged.”

Now the biggie: What causes neuropathy? MedicineNet at https://www.medicinenet.com/peripheral_neuropathy/article.htm was right there with an answer.

  1. Diabetes mellitus
  2. Shingles (post herpetic neuralgia)
  3. Vitamin deficiency, particularly B12 and folate
  4. Alcohol
  5. Autoimmune diseases, including lupusrheumatoid arthritis or Guillain-Barre syndrome
  6. AIDS, whether from the disease or its treatment, syphilis, and kidney failure
  7. Inherited disorders, such as amyloid polyneuropathy or Charcot-Marie-Tooth disease
  8. Exposure to toxins, such as heavy metals, gold compounds, lead, arsenic, mercury, and organophosphate pesticides
  9. Cancer therapy drugs such as vincristine (Oncovin and Vincasar) and other medications, such as antibiotics including metronidazole (Flagyl) and isoniazid
  10. Rarely, diseases such as neurofibromatosis can lead to peripheral neuropathy. Other rare congenital neuropathies include Fabry disease, Tangier disease, hereditary sensory autonomic neuropathy, and hereditary amyloidosis.
  11. Statin medications have been linked to peripheral neuropathy, although neuropathy caused by statins only rarely causes symptoms.

While diabetes and postherpetic neuralgia are the most common causes of peripheral neuropathy, oftentimes no cause is found. In these situations, it is referred to as idiopathic peripheral neuropathy.”

Uh-oh, diabetes, Vitamin B12 deficiency, cancer therapy drugs, antibiotics, and statins. Any of these could have caused my neuropathy. Since many Chronic Kidney Disease patients develop diabetes (which is also the foremost cause of CKD), you need to keep your eyes open for the symptoms.

Of course, knowing the symptoms would be helpful. The Mayo Clinic at https://www.mayoclinic.org/diseases-conditions/peripheral-neuropathy/symptoms-causes/syc-20352061 explains:

“Signs and symptoms of peripheral neuropathy might include:

  • Gradual onset of numbness, prickling or tingling in your feet or hands, which can spread upward into your legs and arms
  • Sharp, jabbing, throbbing or burning pain
  • Extreme sensitivity to touch
  • Pain during activities that shouldn’t cause pain, such as pain in your feet when putting weight on them or when they’re under a blanket
  • Lack of coordination and falling
  • Muscle weakness
  • Feeling as if you’re wearing gloves or socks when you’re not
  • Paralysis if motor nerves are affected

If autonomic nerves are affected, signs and symptoms might include:

  • Heat intolerance
  • Excessive sweating or not being able to sweat
  • Bowel, bladder or digestive problems
  • Changes in blood pressure, causing dizziness or lightheadedness”

Treatment may be any number of things. Medical News Today at https://www.medicalnewstoday.com/articles/147963#treatment elucidates for us:

“Treatment either targets the underlying cause, or it aims to provide symptomatic pain relief and prevent further damage.

In the case of diabetic neuropathy, addressing high blood sugars can prevent further nerve damage.

For toxic causes, removing the exposure to a suspected toxin, or stopping a drug, can halt further nerve damage.

Medications can relieve pain and reduce burning, numbness, and tingling.

Drug treatment for neuropathic pain

Medications that may help include:

  • drugs normally used for epilepsy, such as carbamazepine
  • antidepressants, such as venlafaxine
  • opioid painkillers, for example, oxycodone or tramadol

Opioid painkillers come with warnings about safety risks.

Duloxetine may help people with chemotherapy-induced neuropathy.

Doctors can also prescribe skin patches, such as Lidoderm, for temporary, localized pain relief. This contains the local anesthetic lidocaine. The patches are like bandages, and they can be cut to size.

The choice of drug should take into account medications for other conditions, to avoid unwanted interactions.”

Before I close, do you remember my writing about Flavis’s low protein products? We combined their penne with Bear’s signature ground turkey spaghetti sauce and it was exquisite. I’m not one for heavy pasta, so I really liked how light and delicate it tasted.

Until next week,

Keep living your life!

Two or More

Time for another reader question, but first, let’s pay attention to what day today is. Many people see today as the day for bar-b-ques or backyard ball games (or, at least, they did before Covid 19). When I married Bear a little more than seven years ago, he explained about Memorial Day. I knew it was to honor those who died protecting us, but it was so much more meaningful when explained by a veteran… someone who didn’t die protecting us and lived on to meet me and marry me. So give some quiet thoughts to these men and woman today, will you?

Now, the question. This reader has both lupus like immune mediated glomerular nephritis and Wegeners vasculitis with kidney involvement. Her question is how does she handle both?  And, here I thought I had it bad with pancreatic cancer (now gone), Chronic Kidney Disease, diabetes, and a whole host of what I consider lesser diseases!

Starting slowly is a must here since I am like a fish out of water with these two diseases. According to the MayoClinic at https://www.mayoclinic.org/diseases-conditions/granulomatosis-with-polyangiitis/symptoms-causes/syc-20351088,

”Granulomatosis with polyangiitis is an uncommon disorder that causes inflammation of the blood vessels in your nose, sinuses, throat, lungs and kidneys.

Formerly called Wegener’s granulomatosis, this condition is one of a group of blood vessel disorders called vasculitis. It slows blood flow to some of your organs. The affected tissues can develop areas of inflammation called granulomas, which can affect how these organs work.

Early diagnosis and treatment of granulomatosis with polyangiitis might lead to a full recovery. Without treatment, the condition can be fatal.”

Whoa! Not good. Let’s see how it’s treated. The Cleveland Clinic at https://my.clevelandclinic.org/health/diseases/4757-granulomatosis-with-polyangiitis-gpa-formerly-called-wegeners/management-and-treatment tells us,

“People with GPA who have critical organ system involvement are generally treated with corticosteroids [Gail here: commonly just called steroids] combined with another immunosuppressive medication such as cyclophosphamide (Cytoxan ®) or rituximab (Rituxan®). In patients who have less severe GPA, corticosteroids and methotrexate can be used initially. The goal of treatment is to stop all injury that is occurring as a result of GPA. If disease activity can be completely ‘turned off,’ this is called ‘remission.’ Once it is apparent that the disease is improving, doctors slowly reduce the corticosteroid dose and eventually hope to discontinue it completely. When cyclophosphamide is used, it is only given until the time of remission (usually around 3 to 6 months), after which time it is switched to another immunosuppressive agent, such as methotrexate, azathioprine (Imuran®), or mycophenolate mofetil (Cellcept®) to maintain remission. The treatment duration of the maintenance immunosuppressive medication may vary between individuals. In most instances, it is given for a minimum of 2 years before consideration is given to slowly reduce the dose toward discontinuation.”

Okay, got it. Now let’s take a look at lupus like immune mediated glomerular nephritis. MedicineNet at https://www.medicinenet.com/script/main/art.asp?articlekey=8064 reminds us about lupus:

Lupus: A chronic inflammatory disease that is caused by autoimmunity. Patients with lupus have in their blood unusual antibodies that are targeted against their own body tissues. Lupus can cause disease of the skin, heartlungs, kidneys, joints, and nervous system. The first symptom is a red (or dark), scaly rash on the nose and cheeks, often called a butterfly rash because of its distinctive shape. As inflammation continues, scar tissue may form, including keloid scarring in patients prone to keloid formation. The cause of lupus is unknown, although heredity, viruses, ultraviolet light, and drugs may all play a role. Lupus is more common in women than in men, and although it occurs in all ethnic groups, it is most common in people of African descent. Diagnosis is made through observation of symptoms, and through testing of the blood for signs of autoimmune activity. Early treatment is essential to prevent progression of the disease. A rheumatologist can provide treatment for lupus, and this treatment has two objectives: treating the difficult symptoms of the disease and treating the underlying autoimmune activity. It may include use of steroids [Gail here: Remember they’re used in treating this reader’s other disease, too.] and other anti-inflammatory agents, antidepressants and/or mood stabilizers, intravenous immunoglobulin, and, in cases in which lupus involves the internal organs, chemotherapy.

But our reader has lupus LIKE immune mediated glomerular nephritis, so she may need to deal with the symptoms, but not the treatment. Wikipedia at https://en.wikipedia.org/wiki/Immune-mediated_inflammatory_diseases informs us,

“An immune-mediated inflammatory disease (IMID) is any of a group of conditions or diseases that lack a definitive etiology, but which are characterized by common inflammatory pathways leading to inflammation, and which may result from, or be triggered by, a dysregulation of the normal immune response. All IMIDs can cause end organ damage, and are associated with increased morbidity and/or mortality.”

That’s as close as I could get to the definition of immune mediated.  We know that glomerular means of or about the glomerulus. Dictionary.com at https://www.dictionary.com/browse/glomerular helped me out here:

“Also called Malpighian tuft. a tuft of convoluted capillaries in the nephron of a kidney, functioning to remove certain substances from the blood before it flows into the convoluted tubule.”

And nephritis? After a decade of writing this blog, we probably all know that’s an inflammation of the nephrons.

Let’s combine the pieces to see what we get.  The nephron’s glomeruli are inflamed in the same way lupus inflames the organs. Remember that GPA also causes inflammation. (By the way, this is the perfect point in the blog to remind you I am not a doctor and have never claimed to be one.)

But how is it treated? Here’s where I admit defeat. There is quite a bit of information available on Lupus, Lupus Nephritis, and the like. But I could not find anything that includes ‘Lupus like.’

The commonality between the two diseases seems to be inflammation. But isn’t that at the root of all Chronic Kidney Disease? I admit to being surprised twice while writing this particular blog:

  • GPA was called by its older name by the doctor.
  • The dearth of treatment information for lupus like immune mediated glomerular nephritis.

Until next week,

Keep living your life!

I Never Knew

I’ve already mentioned that I read a lot while undergoing chemotherapy for my pancreatic cancer. I don’t have the energy for much else, although I do find my energy slowly increasing day by day. Often, I come across words or terms that are new to me as I read. One such term is ‘hypertensive nephrosclerosis.’ That’s a mouthful, so let’s start slowly.

‘Hypertensive’ is not a problem since we know that hyper means,

hyper– a prefix appearing in loanwords from Greek, where it meant “over,” usually implying excess or exaggeration (hyperbole); on this model used, especially as opposed to hypo-, in the formation of compound words (hyperthyroid).”

Thank you, Dictionary.com at https://www.dictionary.com/browse/hyper-. A little reminder: a prefix is a group of letters added at the beginning of a word which changes its meaning. Aren’t you glad I was an English teacher for over forty years?

You’ve probably already figured out that ‘tensive’ has to do with some kind of tension. According to Dictionary.com again, but this time at https://www.dictionary.com/browse/tensive?s=ts, it means,

adjective

stretching or straining”

That is a sort of tension, so you’re right. Add the prefix to the root word and suffix and you get ‘hypertension.’ Maybe a little grammar lesson would help here. A suffix is a group of letters added at the end of a word that change its meaning by expressing tendency, disposition, function, connection, etc. (By the way, some of this was taken from – yep – Dictionary.com again. This time at https://www.dictionary.com/browse/-ive?s=t.) What else? Oh, yes, ‘root.’ That’s the main part of the word; in this word, it’s tens. I know, I know, you didn’t come here for a grammar lesson.

Good thing ‘nephrosclerosis’ is a compound word. We know all about ‘nephro’ since it means kidney. And ‘sclerosis?’ That means hardening. This is a good point to mention this can be fatal. A former colleague recently died of sclerosis.

So ‘nephrolsclerosis’ is a hardening of the kidneys. Let’s check that out just to be sure. According to MedicineNet at https://www.medicinenet.com/script/main/art.asp?articlekey=4533:

 Nephrosclerosis: A progressive disease of the kidneys that results from sclerosis (hardening) of the small blood vessels in the kidneys. Nephrosclerosis is most commonly associated with hypertension or diabetes and can lead to kidney failure.

With me so far? Just one more step, let’s add ‘hypertensive’ to ‘nephrosclerosis.’ Emedicine at https://emedicine.medscape.com/article/244342-overview tells us,

“The term hypertensive nephrosclerosis has traditionally been used to describe a clinical syndrome characterized by long-term essential hypertension, hypertensive retinopathy, left ventricular hypertrophy, minimal proteinuria, and progressive renal insufficiency. Most cases are diagnosed based solely on clinical findings….”

Okay, let’s break down the definition of what we just added together to understand this term. You already know what ‘hypertension’ and ‘proteinuria’ are from reading my blogs. If you forgot, use the click throughs in the above definition. That leaves ‘hypertensive retinopathy’ and ‘left ventricular hypertrophy’ since we also know what ‘progressive renal insufficiency’ is.

‘Hypertensive retinopathy’ is summarized by DoveMed, a new site for me whose stated mission is

“We provide reliable unbiased medical information to healthcare consumers and providers by leveraging our unique ecosystem of world class products and services.”

at https://www.dovemed.com/article-synonyms/stage-4-hypertensive-retinopathy/ in this manner:

  • “Hypertensive Retinopathy (HR) refers to abnormal changes of the retina that is located in the back of the eye, due to chronic hypertension (high blood pressure)
  • The retinal arteries are autoregulated, meaning they can control their own shape based on changes in systemic blood pressure. However, at extremely high blood pressures, such as a blood pressure of 140/110 mmHg or over, they are unable to autoregulate. This can result in retinal complications
  • Depending on the severity of the signs and symptoms, Hypertensive Retinopathy can be classified to 4 stages – stage 1, 2, 3, and 4. Stage 1 Hypertensive Retinopathy has mild signs and symptoms, whereas Stage 4 Hypertensive Retinopathy has severe signs and symptoms
  • These changes typically occur in individuals who have had very high blood pressure for several years. The signs and symptoms of Hypertensive Retinopathy may include leakage of fats from the blood vessels, retinal edema (fluid in the retina), and swelling of the optic nerves
  • Some of the complications can include lack of oxygen delivered to the retina, as well as swelling of the macula and optic nerve that can result in the vision being affected
  • The treatment typically consists of controlling systemic hypertension with medications. Prognosis is generally good for individuals with stage 1 or 2 Hypertensive Retinopathy”

That leaves ‘left ventricular hypertrophy.’ Have no fear! The Mayo Clinic at https://www.mayoclinic.org/diseases-conditions/left-ventricular-hypertrophy/symptoms-causes/syc-20374314 is here to help us out:

“Left ventricular hypertrophy is enlargement and thickening (hypertrophy) of the walls of your heart’s main pumping chamber (left ventricle).

Left ventricular hypertrophy can develop in response to some factor — such as high blood pressure or a heart condition — that causes the left ventricle to work harder. As the workload increases, the muscle tissue in the chamber wall thickens, and sometimes the size of the chamber itself also increases. The enlarged heart muscle loses elasticity and eventually may fail to pump with as much force as needed.

Left ventricular hypertrophy is more common in people who have uncontrolled high blood pressure. But no matter what your blood pressure is, developing left ventricular hypertrophy puts you at higher risk of a heart attack and stroke.

Treating high blood pressure can help ease your symptoms and may reverse left ventricular hypertrophy.”

Adding all this information together, it’s clear that hypertensive blood pressure is going to do you no good in any way. So what do we do to avoid high blood pressure? That’s right! And the CDC backs you up. Take a look at https://www.cdc.gov/bloodpressure/prevent.htm.

“Prevent High Blood Pressure

….Eat a Healthy Diet

Choose healthy meal and snack options to help you avoid high blood pressure and its complications. Be sure to eat plenty of fresh fruits and vegetables.

Talk with your health care team about eating a variety of foods rich in potassium, fiber, and protein and lower in salt (sodium) and saturated fat. For many people, making these healthy changes can help keep blood pressure low and protect against heart disease and stroke.

The DASH (Dietary Approaches to Stop Hypertension) eating plan is a healthy diet plan with a proven record of helping people lower their blood pressure….

Visit the CDC’s Nutrition, Physical Activity, and Obesity website to learn more about healthy eating and nutrition.

Keep Yourself at a Healthy Weight

Having overweight or obesity increases your risk for high blood pressure. To determine whether your weight is in a healthy range, doctors often calculate your body mass index (BMI). If you know your weight and height, you can calculate your BMI at CDC’s Assessing Your Weight website. Doctors sometimes also use waist and hip measurements to assess body fat.

Talk with your health care team about ways to reach a healthy weight, including choosing healthy foods and getting regular physical activity.

Be Physically Active

Physical activity can help keep you at a healthy weight and lower your blood pressure. The Physical Activity Guidelines for Americans recommends that adults get at least 2 hours and 30 minutes of moderate-intensity exercise, such as brisk walking or bicycling, every week. That’s about 30 minutes a day, 5 days a week. Children and adolescents should get 1 hour of physical activity every day.

Visit the website for CDC’s Division of Nutrition, Physical Activity, and Obesity to learn about ways you can be physically active.

Do Not Smoke

Smoking raises your blood pressure and puts you at higher risk for heart attack and stroke. If you do not smoke, do not start. If you do smoke, quitting will lower your risk for heart disease. Your doctor can suggest ways to help you quit.

For more information about tobacco use and quitting, see CDC’s Smoking and Tobacco Use Web site.

Limit How Much Alcohol You Drink

Do not drink too much alcohol, which can raise your blood pressure. Men should have no more than 2 alcoholic drinks per day, and women should have no more than 1 alcoholic drink per day. Visit the CDC’s Alcohol and Public Health website for more information.

Get Enough Sleep

Getting enough sleep is important to your overall health, and enough sleep is part of keeping your heart and blood vessels healthy. Not getting enough sleep on a regular basis is linked to an increased risk of heart disease, high blood pressure, and stroke…. Visit CDC’s Sleep and Sleep Disorders website for resources on how to get better sleep.”

Until next week,

Keep living your life!

Kidney Healthy Food Labels?

How many of you remember the KidneyX competition? Let me refresh your memories, just in case. This is from this year’s January 13th, blog:

“Redesign Dialysis Phase II

Building off the success of KidneyX’s inaugural prize competition, Redesign Dialysis Phase I, Phase II challenges participants to build and test prototype solutions, or components of solutions, that can replicate normal kidney functions or improve dialysis access. Up to 3 winners will each be awarded $500,000.

Submissions are due by 5:00 ET on January 31, 2020.

Who Can Participate?

You can submit a solution even if you did not submit anything in Phase I….

What is KidneyX Looking for in Redesign Dialysis, Phase II?

We are seeking prototype solutions that address any of these categories:

  • Blood Filtration (filtering blood to remove waste and excess fluid)
  • Electrolyte Homeostasis (maintaining appropriate levels of key minerals in the blood)
  • Volume Regulation (regulating the amount of and/or removing excess fluid).
  • Toxin Removal and Secretion (removing, limiting or preventing toxins in the bloodstream).
  • Filtrate Drainage and Connectivity (removing excess filtrate after processing; connectivity issues for filtration, processing, and exterior drainage)
  • Dialysis Access (vascular, peritoneal, blood circuit, or alternative (e.g., GI tract) access)

… design targets, as well as the categories themselves, were developed based on the Kidney Health Initiative’s Technology Roadmap for Innovative Approaches to Renal Replacement Therapy, which is an excellent resource to learn more about technical and scientific needs in this space.

Tests of the prototype’s function or performance should demonstrate rigor, reproducibility, and statistical analysis….

You can learn more at https://www.kidneyx.org/prizecompetitions/RedesignDialysisPhase.”

I was lucky enough to have one of the phase I winners contact me re a two question survey about his entry. That led to a few emails back and forth which resulted in Anthony’s guest blog today….

“My name is Anthony, and I was recently chosen as a winner in the KidneyX, ‘Patient Innovator Challenge’ competition. KidneyX is a recently formed partnership between the US Department of Health and Human Services (HHS) and the American Society of Nephrology (ASN).  According to their website, they were established ‘to accelerate innovation in the prevention, diagnosis, and treatment of kidney disease.’  The competition welcomed the public to submit ideas on how to improve therapeutic options and the quality of life for those living with kidney disease.

As a former employee of a dialysis company, I always thought that there was something more that could be done in terms of the prevention and treatment of people living with kidney disease. The lack of awareness and research around kidney disease was always a concern to me. Quite frankly I never stopped thinking about it, even after my departure from the industry.  Then one day, I came up with an idea that I believe will solve a lot of problems within the CKD community. My solution is ‘Kidney Healthy’ food labels.

Food labels are a major factor in dictating consumer food purchases today. With major food labels such as ‘gluten free’ and ‘organic’ leading the way, many consumers are now allowing food labels to dictate their purchasing decisions. Consumers are now demanding more transparency in the foods they eat, and food labels serve as a driving force for consumers to take control of their health.

The statistics on kidney disease are not very promising. According to the National Kidney Foundation, Chronic Kidney Disease, or CKD affects an estimated 37 million people in the United States, which equates to 15% of the population. 468,000 of those individuals are currently on dialysis (End Stage Renal Disease), a treatment that cost this country $89,000 per patient each year, which equates to a cost of almost $42 billion dollars a year. According to The Kidney Project, ESRD is increasing in the United States by 5% each year, so it’s only inevitable that this cost is going to continue to increase as the years go by. In addition, two million people suffer from ESRD worldwide; this number is increasing by 5-7% each year.

I believe ‘Kidney Healthy’ food labels could serve as a universal solution to slow down the progression, lower the cost, create better patient outcomes, and ultimately bring more awareness to those living with (and without) Chronic Kidney Disease.

I decided to submit my idea to the KidneyX ‘Patient Innovator Challenge’ competition, and was so honored to be chosen as a winner.  Although I do understand that when it comes to kidney disease, there really isn’t a ‘one diet fits all,’ I still would love to live in a world where kidney patients can rely on a universal food label (such as organic or gluten-free). Obviously a food certification process would have to be created to establish this label, or labels for that matter (CKD Stage 1, 2, 3, etc. label), but my goal is to have a more standardized approach to the kidney diet for patients by way of ‘Kidney Healthy’ food labels.

My next step is to get my idea in front of the CKD community. I am currently conducting an independent research project that I need your help with. I believe that creating Kidney Healthy Food labels (similar to organic and gluten-free) will assist in slowing down the progression of Chronic Kidney Disease, and preserve a better quality of life for both CKD and ESRD patients.

As a member of the CKD Community, Please take this 2 Question Survey to help. Your participation is greatly appreciated!

When you are finished, please forward this survey to the CKD community to assist in helping.

Here is the link to the survey:

https://www.surveymonkey.com/r/KidneyHealthyFoodLabels

 

In other news, those who were interested in Flavis’s low protein, low sodium, low phosphorous products may find their Ditali appealing. We enjoyed the delicate taste of this pasta. By the way, their chocolate chip cookies were pretty good, too.

Keep yourselves as safe as you can during the lock down. Lock down is better than die any day and we are especially open to the virus with our compromised immune systems. Keep that in mind when you start to get restless.

Until next week,

Keep living your life!

Saving Lives

Last week, I promised to write about COVID-19 and Chronic Kidney Disease for today’s blog. This topic has touched me personally since one of my daughters was sent to the hospital when it was suspected she’d contacted the virus. Without the COVID-19 test, we still don’t know if she has the virus. We do know she still has the cough. Luckily, an x-ray proved her lungs were clear, so she was sent home with a Z-pack and orders to take Tylenol. No, she doesn’t have CKD, but her treatment at the hospital left me with a lot of questions for those of us who do.

Once again, I’m rushing headlong into the topic. Let’s slow down and start at the beginning. Why is it called COVID-19 anyway? According to the Centers for Disease Control and Prevention (CDC) at https://www.cdc.gov/coronavirus/2019-ncov/faq.html,

“On February 11, 2020 the World Health Organization announced an official name for the disease that is causing the 2019 novel coronavirus outbreak, first identified in Wuhan China. The new name of this disease is coronavirus disease 2019, abbreviated as COVID-19. In COVID-19, ‘CO’ stands for ‘corona,’ ‘VI’ for ‘virus,’ and ‘D’ for disease. Formerly, this disease was referred to as ‘2019 novel coronavirus’ or ‘2019-nCoV.’”

There are many types of human coronaviruses including some that commonly cause mild upper-respiratory tract illnesses. COVID-19 is a new disease, caused be [sic] a novel (or new) coronavirus that has not previously been seen in humans. The name of this disease was selected following the World Health Organization (WHO) best practice for naming of new human infectious diseases.”

I don’t know about you, but I want to know about corona viruses. How did they get that name? So I went to Dictionary.com at https://www.dictionary.com/browse/coronavirus where I hoped to find that information. This is what was there.

“any of various RNA-containing spherical viruses of the family Coronaviridae, including several that cause acute respiratory illnesses.”

To be honest, all I understood was that it “causes acute respiratory illnesses.” Like my daughter’s coughing. But why would she be given a Z-pack for that? Healthcare-Online at www.healthcare-online.org/What-Is-A-Z-Pack.html confirmed my belief that antibiotics are for bacterial infections, not viral ones. Curiouser and curiouser.

Drugs.com at https://www.drugs.com/medical-answers/antibiotics-kill-coronavirus-3534867/ had the answer.

“The World Health Organization (WHO) is very clear that antibiotics do not work against viruses, only bacteria, and yet health care providers are using antibiotics in some patients with COVID-19. This is because:

  • Patients with viral pneumonia can develop a secondary bacterial infection that may need to be treated with an antibiotic, although, this complication is reported to be uncommon early on in the course of COVID-19 pneumonia.
  • Also known as Azithromycin, a Z-pack is a medication used for treating serious and severe infections caused by bacteria. It contains macrolide antibiotic, which helps in stopping all forms of growth caused bantibiotic, although, this complication is reported to be uncommon early on in the course of COVID-19 pneumonia.If treatment is required for a secondary bacterial infection then a range of antibiotics can be used such as penicillins (ampicillin plus sulbactam [Unasyn], piperacillin plus tazobactam [Zosyn]), macrolides (azithromycin), cephalosporins (ceftriaxone [Rocephin]), aminoglycosides (tobramycin) and glycopeptides (vancomycin [Vancocin HCL]) for example. Often a combination of two different antibiotics is used.
  • Azithromycin is also thought to have antiviral and anti-inflammatory activity and may work synergistically with other antiviral treatments. In in vitro laboratory studies azithromycin has demonstrated antiviral activity against Zika virus and against rhinoviruses, which cause the common cold.”

Time to deal with CKD when you have COVID-19. I wanted to understand how CKD could make you more vulnerable to this disease. I turned to Prevention at https://www.prevention.com/health/a31245792/coronavirus-high-risk-groups/ for more information.

“People with underlying health conditions are at a higher-than-normal risk of developing severe forms of COVID-19…. When your body is already dealing with a separate health condition, it has less energy to put toward fighting an acute infection…. The CDC says these conditions include:

  • Blood disorders, such as sickle cell disease or taking blood thinners
  • Chronic kidney disease, as defined by your doctor
  • Chronic liver disease, as defined by your doctor
  • Compromised immune system, including undergoing cancer treatment such as chemotherapy or radiation, having received an organ or bone marrow transplant, or taking     high doses of corticosteroids or other immunosuppressant medications, and HIV or AIDS
  • Current or recent pregnancy in the last two weeks
  • Endocrine disorders, such as diabetes
  • Metabolic disorders
  • Heart disease
  • Lung disease, including asthma
  • Neurological and neurologic and neurodevelopment conditions”

This is definitely not a case of misery loves company. Not only do I have CKD, but I am undergoing chemotherapy. Oh, and I have diabetes. To all others in the high risk group, I’m so sorry we all belong to this particular community right now.

Hmmm, do we need to do something more than everyone else needs to do to avoid COVID-19? After spending more time than usual surfing the web, I admit I was surprised that there were no extra precautions other than those for everyone else. What are those you ask? Back to the CDC for their infograph at https://www.cdc.gov/coronavirus/2019-ncov/downloads/COVID19-What-You-Can-Do-High-Risk.pdf which makes it easy for us to understand. It also defines who is higher risk. Unfortunately, it could not be reproduced, so you’ll have to go to the website directly.

I always seem to feel better when I understand what might be a threat to me or anyone in one of my communities. The purpose of today’s blog was to help you understand so that you may also feel better. Make no mistake: This is serious. I only go out to Chemotherapy every other week. Even young, not high risk people from my dancing community are being safe. They are not going out either (unless they are essential workers). Do yourself a favor and save your life by staying in.

Until next week,

Keep living your life!

Lovely, Lovely Medicinal Food

A few weeks ago, I received some interesting emails from a company called Flavis. I hadn’t heard of them before, so I followed my curiosity and emailed back. It turns out they’re a company that produces low protein, potassium, phosphorous, and sodium carbohydrates. Hmmm, as Chronic Kidney Disease patients we need to keep a lid on our intake of these electrolytes. Could this company and others like them help?

They were kind enough to send samples of their wares. Some of it tasted like medicinal food, but oh those cookies. It would be dangerous for me to keep them in the house. My husband, who doesn’t have CKD, loved them, too. I enjoyed their pasta products, too. Now, lest you get the wrong idea, I am not endorsing this company because I don’t know what others like it are available. However, I wanted to know about their products… which may very well be similar to the products of other such companies and, therefore, helpful to CKD patients.

According to my thinking, logically the first thing to do was look at their website. You can find it at http://www.Flavis.com just as I did. I’m going to copy and paste the parts of their Chronic Kidney Disease material that will help us understand more about this product.

“FLAVIS kidney-friendly foods are starch-based and have reduced protein, phosphorus, sodium, and potassium content. They reduce the kidneys’ workload, and they have the same look, taste, and calorie Content as the foods they replace. These products include pasta, rice, bread, bread products (breadsticks, crostini, rolls, sliced bread, crackers), sweets, and flour. They are suitable for patients in all stages of CKD, especially in the conservative management at stage 3-4.”

I have to admit, the bread was not bad at all and, if Bear had liked the taste more, I would have been perfectly happy using only their pasta products. I liked their taste. Unfortunately, I automatically cooked the rice in the electric rice cooker, apparently a no-no, so I can’t say anything about the taste of the rice.

My goodness! I am endorsing Flavis. Why? Look what I found on the National Kidney Foundation website:

FLAVIS and the NKF Team-Up to Promote Kidney Health Through Diet

FLAVIS, the kidney friendly food brand, and the National Kidney Foundation partner to promote medical nutrition therapy to help maintain residual kidney function among chronic kidney disease patients

New York, NY – April 8, 2019 – Dr. Schar USA’s (Lyndhurst, NJ) kidney friendly food brand, FLAVIS is teaming up with the National Kidney Foundation to promote the benefits of special dietary foods for people with chronic kidney disease (CKD). FLAVIS, offering a wide portfolio of kidney friendly breads, pasta, snacks, and baking products provides nutrition solutions for patients following a diet low in protein, phosphorus, sodium and potassium, and support to kidney healthcare professionals. The National Kidney Foundation is the largest, most comprehensive and longstanding patient-centric organization dedicated to the awareness, prevention and treatment of kidney disease.

CKD affects 15% of the U.S. adult population. This disease progresses to higher stages as kidney function declines. Some studies show that medical nutrition therapy (MNT) using a low protein diet, under the direction of a nephrologist and registered dietitian nutritionist (RDN), may slow this decline. Through this partnership, FLAVIS and the National Kidney Foundation will provide educational outreach to healthcare professionals that promotes the importance of MNT and proper nutrition for CKD patients to improve dietary adherence and quality of life.

Medical nutrition therapy for CKD, as implemented by a registered dietitian nutritionist, emphasizes an individualized diet plan based upon each patient’s clinical status, goals, and preferences.  MNT for CKD patients includes one or more of the following: decreased sodium, phosphorus, and protein intake, along with sufficient energy, high fiber, and decreased saturated fat intake.  Potassium may also be restricted if the patient has high serum potassium levels. The benefits of MNT include decreasing the risk of complications from high blood pressure and diabetes, reduced uremic toxin levels, and preserved kidney function over time. Studies of MNT in Americans with CKD have shown only about 10% of those eligible receive this nutrition counseling support. FLAVIS’ products are a good source of energy and fiber, and are low in protein, sodium, phosphorus and potassium. These products may help people with CKD preserve kidney function and improve disease outcomes. In partnering with the National Kidney Foundation, FLAVIS aims to provide education and awareness about the benefits of MNT to promote improved quality of life in the CKD population.  For more information about this partnership visit kidney.org/FLAVIS.

Kidney Disease Facts

In the United States, 30 million adults are estimated to have chronic kidney disease—and most aren’t aware of it.  1 in 3 American adults are at risk for chronic kidney disease.  Risk factors for kidney disease include diabetes, high blood pressure, heart disease, obesity, and family history. People of African American, Hispanic, Native American, Asian, or Pacific Islander descent are at increased risk for developing the disease.  African Americans are 3 times more likely than Whites, and Hispanics are nearly 1.5 times more likely than non-Hispanics to develop end stage renal disease (kidney failure).”

 

I am happy to have found this. I remember – even though it was a decade ago – how hard it was to adapt my regular diet to the kidney diet and how often I had to respond, “No, thank you,” after asking the ingredients of a certain meal. Thank you Dr. Shar for helping my fellow CKD sufferers and me enjoy guilt free meals when we feel like having pasta.

By the way, I’m not ignoring COVID-19, I assure you. I’m sifting through all the information I can find before I write about it. As you know, that information changes daily. I’ve ordered my masks and searched out my gloves from the garage. I stay at home except when I have to go out for chemotherapy… and those trips concern me.

Until next week,

Keep living your life!

 

National Kidney Month is Almost Over

Welcome to the next to last day of National Kidney Month, 2020. Of course, that doesn’t mean you should stop taking care of your kidneys or spreading Chronic Kidney Disease awareness once National Kidney Month is over, but I don’t have to tell you that, do I? What I’d like to tell you about instead is the ins and outs of National Kidney Month.

In my latest book (Cancer has definitely slowed the arrival of SlowItDownCKD 2019, but soon, my friends, soon.) SlowItDownCKD 2018, I wrote:

“As usual, let’s start at the beginning. What is National Kidney Month? Personalized Cause at https://www.personalizedcause.com/health-awareness-cause-calendar/national-kidney-month has a succinct explanation for us. By the way, while I’m not endorsing them since the site is new to me, I should let you know they sell the green ribbons for National Kidney Month that you’ll probably be seeing hither and yon all month. [Added today: Come to think of it, some readers have asked me where to get CKD ribbons. This is what this site sells among other things.]

‘National Kidney Month, observed in March and sponsored by the National Kidney Foundation, is a time to increase awareness of kidney disease, promote the need for a cure, and spur advocacy on behalf of those suffeing [sic] with the emotional, financial and physical burden of kidney disease. The National Kidney Foundation is the leading organization in the U.S. dedicated to the awareness, prevention and treatment of kidney disease for hundreds of thousands of healthcare professionals, millions of patients and their families, and tens of millions of Americans at risk.’

That, of course, prompted me to go directly to the National Kidney Foundation’s information about National Kidney Month at https://www.kidney.org/news/monthly/Focus_KidneyMonth.

Focus on the Kidneys During National Kidney Month in March

March is National Kidney Month and the NKF is urging all Americans to give their kidneys a second thought and a well-deserved checkup. Kidneys filter 200 liters of blood a day, help regulate blood pressure and direct red blood cell production. But they are also prone to disease; 1 in 3 Americans is at risk for kidney disease due to diabetes, high blood pressure [Added today: This year’s theme for National Kidney Month is high blood pressure and your kidneys.] or a family history of kidney failure. There are more than 30 million Americans [Added today: 31 million this year] who already have kidney disease, and most don’t know it because there are often no symptoms until the disease has progressed….’

I wanted to share this quote from the American Kidney Fund with you, both as a CKD awareness advocate and a woman:

‘Kidney disease is a silent killer that disproportionately affects women who are often the primary caregivers for loved ones with the disease, are more likely to become living donors but less likely to receive a transplant, and are at higher risk for CKD,’ said LaVarne A. Burton, president and chief executive officer of AKF. ‘Because women with kidney disease may also face other health issues, including infertility, pregnancy complications, bone disease and depression, AKF is using Kidney Month to let women know we are here to support them and to provide resources that will answer their questions and concerns.’

The Renal Support Network at https://www.rsnhope.org/ is working even more emphatically to spread kidney disease awareness this month, too:

‘March is National Kidney Month. This is a special time set aside to raise awareness about kidney health and activities. RSN invites members of the kidney community, our friends and our families to join in the conversation.’

This on top of their usual. For those that are not familiar with this group, the following statement is from their website.

‘Since 1993 RSN has created and continues to produce a vast collection of information about kidney disease. Feel free to share our National Kidney Month page, a favorite story, KidneyTalk™ show or awareness image on social media using the hashtag #KidneyMonth and be sure to tag us @RSNhope.’

DaVita Kidney Care at https://www.davita.com/education/resources offers many resources (as the website’s URL assures us) to help understand both CKD and dialysis. Some of their offerings are:

If you click through on the link offered above, each item will open on a new page.”

This year (2019), I noticed that The National Institute of Diabetes and Digestive and Kidney Diseases at https://www.niddk.nih.gov/health-information/community-health-outreach/national-kidney-month offers us even more information during National Kidney Month:

“March is National Kidney Month, a time when communities across the country raise awareness about kidney disease. In partnership with the National Heart, Lung, and Blood Institute (NHLBI), this year’s focus is the link between high blood pressure and kidney disease.

If you have high blood pressure, you’re at risk for chronic kidney disease, a serious condition that can lead to stroke, heart attack, kidney failure, and death.

The good news is that you can help protect your kidneys by managing high blood pressure with these 6 healthy lifestyle habits.

  1. Take medications as prescribed.  Your doctor may prescribe blood pressure-lowering medications that are effective in slowing the development of kidney disease.
  2. Aim for a healthy weight. If you are overweight or obese, losing even a small amount of weight can improve blood pressure readings.
  3. Select healthier food and beverage options.  Focus on fruits and vegetables, lean meat, whole grains, and other heart-healthy foods.
  4. Try to quit smoking. If you smoke, take steps to quit.
  5. Get enough sleep. Aim for 7 to 8 hours of sleep per night.
  6. Manage stress and make physical activity part of your routine. Consider healthy stress-reducing activities and get at least 30 minutes or more of physical activity each day.

Learn more about high blood pressure and kidney disease

As for me, I’ll blog my brains out until more and more people are aware of kidney disease. Same goes for the Instagram, Facebook, Twitter, Pinterest, and LinkedIn accounts. It’s all about kidney disease awareness.

Until next week,

Keep living your life!

James’s Kidney Transplant Wasn’t Preemptive

Last week, the third week of National Kidney Month, Kevin Fowler told us his story of the journey to his preemptive kidney transplant. This week, the fourth of National Kidney Month, James will tell us of his journey to a non preemptive kidney transplant. In case you were wondering, James and I met at an AAKP meeting in Tampa several years ago and just never lost contact. But let’s allow Uncle Jim (as he prefers to be called) tell his story.

My name is James Myers. I live in Hammond, IN. I am an ESRD & PKD patient. I was lucky enough to have a transplant on April 27th, 2016. I write to you today to tell you my story, as well as my experiences with polycystic kidney disease. At the age of 25, I went into the hospital with chest pain. From a simple x-ray, I was diagnosed with PKD.

I have lost five members of my family to PKD, including my dad. Because of my family’s history, I was immediately referred to Dr. Hellman, a nephrologist at Indiana University Health. He promptly put me on high blood pressure medication and a renal diet. I faithfully followed up at the kidney clinic every six months and took my medicine. I did the best I could do to stay on the kidney diet. There is no cure for PKD, and at that time, there was very little they could do for me.

I tried to ignore my condition and carry on with my life, but in reality, the fact is that after I was diagnosed with kidney failure, all of my decisions were colored by my impending death, or so I thought. It was a factor in a failed marriage, a legal career being cut short, and two professorships at two different colleges lost. I loved being with the kids.

Every step that I took from the date of my diagnosis was for one reason and one reason only; to avoid dialysis. I was able to do that for over 30 years, but in 2012. I could not delay it any longer. I began passing out, at home, in my classroom, everywhere. Many times after passing out, I was fearful I would be unable to reach the phone and call for help. I lived alone, and this caused a great deal of anxiety. At the age of 58, on July 28th, I started what would be a four year stretch on dialysis. My schedule was three days a week, four hours per session.

I was very, very angry when I first went on dialysis. After watching my dad die, I felt this was the beginning of the end. I had dreaded this for a long time. My dad passed after a short five years on dialysis, and I felt I was on the same life path as he. My days were numbered. I observed that many of my clinic mates came to the center by ambulance, were brought in on a gurney, walker, or wheelchair. Many used a cane. Many were diabetic on top of ESRD, and had suffered amputations. Five people were 90 years old or more. One woman was autistic and had the mentality of a 10 year old.

One of my dearest friends, Maureen O’Brien, looked after me. She forced me to open my eyes. I was able to drive and walk around on my own power. I had a fairly clear mind. I was taking classes toward two MBAs and was teaching other MBA candidates at the same time. Maureen had been dealing with kidney disease since the age of six. Every step along the way she had to argue and fight with healthcare officials. She had three transplants. Maureen provided encouragement and a bright, vivid smile. She provided a light on my path.

I began to understand my role. I made a conscious choice. I wanted to help my fellow Kidney Patients. I wanted to use my loud voice to help others. I wanted to advocate for my clinic mates who could not advocate for themselves. I did not like the way the dialysis clinics, the government, and the care staff pushed around or neglected my fellow Kidney Patients. The last straw for me was when they began to push for the cutting of funds to dialysis patients and clinics. I looked around the room and I realized with my health and skill set, I was the only one who could help. It occurred to me that if i did not accept this responsibility, maybe no one else would.

I joined as many kidney organizations as I could, I applied to be an advocate for as many groups as I could. I became very, very active on social media. I wrote petitions, I blogged, I contacted newspapers, I spoke and visited with my Congressman and Senators. I spoke frequently. To this day, I do whatever I have to do to bring about change for my fellow Kidney Patients. My life has purpose now. I like to think that my dad & Maureen would be proud of me.

I know that many of you are not used to me writing this way. I feel it is my responsibility to lift spirits, so I rarely talk about personal issues anymore. It is my hope to inspire others to likewise advocate for our fellow Kidney Patients. My friend Gail asked me to write my story out. Gail has been very candid with me, so I felt as she advocates for us, I should be just as candid with her & all of you. The point of this Kidney Story is to raise hope and to thank Gail and all of you that advocate for Kidney Patients.

PKD affects approximately 600, 000 Americans and 12.5 million people worldwide. It is one of the most inherited diseases on the planet. Polycystic Kidney Disease is more common than Cystic Fibrosis, Sickle Cell Anemia, Muscular Dystrophy, Hemophilia, Downs Syndrome, and Hodgkins Disease combined. PKD is one of the four leading causes of Kidney Failure. It costs the federal government in excess of $2 Billion annually in Medicare and Medicaid costs for dialysis, transportation and related treatment. There is no cure.

Sincerely,

James Myers
2019 Advocate of the Year for the NKF
BOD and Ambassador for the AAKP
Ambassador for the Chronic Disease Coalition
Ambassador for the NKF of Indiana
Ambassador for the American Kidney Fund
Ambassador for the PKD Foundation
Ambassador for the DPC

Thank you, Uncle Jim, for your generous sharing and even more generous advocacy.

Until next week,
Keep living your life!

Kevin Got His Preemptive Kidney Transplant

Several years ago,  I was invited to a kidney disease meeting. That’s where I first met Kevin Fowler, Principal of The Voice of the Patient, Inc. I liked listening to his ideas. Later, we walked into each other at an AAKP conference. This time I thoroughly enjoyed his company, but had quite a few questions about pre-emptive transplants. Kevin was good enough to explain his story, which answers my questions, in this guest blog during National Kidney Month. Take it away, Kevin! 

Kidney disease has always been a part of my life.  When I was growing up, my mom told me stories about her father who had suffered from Autosomal Polycystic Kidney Disease ( ADPKD), a disease which prompts the growth of cysts on the kidneys. My mom was the oldest of three sisters, and had great love and affection for my grandfather, Hubert Duvall.  I never had a chance to meet him because he died before I was born. It was the late 1950s when he was admitted to the hospital because he was not feeling well. Unknown to him, he was experiencing uremia, the inability of the kidneys to rid themselves of waste products such as urea, as he went into kidney failure. Shortly after his hospital admission he died.  As he neared death, he learned that ADPKD was the cause of his kidney failure. 

My grandfather’s patient journey had a profound impact upon his three daughters: Mary Ann, Ruth, and Laverne in that his genetic disease was passed on to each of them.  My mom, Mary Ann, was diagnosed after the birth of her third child. Imagine the joy of giving birth to a child while being diagnosed with a disease with limited scientific knowledge and a very uncertain future.  My mom and dad faced the unknown with a positive attitude, but with very little professional guidance.

As a young boy, I was very close to my mom.  I felt her unconditional love for me, and her whole life was dedicated to her three children.  As her ADPKD advanced, I saw her suffer with the disease. I saw her experience constant back pain, routine exhaustion and nausea.  All of this physical suffering was difficult to understand as a young child. Moreover, what was really difficult was the look on her face as she faced a nebulous future.

Eventually, my mom’s kidneys failed.  Unlike my grandfather, hemodialysis was available as a treatment option to sustain her life.  She started hemodialysis at the age of 48. While she approached dialysis with optimism, her future was never clear to her or our family.  I saw my mom struggle to survive on dialysis. I saw her return home from dialysis feeling exhausted and tired. I saw that when she had a rough hemodialysis session, it would take her longer to recover from the treatment.  She never bemoaned her fate, and provided us the legacy of her example.

After four and a half years on hemodialysis, my mom died at the age of 52.  Her dialysis experience left an indelible impression upon me. From that point on, I lived in fear that I would face the same fate.  I choose to never determine if I had the same disease. In many ways, it was a rational decision. Interventions were not able to slow down the progression of ADPKD.  If I were diagnosed with ADPKD, I would be penalized. I would face difficulty obtaining health and life insurance. The fear of facing the same patient journey as my mom was always hanging over my head, and I didn’t have the courage to determine if I too had ADPKD.  

I was married to my wife, Kathy, in 1995, and in less than five years we had two children.  During this time, I was being seen by a primary care physician who was aware of my ADPKD family history.  My kidney function was tested on my annual appointments, and he told me that my kidney function was fine. He stated that if I had ADPKD, there was not much that could be done to slow down the progression.  Later that same year near the Christmas season, I experienced deep flank (the side of your body between the bottom rib and the hip) pain. Initially, I attributed it to moving some furniture. The pain persisted, and because of my additional responsibilities as a husband and father, I called my primary care physician requesting an ultrasound test.  The ultrasound test would determine once and for all whether I too had ADPKD.

On a cold and sunny day in January 2001, my physician administered the ultrasound test. Watching his reaction told me all I needed to know.  At the age of 39, I was informed that I would be in kidney failure within the next three to five years. He offered to make a nephrology referral, but I declined.  Since he had not demonstrated competence managing my condition, I intuitively sensed that I could not trust his referral would serve my best interests. 

At that time, I was working in the pharmaceutical industry, so I called a physician friend at Barnes Hospital in St. Louis seeking a nephrology recommendation.  On my mother’s birthday, I met with my nephrologist – who had a profound impact on my life. He informed me that it was not necessary to be on dialysis, and that I could have a preemptive kidney transplant.  Because of my fear, I had never taken the time to learn about the different End Stage Kidney Disease treatment options. I was incredibly fortunate to receive the best treatment option.

On this recently past World Kidney Day, the theme was prevention due to detection.  In the United States approximately 90% of those with Stage 3 Chronic Kidney Disease are unaware of their condition.  This is no longer acceptable. The American Kidney Health Executive Order has initiated a public campaign to detect kidney disease earlier.  In fact, the National Kidney Foundation and CVS Kidney Care launched their public awareness campaign this month, National Kidney Month.  Unlike when I was diagnosed, there are now approved treatments to slow down the progression of kidney diseases.  There are potentially additional treatments in the pipeline for ADPKD, Diabetic Kidney Disease, FSGS, IGAN, etc. For many people there is no longer a need to live in fear.  There is a very real possibility that their patient journey may change for the better.

Thank you, Kevin, for sharing your personal kidney journey with us. Kevin may be reached via email at kevinjohnfowler@gmail.com or on Twitter as @gratefull080504.

 

Until next week,

Keep living your life!

Missing the Connection

During this second week of National Kidney Month, we have another reader directed blog. She had stumbled across The Long Awaited Sulfa Blog and had some questions about it and NAC. Hold on, I’ll get to NAC in a moment. Let’s start with sulfite, which I had always thought was not the same as sulfa. Did our reader mistype? Her verbatim question was, “Have you heard anything about NAC and CKD with sulfite sensitivity?”

According to MedicineNet at https://www.medicinenet.com/script/main/art.asp?articlekey=27721:

“Sulfite sensitivity: Adverse reactions of an allergic nature to sulfites. Sulfites occur in fermentation and also occur naturally in a number of foods and beverages including wine. Sulfites are used for their preservative properties. Sulfite sensitivity occurs most often in asthmatic adults — predominantly women. It is uncommon in preschool children. Adverse reactions to sulfites in nonasthmatics are rare. Sulfite sensitivity reactions range from mild to severe and may include skin, respiratory, or gastrointestinal signs and symptoms. Bronchoconstriction with wheezing is the most common sensitivity response in asthmatics.”

While I do know this reader is a woman, I do not know if she is asthmatic or a wine drinker.

Let’s move along to NAC. Healthline at https://www.healthline.com/nutrition/nac-benefits#section12 (Yes, that is the same Healthline that chose SlowItDownCKD as best kidney blog two years in a row.) tells us, it is N-Acetyl Cysteine and explains what this supplement is and what it can do for you. I added asterisks next to definitions you may need.

“Cysteine is a semi-essential amino acid.

It’s considered semi-essential because your body can produce it from other amino acids, namely methionine and serine. It becomes essential only when the dietary intake of methionine and serine is low.

Cysteine is found in most high-protein foods, such as chicken, turkey, yogurt, cheese, eggs, sunflower seeds and legumes.

N-acetyl cysteine (NAC) is a supplement form of cysteine.

Consuming adequate cysteine and NAC is important for a variety of health reasons — including replenishing the most powerful antioxidant in your body, glutathione. These amino acids also help with chronic respiratory conditions, fertility and brain health.

Here are the top 9 health benefits of NAC.

  1. Essential for Making the Powerful Antioxidant Glutathione

NAC is valued primarily for its role in antioxidant production.

Along with two other amino acids — glutamine and glycine — NAC is needed to make and replenish glutathione.

*Glutathione is one of the body’s most important antioxidants, which helps neutralize free radicals that can damage cells and tissues in your body.

It’s essential for immune health and fighting cellular damage. Some researchers believe it may even contribute to longevity ….

Its antioxidant properties are also important for combatting numerous other ailments caused by oxidative stress, such as heart disease, infertility and some psychiatric conditions….

  1. Helps With Detoxification to Prevent or Diminish Kidney and Liver Damage

NAC plays an important role in your body’s detoxification process.

It can help prevent side effects of drugs and environmental toxins….

In fact, doctors regularly give intravenous (IV) NAC to people with an acetaminophen overdose to prevent or reduce kidney and liver damage ….

NAC also has applications for other liver diseases due to its antioxidant and anti-inflammatory benefits ….

  1. May Improve Psychiatric Disorders and Addictive Behavior

*NAC helps regulate levels of glutamate — the most important neurotransmitter in your brain….

While glutamate is required for normal brain action, excess glutamate paired with glutathione depletion can cause brain damage.

This may contribute to mental health conditions, such as bipolar disorder, schizophrenia, obsessive-compulsive disorder (OCD) and addictive behavior….

For people with bipolar disease and depression, NAC may help decrease symptoms and improve your overall ability to function. What’s more, research suggests that it may play a role in treating moderate to severe OCD ….

NAC supplements can also help decrease withdrawal symptoms and prevent relapse in cocaine addicts ….

  1. Helps Relieve Symptoms of Respiratory Conditions

NAC can relieve symptoms of respiratory conditions by acting as an antioxidant and expectorant, loosening mucus in your air passageways.

As an antioxidant, NAC helps replenish glutathione levels in your lungs and reduces inflammation in your bronchial tubes and lung tissue.

People with chronic obstructive pulmonary disease (COPD) experience long-term oxidative damage and inflammation of lung tissue, which causes airways to constrict — leading to shortness of breath and coughing.

NAC supplements have been used to improve COPD symptoms, exacerbations and lung decline ….

Those with chronic bronchitis can also benefit from NAC.

Bronchitis occurs when the mucous membranes in your lungs’ bronchial passageways become inflamed, swell and shut off airways to your lungs….

By thinning mucus in your bronchial tubes and boosting glutathione levels, NAC may help decrease the severity and frequency of wheezing, coughing and respiratory attacks ….

In addition to relieving COPD and bronchitis, NAC may improve other lung and respiratory tract conditions like cystic fibrosis, asthma and pulmonary fibrosis, as well as symptoms of nasal and sinus congestion due to allergies or infections ….

  1. Boosts Brain Health by Regulating Glutamate and Replenishing Glutathione

NAC’s ability to replenish glutathione and regulate brain glutamate levels can boost brain health.

*The brain neurotransmitter glutamate is involved in a broad range of learning, behavior and memory actions, while the antioxidant glutathione helps reduce oxidative damage to brain cells associated with aging….

Because NAC helps regulate glutamate levels and replenish glutathione, it may benefit those with brain and memory ailments ….

NAC supplements appear to improve both dopamine function and disease symptoms such as tremors ….

  1. May Improve Fertility in Both Men and Women

Approximately 15% of all couples trying to conceive are affected by infertility. In almost half of these cases, male infertility is the main contributing factor ….

Many male infertility issues increase when antioxidant levels are insufficient to combat free radical formation in your reproductive system. The oxidative stress can cause cell death and reduced fertility ….

In some cases, NAC has been shown to improve male fertility….

In addition, NAC may improve fertility in women with polycystic ovary syndrome (PCOS) by inducing or augmenting the ovulation cycle ….

  1. May Stabilize Blood Sugar By Decreasing Inflammation in Fat Cells

High blood sugar and obesity contribute to inflammation in fat tissue.

This can lead to damage or destruction of insulin receptors and put you at a higher risk of type 2 diabetes ….

  1. May Reduce Heart Disease Risk by Preventing Oxidative Damage

Oxidative damage to heart tissue often leads to heart disease, causing strokes, heart attacks and other serious conditions.

NAC may reduce heart disease risk by reducing oxidative damage to tissues in your heart ….

It has also been shown to increase nitric oxide production, which helps veins dilate and improves blood flow. This expedites blood transit back to your heart and can lower your risk of heart attacks ….

  1. Ability to Boost Glutathione Levels May Improve Immune Function

NAC and glutathione also boost immune health.

Research on certain diseases associated with NAC and glutathione deficiency suggests that immune function might be improved — and potentially restored — by supplementing with NAC….

High levels of NAC in your body may also suppress HIV-1 reproduction.

For your body to make the amino acid cysteine, you need adequate amounts of folate, vitamin B6 and vitamin B12. These nutrients can be found in beans, lentils, spinach, bananas, salmon and tuna.

While most protein-rich foods, such as chicken, turkey, yogurt, cheese, eggs, sunflower seeds and legumes, contain cysteine, some people choose to supplement with NAC to increase their cysteine intake.

NAC has low bioavailability as an oral supplement, meaning that it’s not well absorbed. The accepted daily supplement recommendation is 600–1,800 mg of NAC ….”

Okay, I don’t get it. Have I missed something about the connection between sulfite sensitivity and NAC? If you can find what I missed, please let us know.

Ah, if only I could have been more helpful.

Until next week,

Keep living your life!

Dax’s Journey to Dialysis Friendly Clothing

I met Dax Francis a few years ago in a Facebook CKD & Dialysis Support page. Slowly, I became aware that he produces dialysis clothing… and that fascinated me. Then it dawned on me that you should know such clothing exists, although Dax is not the only one who produces them. I asked him if he would write a guest blog explaining how this all started and where he got the idea. He promptly agreed and that will be today’s blog, the first blog in March, National Kidney Month.

Before we read Dx’s blog, some of us may need a reminder of what FSGS is. According to The Mayo Clinic at https://www.mayoclinic.org/diseases-conditions/fsgs/symptoms-causes/syc-20354693:

“Focal segmental glomerulosclerosis (FSGS) is a disease in which scar tissue develops on the parts of the kidneys that filter waste from the blood (glomeruli). FSGS can be caused by a variety of conditions.

FSGS is a serious condition that can lead to kidney failure, for which the only treatment options are dialysis or kidney transplant. Treatment options for FSGS depend on the type you have.”

I think we’re ready for Dax’s guest blog now.

My name is Dax Francis. I was diagnosed with FSGS as a young man, age twelve, and it was as if overnight school, sports, and friends were replaced with doctors, hospitals, and treatments. I struggled to find my place in this new body that could no longer do the things that had defined my life. Shortly after I graduated from high school, I had to begin dialysis which set me down a dark path of loneliness, depression, and sadness.

When I began dialysis I wanted everything to end. This was not the life I had ever wanted, and I believed that all my abilities, my skills, and talents were hidden behind a treatment filled with pain. The strength it took to live in that struggle was too much, and I put myself in situations where everything could have and should have ended. I was lost, and then I got that call saying it was my turn for a kidney transplant.

This was it! This is my moment to start my life! And then FSGS recurred shortly after surgery, and I was never able to leave treatment.

Devastation, utter devastation. I could not let my donor down though and felt a need to try to pursue my life once more despite the struggle. I enrolled in school for Social Work. I wanted to use my experiences to help those who may be in similar situations as myself, and I found my calling. Being able to help others and learn from those with wholly different lives and experiences than mine was the greatest gift I could have ever been given.

As I had all but finished the Social Work program, I realized that I could not be the social worker that people deserved due to my health. Being on treatment three times a week made it difficult to find work, and I rarely felt well enough to continually work. I struggled with this, feeling like I was never going to have a way to be a part of the world and the community nor was a place for me or anyone like me. This fact made me feel worthless and I dropped out of college 6 credits shy of my degree, because I thought it was pointless.

I wandered, confused, and didn’t know how to be someone who could make a difference. The wisdom I had gained from fighting every day to survive, I felt, was something special and I just wanted someone to ask me what I had learned while living in the struggle that is chronic illness. I just wanted someone to take notice of my fight and my struggle and see the person who can make a difference because of it all.

After the passing of a close friend I needed to live for both of us and put myself out there where I met someone who changed my life. I met someone who saw my fight and helped me realize that all I had been through made me capable of so much. She believed in me when I couldn’t believe in myself, this enabled me to live a life that I had always dreamed of, and I was doing it all despite being on dialysis. I was able to meet the love of my life despite the struggle. It all started with putting my true self out there and not being afraid of being that true person sharing with light and love.

I enrolled back in school and finished my 6 credits finally achieving my degree. During this time the world began to change. More and more negativity seemed to be seeping into my life and I found myself in a negative space despite having everything I wanted. I needed to make a change. At the end of 2017 I committed to being positive, uplifting and to helping others the way I can. I started making videos while I was actually on dialysis just to let others know that they were not alone and that they needed to continue their fight.

The support I received from those first videos inspired me to do more with my talents and abilities and Ivye Wear was born on the morning of January 13, 2018. I wanted to provide comfort, warmth, and hope to the warriors fighting every day to survive, often with little recognition of the strength it takes to survive and live in that struggle. I wanted to provide a suit of armor for the warrior when they go into battle; whether it’s dialysis, chemotherapy, infusions, or something else entirely, and I designed comfortable, accessible clothing designed for a range of medical treatments, procedures, and devices. Sweats, Hoodies, and T-Shirts designed for warriors, by warriors. All of our clothes provide zipper access to the vital areas your caregivers need to perform treatment while you can stay warm and dignified.

I never want anyone to feel as if they don’t have a place in this world due to their illness or struggle, Ivye Wear was born to be a beacon of hope for all chronic illness patients. I believe that it is our experiences that give us the strength, wisdom, and patience to change the world.

Thank you, Dax, for your honesty and especially for the dialysis clothing.

Until next week,

Keep living your life!

Meatless Monday and the Rest of the Week, Too

Whoa, baby! Lots and lots of reader interaction lately. One reader even wrote me to thank me for a blog I wrote years ago about sulfa… and here I was wondering if my blogs were being helpful. Thank you all for letting me know they are.

Talking about my blogs being helpful, another reader needs help with her non-animal protein diet. As a child, my brothers and I were cooked meat meals whenever my dad could afford it. I remember Mom cooking lots of hamburgers. That was the first food I learned to cook. As I got older, I realized I didn’t like the fatty taste of meat nor how much it needed to be chewed, so I ate it less and less. Now, since my husband is a meat eater, we have it once a week. He knows I don’t like it, but he does. I eat as much of it as I can before giving the rest to him. It isn’t very much. I think I’m going to learn quite a bit for myself, as well as my reader, in writing today’s blog.

Oster, the makers of the blender I use, at https://www.oster.com/blog/archive/2014/october/5-fruits-and-veggies-that-pack-the-protein.html#?sortby=newest offers us this information:

“1. Avocado 
Like tomatoes, avocados are fruits that are commonly thought of as vegetables. But regardless of how you categorize it, an avocado carries more protein than a glass of milk, about 4 grams according to the United States Department of Agriculture. Although some avoid this fruit because it has a relatively high fat and calorie content, it’s full of a variety of nutrients such as zinc, folic acid, potassium, fiber and healthy fats….

  1. Lentils 
    Legumes are the most protein-rich group of vegetables available. On average, legumes can offer closer to animal products than many other vegetables in how much protein they offer. Among legumes, lentils are one of the highest in protein with about 47 grams of protein per cup, the USDA noted.
  2. Apricots 
    Either raw or dried apricots can add protein to your meals as well as sweetness, though there’s debate over whether fresh or dehydrated is better. Although a raw apricot has more protein, dried apricots have more protein per bite because they’re more compact. Either way, you can’t go wrong. It’s a tasty, sweet way to add protein to your yogurt, oatmeal or other dishes. The USDA explained that 1 cup of sliced apricots has more than 2 grams of protein.
  3. Spinach 
    This tasty leafy green is well known for being nutritious, but did you know it has nearly 3 grams of protein per every 100 grams of spinach, according to the USDA? But eating 100 grams of raw spinach can be hard…. Spinach is also rich in vitamin B6, riboflavin, niacin, vitamin C, a variety of minerals, and has minimal calories and fat.
  4. Soybeans 
    Soybeans pack a walloping 68 grams of protein per cup, according to the USDA. Eat them raw, steam them or roast them for a tasty, protein-filled meal that has more of the nutrient some types of meat [have]. Soybeans are legumes, and also have significant daily amounts of iron, fiber and vitamin K.”

Notice the sentence about potassium in 1. Avocado. Hmmm, do we need to limit or cut out any of these other foods according to the renal diet? I went to SFGATE at https://healthyeating.sfgate.com/lentils-harmful-kidneys-12272.html for some answers.

Are Lentils Harmful to the Kidneys?

Written by Meg Campbell; Updated November 28, 2018

Lentils are nothing but good news for the average person. The small, disc-shaped legumes are a low-fat, cholesterol-free source of high-quality protein, complex carbohydrates and several vitamins and minerals. Lentils are considered a diabetic-friendly, heart-healthy food because their high fiber content promotes normal blood sugar and cholesterol levels. Because they’re also rich in potassium, phosphorus, purines and oxalate, however, lentils aren’t an ideal choice for people affected by chronic kidney problems….

Lentils don’t harm healthy kidneys, just as they don’t damage unhealthy kidneys. Rather, people with chronic kidney problems may need to watch their intake of lentils because their kidneys are less able to adequately process certain nutrients. If you have chronic kidney disease, ask your physician for a detailed diet plan. Eating the right foods can help slow the disease’s progression, according to the Centers for Disease Control and Prevention. Likewise, if you’re prone to kidney stones, talk to your doctor about your diet. Some physicians only recommend limiting purines from animal sources. You also may be able to limit the amount of oxalate you absorb from lentils by consuming them with high-calcium foods.”

So it seems that protein heavy foods can be bothersome for their potassium and phosphorous content. But wait. We are Chronic Kidney Disease patients. We eat according to our labs. If your potassium/phosphorous blood content is in the normal range, you can eat foods containing these electrolytes, but in specified amounts. Ask your renal nutritionist which you can eat and how much of each of these permissible foods you can eat.

 This time I went to NDVTFoods at https://food.ndtv.com/food-drinks/healthy-diet-4-fruits-that-are-relatively-rich-in-protein-2071683. (So many new websites for me today.)

1. Raisins: This humble dried fruit is a fixture in all the festive offerings and is also added to a whole range of desserts. The golden raisins are nothing but de-hydrated or dried grapes.  A 100 gram portion of raisins contains 3 grams of proteins, as per the data by United States Department of Agriculture.

Guava:This Vitamin C-rich fruit is savoured raw or in salads, and is even added to juices and drinks for a flavourful punch. Guava is rich in fibre as a 100 gram portion of the fruit contains 5 grams of it, according to USDA, and the same portion contains 2.6 grams of proteins.

  1. Dates:This sugary sweet fruit has been consumed in Middle-eastern countries as a staple for centuries now. Pitted dates are stuffed with a variety of ingredients and are even consumed in the form of a sweetening paste for milkshakes and baked goods as well. A 100 gram portion of dates contains 2.45 grams of protein, along with 8 grams of fibre, as per data by the United States Department of Agriculture.
  2. Prunes:Another dried fruit that is relatively rich in protein is the prune. These are made by de-hydrating ripened plums and it contains a wide-range of essential minerals and vitamins, along with some important macro-nutrients. This includes 2.18 grams of protein per 100 grams, along with 7 grams of dietary fibre.”

Don’t forget legumes and grains in your non-animal fat protein diet. The same caution about eating according to your labs applies to every category of food you eat. This is not a complete guide to non-animal protein foods and is getting to be a very long blog already. Let me know if you want more information about this topic.

Until next week,

Keep living your life!

Just in Time

I woke up this morning thinking about Audre Lorde. She was the New York State Poet at one time and considered herself a “lesbian, mother, warrior, poet,”but more importantly to me, my writing mentor and friend… and I miss her terribly. Thinking about Audre led me to thinking about my younger daughter (Abby) who won the Black History Month Essay Contest in her elementary school several years in a row by writing about Audre’s and my friendship.

That stopped me for a moment. Audre, Abby, Black History Month. This is Black History Month and it’s half over. Time to write about Black History in Nephrology today.

As Andrea Wurtzburger wrote in People Magazine (I knew there was a reason I grabbed this first each time I waited in one medical office or another.) in the February 13, 2020 issue which was also posted at https://www.yahoo.com/entertainment/black-history-month-explained-started-175250248.html,

Black History Month is an entire month devoted to putting a spotlight on African Americans who have made contributions to our country. Originally, it was seen as a way of teaching students and young people about the contributions of Black and African Americans in school, as they had (and still have) been often forgotten or left out of the narrative of the growth of America. Now, it is seen as a celebration of those who’ve impacted not just the country, but the world with their activism and achievements.”

Now that we know what Black History Month is, let’s see how we can apply it to the field of nephrology. This is what I wrote in SlowItDownCKD 2017 (February 7th) about Dr. Kountz:

“Samuel L. Kountz, M.D was another innovative contributor to Nephrology from the Black Community. As Blackpast.org tells us:

“In 1961 Kountz and Roy Cohn, another leading surgeon, performed the first successful kidney transplant between two people who were close relatives but not twins.  Over the next decade Kountz researched the process of kidney transplants on dogs.  He discovered that monitoring blood flow into the new kidney and administering methylprednisolone to the patient after surgery allowed the body to accept the new organ.

In 1966 Kountz joined the faculty at Stanford University Hospital and Medical School and in 1967 he became the chief of the kidney transplant service at University of California at San Francisco (UCSF).  There he worked with Folker Belzer to create the Belzer kidney perfusion machine.  This innovation kept kidneys alive for 50 hours after being removed from the donor.  Through Kountz’s involvement at UCSF, the institution’s kidney transplant research center became one the best in the country.  Kountz also created the Center for Human Values at UCSF, to discuss ethical issues concerning transplants.”

Kidney News Online at https://www.kidneynews.org/careers/resources/opinion-re-establishing-trust-and-improving-outcomes-in-nephrology introduced me to someone who should be noted in Black History Month in the future since the general public needs to be aware of Chronic Kidney Disease in order to be tested and, ultimately, treated. Dr. Bignall echoes my own thoughts.

“O. N. Ray Bignall II, MD is an Assistant Professor of Pediatrics in the Division of Nephrology at Nationwide Children’s Hospital and The Ohio State University College of Medicine. He is also a member of the American Society of Nephrology’s Policy and Advocacy Committee.

‘To re-establish trust and improve outcomes, we must carry health equity from “the bedside to the curbside.” From research and discovery, to policy and advocacy, nephrologists must engage directly with community members, stakeholders, and lawmakers. Minority communities need to see nephrologists in their schools, houses of worship, block parties, and community centers. We can increase our involvement in community-based participatory research (CBPR) that engages community members in the design, study, and implementation of evidence-based discovery. Nephrologists should also be taking our message to city halls, state houses, and our nation’s Capital to promote kidney disease research and advocacy for all our patients – especially those with disparate outcomes.’ ”

I felt compelled to include Dr. Charles DeWitt Watts who, while not a nephrologist, was eminent in breaking racial barriers so we could have Black nephrologists available to us. The following is from Duke University Medical Center and Library at https://guides.mclibrary.duke.edu/BlackHistoryMonth.

“Dr. Watts spent more than 50 years advocating for civil and human rights and for the quality of medical care for all residents of Durham, especially the poor and underserved. He broke racial barriers when he pushed for certification of black medical students.

First African American to be certified by a surgical specialty board in North Carolina.

Played key role in founding Lincoln Community Health Center, a free standing clinic, which served people regardless of their ability to pay.

Joined the staff of Lincoln Hospital as Chief of Surgery in 1950. Lincoln was one of the few American hospitals at the time that granted surgical privileges to African-American physicians.

Completed his surgical training at Freedman’s Hospital in Washington, DC under the tutelage of Dr. Charles Drew.

Worked to prepare Lincoln’s interns and residents for board certification and convinced Duke University Medical School to oversee Lincoln’s training program so that students could get board certified.

Fought along with other community leaders for the creation of one integrated public health care facility, Durham Regional Hospital, built in Durham in 1967. This led to the closing of both Watts and Lincoln hospitals.

Served as Adjunct Clinical Professor of Surgery at Duke and Director of Student Health at North Carolina Central University.

Served for 28 years as Vice President and Medical Director for North Carolina Mutual Life Insurance Co., the largest African-American managed insurer in the country.

Member of the National Academy of Science’s Institute of Medicine, a fellow in the American College of Surgeons, and an active participant in the National Medical Association.”

Until next week,

Keep living your life!

Why Wait?

A few weeks ago, I received an email from Joe Russell. He works on health care policy issues for my Arizona Senator Sinema in Washington D.C., along with his colleague Sylvia Lee, policy advisor. He was letting me know both Sylvia and he would be in Arizona the following week, and holding a roundtable discussion with patients suffering from kidney disease, along with their providers, caregivers, and family members. They wanted to discuss a series of legislative proposals their office would be working on in the coming months, as well as gain a better understanding of the unique challenges patients with kidney disease face in Arizona. The National Kidney Foundation of Arizona recommended they reach out to me, given my work and experience on this topic.

Are you kidding, I thought. I’ve been trying to get someone in Arizona interested in the growth of CKD locally… and, of course, everywhere else, for over 12 years. Now, mind you, by 3:30 I’m exhausted (Damn chemo!), but I vowed to go even though it was later in the day (3 p.m.). And I did.

When I arrived, who did I see sitting at Senator Sinema’s table, but Raymond and Analyn Scott. They are the compilers of The 1 in 9 Tribe to which I had contributed a chapter. There were people from the National Kidney Foundation of Arizona, a transplant patient, my very own nephrologist (who is also Raymond’s) and Senator Sinema’s delegation.

Oh boy, I remember thinking, this is going to be good. And it was. Each person spoke to their own stage of CKD with Dr. DeSai (Raymond’s and my nephrologist) and the National Kidney Foundation of Arizona people speaking about all stages of CKD. I kept steering the discussion back to early stage treatment and awareness for all. It seemed all were in agreement with my ideas or, at least, they were interested.

But I want to let you know why I feel early intervention and general awareness are so important. This is a note I received from a reader.

”Please help. I just got blood results back from my yearly physical and saw that my eGFR was 55 and my creatinine was 1.09. After speaking to my GP she told me my results were nothing to ‘be concerned about’. Since the 2 above mentioned results were highlighted in red I figured perhaps I should ‘concern’ myself about it and research what it could possibly mean. I was shocked to read that it indicated kidney disease. When I told my doctor of my findings, she again pushed it off as nothing to worry about. Am I over reacting? Thanks for any help you can give me.”

Now we don’t know this reader’s age. That’s important because you lose one point off your Glomerular Filtration Rate every year once you hit the age of 40. For example, I turned 73 yesterday (Yes, it was a fun birthday with my family and friends despite the effects of chemo.). Subtract 40 from that and I have lost 33 points off my GFR simply by being alive and growing older. Considering the highest GFR is 120, although we usually use 100 for ease of figuring, my perfect GFR would be 87. But it’s not. It’s 55, so we know I have CKD, stage 3A just like this reader.

Nuts! I’m going on and on as if everyone reading this knew both what GFR is and the stages of CKD. Well, we’ll just correct that right now. According to MedlinePlus, part of the U.S. National Library of Medicine which, in turn, is part of the National Institutes of Health, at https://medlineplus.gov/ency/article/007305.htm.

Glomerular filtration rate

Glomerular filtration rate (GFR) is a test used to check how well the kidneys are working. Specifically, it estimates how much blood passes through the glomeruli each minute. Glomeruli are the tiny filters in the kidneys that filter waste from the blood.

How the Test is Performed

blood sample is needed.

The blood sample is sent to a lab. There, the creatinine level in the blood sample is tested. Creatinine is a chemical waste product of creatine. Creatine is a chemical the body makes to supply energy, mainly to muscles.

The lab specialist combines your creatinine level with several other factors to estimate your GFR. Different formulas are used for adults and children. The formula includes some or all of the following:

  • Age
  • Blood creatinine measurement
  • Ethnicity
  • Gender
  • Height
  • Weight”

Nor do we know the reader’s ethnicity. The National Kidney Foundation at https://www.kidney.org/sites/default/files/docs/12-10-4004_abe_faqs_aboutgfrrev1b_singleb.pdf explains why this is important:

“This is due to higher average muscle mass and creatinine generation rate in African Americans.”

So, why then, is it important to know if you’re only in stage 2 of CKD? Let me put it this way:

When I was first diagnosed with CKD, I was at a GFR of 39. That’s pretty low. Had I been tested earlier, I would have had more time to preserve more of my kidney function. While I’m now at about 55 GFR (just like my reader), it took years and years of hard work as far as diet, exercise, rest, sleep, avoiding anxiety, not drinking or smoking and making sure I paid special attention to my labs.

Imagine if I had known earlier that I had CKD. I could have started protecting my kidneys earlier, which may have meant I could avoid dialysis for longer… or maybe at all. It may have meant I wouldn’t reach the place where I needed a transplant, if I ever needed one.

If you are routinely checked via a blood test and urine test each time you see your family doctor – just like your heart and lungs are checked – you may be able to avoid being told you were in need of dialysis seemingly out of the blue. But you wouldn’t know to ask for these tests unless everyone is made aware of CKD and just how prevalent it is. Think about it.

Until next week,

Keep living your life!

But I Wasn’t Done

Talk about chemo brain. The reader who asked the questions addressed in last week’s blog also wanted to know if Chronic Kidney Disease had any impact on the menstrual cycle… and I passed right over those questions as if she’d never asked. Whoa. This is a new way of being for me, so apologies dear reader for that pretty important oversight. Today, we correct the oversight. Tomorrow we banish chemo brain – or brain fog as CKD patients experience it. (Sigh. If only it took just one day.)

On October 1st, 2018, I explored the menstrual cycle’s effect on CKD and vice-versa issue:

“Back to the beginning for those who have just plain forgotten what the menses is and why women experience it. Thank you to the Medical Dictionary at https://medical-dictionary.thefreedictionary.com/menses for starting us off today. Menses is:

‘the periodic discharge from the vagina of blood and tissues from a non-pregnant uterus; the culmination of the menstrual cycle. Menstruation occurs every 28 days or so between puberty and menopause, except during pregnancy, and the flow lasts about 5 days, the times varying from woman to woman.’

I clearly remember the days of anxiously awaiting my period only to find I had miscalculated its start. Commence the washing-out-the-underwear-nightly-during-my-period era which lasted decades. It was messy, but apparently menstruation was necessary. Why, you ask.

Back to Wikipedia. By the way, when I was teaching research writing in college, I always found this a good source to start researching despite the fact that anyone can edit it. This is the explanation I was looking for. I found it at https://en.wikipedia.org/wiki/Menstrual_cycle.

‘The menstrual cycle is the regular natural change that occurs in the female reproductive system (specifically the uterus and ovaries) that makes pregnancy possible. The cycle is required for the production of oocytes [Me here: this means an immature egg] and for the preparation of the uterus for pregnancy….’

As someone who had always planned to be a mother, you can see why I felt this was a necessary – albeit messy – function of my body. I have a biological grandchild and another being planned (As of October 31, 2019, I have TWO terrific grandsons.). Thank you, menstruation.

But what if I had developed CKD when I was premenopausal? Would things have been different for me? DaVita at https://www.davita.com/education/kidney-disease/risk-factors/womens-health-risks-and-chronic-kidney-disease-ckd explains some of what I might have had to deal with.

‘When a woman has chronic kidney disease her periods tend to be irregular. Once she begins dialysis her periods may even stop altogether. As kidney function drops below 20 percent of normal, a woman is less likely to conceive because dialysis doesn’t perform all of the tasks of the kidneys. The body retains a higher level of waste products than it would with a normal kidney, which can prevent egg production and affect menstruation.

Erythropoietin treatments will cause about 50 percent of woman on dialysis to get their periods again. This is attributed to the improved hormone levels and the treatment of anemia. Therefore, erythropoietin treatments can increase a woman’s fertility, so birth control should be used if a woman is sexually active and does not want to become pregnant.’

Okay, but I’m not on dialysis and my GFR hovers in the 50-55% range. I see from the quote above that my periods might have become irregular. I also noted that a ‘higher level of waste products is being retained.’ (Why does that give me the creeps?)

Let’s go back to those waste products. Remember what they are? Shodor, a site for undergraduate students, at https://www.shodor.org/master/biomed/physio/dialysis/kidney.htm was helpful here:

‘The kidneys are the filtering devices of blood. The kidneys remove waste products from metabolism such as urea, uric acid, and creatinine by producing and secreting urine. Urine may also contain sulfate and phenol waste and excess sodium, potassium, and chloride ions. The kidneys help maintain homeostasis by regulating the concentration and volume of body fluids. For example, the amount of H+ and HCO3  secreted by the kidneys controls the body’s pH.’

Whoa! I wouldn’t want even more of these substances in my body. Not only would they make the CKD worse, but also its effects on my body. According to Medical News Today at https://www.medicalnewstoday.com/articles/172179.php, these effects include:

  • anemia
  • blood in urine
  • dark urine
  • decreased mental alertness (Gail here: as in brain fog.)
  • decreased urine output
  • edema – swollen feet, hands, and ankles (face if edema is severe)
  • fatigue (tiredness)
  • hypertension (high blood pressure)
  • insomnia
  • itchy skin, can become persistent
  • loss of appetite
  • male inability to get or maintain an erection (erectile dysfunction)
  • more frequent urination, especially at night
  • muscle cramps
  • muscle twitches
  • nausea
  • pain on the side or mid to lower back
  • panting (shortness of breath)
  • protein in urine
  • sudden change in bodyweight
  • unexplained headaches

Is there anything else I should know?

The Huffington Post at https://www.huffingtonpost.com/leslie-spry-md-facp/women-with-chronic-kidney_b_10163148.html let Dr. Leslie Spry, Spokesman for the National Kidney Foundation, answer this one and I will, too.

‘Women with CKD have been shown to commonly experience menstrual irregularities. This can include excessive bleeding, missed periods, and early onset of menopause. In studies of patients with CKD, women enter menopause from 3 to 5 years earlier than patients without CKD. Treatment can be very challenging. Studies of estrogen replacement therapy have shown an increased risk of heart disease and blood clotting disorders. Kidney transplantation will usually correct these abnormalities.’

Now I wonder if I’d had CKD even earlier than when I’d caught it on a lab report a decade ago. Excessive bleeding? Check. Early menopause? Check. Hmmm.

But wait. There’s some good news in here, too.

‘Thus, recurring changes of sex hormone levels, as brought about by the natural menstrual cycle, might be involved in periodic tissue remodeling not only in reproductive organs, but to a certain extent in the kidneys as well,’ she added.

Lechner [Me here: She’s the study author – Dr. Judith Lechner, of the Medical University of Innsbruck in Austria] hypothesizes that estrogen might help to replace damaged cells. During cycle phases of high estrogen exposure, kidney cells might be induced to grow, she explained, “while at time points of decreasing estrogen levels damaged or simply older cells might be discarded into the urine.’”

You can read more about this small study published in the Journal of the American Society of Nephrology in Medical Daily at https://www.medicaldaily.com/sex-differences-menstrual-cycle-kidney-failure-384251.

This blog is becoming a book by itself. All questions answered, dear reader?

Until next week,

Keep living your life!

Now That’s Patience.

This is decidedly the month for blogs based upon reader questions. As usual, I first must remind you that I am not a doctor and you need to speak with yours before you take any action. As you know, I had major surgery in September to remove a pancreatic cancer tumor which included removing part of the pancreas, the gall bladder, and the spleen. Since then I’ve been hospitalized twice for complications of this surgery… and this particular reader has waited all this time for answers to her questions. I’m impressed.

Let’s not make her wait one second longer. She is a woman in her 40s who has questions about Chronic Kidney Disease and the menstrual period. Hey, guys, don’t go anywhere. Read today’s blog and you just might be able to offer some insight to your female CKD patient friends who have similar questions.

It seems her period went on and on… for two weeks. Her doctor (not a nephrologist) ordered medications for her, but she wasn’t sure if they were safe for her kidneys. In her country, you cannot simply make an appointment or call your nephrologist. You need to wait, and wait, and wait until you are given an appointment. Of course, her first course of these medications is now long over, but perhaps we can help her if she’s ever in this situation again… or if you are.

The first medication prescribed was Traxan. Don’t worry if that doesn’t ring a bell; I’d never heard of any of these medications before either. According to Drugs.com at https://www.drugs.com/international/traxan.html,

Traxan

Traxan may be available in the countries listed below.

Ingredient matches for Traxan

Tranexamic Acid

Tranexamic Acid is reported as an ingredient of Traxan in the following countries:

  • Philippines”

which makes sense since this particular reader is from the Philippines. This doesn’t tell us much, so let’s try Tranexamic Acid.

WebMD at https://www.webmd.com/drugs/2/drug-32677-1331/tranexamic-acid-oral/tranexamic-acid-650-milligram-tablet-oral/details offers the following information:

“This medication is used to treat heavy bleeding during your menstrual period. Tranexamic acid works by slowing the breakdown of blood clots, which helps to prevent prolonged bleeding. It belongs to a class of drugs known as antifibrinolytics.

Tranexamic acid is not a hormone. It does not treat other menstrual or premenstrual symptoms. It does not stop your period. It is not a form of birth control and does not protect against sexually transmitted diseases.”

And now the biggie: Is this safe if you have CKD? There is not much research on this other than a study with a very small population of only four patients. They did suffer adverse reactions, but three were on dialysis and the fourth had a transplant. The take away from over an hour’s search is that the dosage may have to be modified.

Mefenamic Acid was the second drug prescribed. By the way, the brand name for this drug is Ponstel.

“Mefenamic acid is used to relieve mild to moderate pain, including menstrual pain (pain that happens before or during a menstrual period). Mefenamic acid is in a class of medications called NSAIDs. It works by stopping the body’s production of a substance that causes pain, fever, and inflammation.”

This information was offered by Medline Plus, part of the U.S. National Library of Medicine, which in turn is part of the National Institutes of Health at https://medlineplus.gov/druginfo/meds/a681028.html.

Houston, we have a problem. NSAIDS are something all kidney patients should avoid. I was delighted to happen upon the Curbsiders (a board-certified internists’ group) at https://thecurbsiders.com/podcast/146-nephmadness-pain-meds-in-chronic-kidney-disease who explained the NSAID problem in terms I (and hopefully you) can understand:

NSAIDs in CKD

Mechanism

  • NSAIDs work by inhibiting cyclooxygenase (COX) and thus decreasing prostaglandin synthesis. This reduces the inflammation causing pain.
  • Renal blood flow, particularly in CKD, often depends on prostaglandins and can decrease with NSAID use.
  • Heart failure, cirrhosis, nephrotic syndrome have low effective renal blood flow which relies on prostaglandins. In these patients, NSAIDs may decrease the eGFR.
  • When close to ESRD, you run the risk that a transient decrease in blood flow may still cause an issue…possibly knocking patients onto dialysis.
  • If a patient is already on dialysis and anuric, the adverse effects of NSAIDs are less significant. For those patients still making urine, there are still renal risks.”

Well, what about Mefenamic acid and CKD? Healthline (I simply cannot stop thanking you for those two best kidney disease blog awards!) at https://www.healthline.com/health/mefenamic-acid-oral-capsule#dosage makes no bones about it:

For people with kidney problems: If you have kidney disease, your body might not be able to clear out this drug as well as it should. This may cause increased amounts of mefenamic acid in your blood and increase your risk of side effects. Your doctor may prescribe a decreased dosage.”

Hopefully, a decreased dosage was prescribed.

And, finally, Marvelon. Forgive me, but I instantly thought of Marvel Comics. Actually, Marvelon is birth control. Oh, I wonder if my reader knew that and wanted birth control. Is it safe for CKD patients? Let’s find out together.

“Do not take this medication if you:

  • have diabetes with blood vessel complications (e.g., heart disease, eye disease, kidney disease, foot infections)
  • have very high cholesterol or triglyceride levels”

These are only two of the eighteen warnings I found on MedBroadcast at https://medbroadcast.com/drug/getdrug/marvelon This is a new site for me, so let me share what they have to say about themselves:

“Condition and disease information is written and/or reviewed by the MediResource Clinical Team. The contents of this site are for informational purposes only and are meant to be discussed with your physician or other qualified health care professional before being acted on. Never disregard any advice given to you by your doctor or other qualified health care professional. Always seek the advice of a physician or other licensed health care professional regarding any questions you have about your medical condition(s) and treatment(s).

This site is not a substitute for medical advice. © 1996 – 2020”

Thank you for being so patient, Philippine reader. Remember, talk to your doctor before doing anything.

Until next week,

Keep living your life!

Belly Fluid Retention While Taking a Diuretic?

Finally, we get to the question one reader has been waiting to be answered for several months while I dealt with complications from pancreatic cancer surgery. Thank you for your patience. The question has to do with reducing belly fluid retention that seems to be the result of taking the diuretic ethacrynic acid for over two years.

What is ethacrynic acid used for? I don’t know. Let’s find out together. CardioSmart of the American College of Cardiology at https://www.cardiosmart.org/Healthwise/d006/49/d00649 tells us that ethacrynic acid is,

“… a loop diuretic (water pill) that prevents your body from absorbing too much salt, allowing the salt to instead be passed in your urine.”

I get what a diuretic is, but what’s a loop diuretic? Let’s go to Wikipedia at https://en.wikipedia.org/wiki/Loop_diuretic for this one, but keep in mind that anyone – medical personnel or not – can edit an entry on this site.

Loop diuretics are diuretics that act at the ascending limb of the loop of Henle in the kidney. They are primarily used in medicine to treat hypertension and edema often due to congestive heart failure or chronic kidney disease. While thiazide diuretics are more effective in patients with normal kidney function, loop diuretics are more effective in patients with impaired kidney function.”

I see. So, as kidney disease patients we are offered loop diuretics instead of thiazide diuretic. The loop diuretic is to prevent too much salt absorption. And we need to limit our salt absorption as CKD patients because???

Thank you to DaVita Kidney Care at https://www.davita.com/diet-nutrition/articles/basics/sodium-and-chronic-kidney-disease for the following:

“… too much sodium can be harmful for people with kidney disease because your kidneys cannot eliminate excess sodium and fluid from your body. As sodium and fluid buildup in your tissues and bloodstream, your blood pressure increases and you feel uncomfortable.

High blood pressure can cause more damage to unhealthy kidneys. This damage further reduces kidney function, resulting in even more fluid and waste build up in the body.

Other sodium-related complications are:

  • Edema: swelling in your legs, hands and face
  • Heart failure: excess fluid in the bloodstream can overwork your heart making it enlarged and weak
  • Shortness of breath: fluid can build up in the lungs, making it difficult to breathe”

Now it makes sense that you don’t want to absorb too much salt if you’re a Chronic Kidney Disease patient.

Wait a minute. If a diuretic is a water pill, why is this reader retaining most of her fluid in her belly. Shouldn’t it be passing out of her body in her urine? I found this explanation on Livestrong at https://www.livestrong.com/article/498477-retaining-fluid-while-taking-diuretics/ :

“In some cases, fluid retention will not respond well to diuretic therapy. Diuretics are not an effective treatment for a type of fluid retention known as idiopathic cyclic edema. In fact, taking diuretics for this condition can make the retention worse. It is not known what causes this condition, but it is associated with hypothyroidism, obesity and diabetes mellitus. This condition often occurs before menstruation and is more common in young women.”

I did see a picture of this reader and didn’t see any signs of obesity, but do not know if she is dealing with diabetes mellitus or hypothyroidism. I’m so sorry, dear reader, but it looks like I’ve hit the same dead end you have in asking your doctors for help.

Change of subject. It’s a new year and the kidney world is reacting to that. For instance, KidneyX, stage 2 is now in effect.

Redesign Dialysis Phase II

Building off the success of KidneyX’s inaugural prize competition, Redesign Dialysis Phase I, Phase II challenges participants to build and test prototype solutions, or components of solutions, that can replicate normal kidney functions or improve dialysis access. Up to 3 winners will each be awarded $500,000.

Submissions are due by 5:00 ET on January 31, 2020.

Who Can Participate?

You can submit a solution even if you did not submit anything in Phase I. Full eligibility rules can be found on page 6 of the prize announcement.

What is KidneyX Looking for in Redesign Dialysis, Phase II?

We are seeking prototype solutions that address any of these categories:

  • Blood Filtration (filtering blood to remove waste and excess fluid)
  • Electrolyte Homeostasis (maintaining appropriate levels of key minerals in the blood)
  • Volume Regulation (regulating the amount of and/or removing excess fluid).
  • Toxin Removal and Secretion (removing, limiting or preventing toxins in the bloodstream).
  • Filtrate Drainage and Connectivity (removing excess filtrate after processing; connectivity issues for filtration, processing, and exterior drainage)
  • Dialysis Access (vascular, peritoneal, blood circuit, or alternative (e.g., GI tract) access)

Specific technical design targets for each category can be found on page 4 of the prize announcement. These design targets, as well as the categories themselves, were developed based on the Kidney Health Initiative’s Technology Roadmap for Innovative Approaches to Renal Replacement Therapy, which is an excellent resource to learn more about technical and scientific needs in this space.

Tests of the prototype’s function or performance should demonstrate rigor, reproducibility, and statistical analysis.

For specific judging criteria, please review the prize announcement.

You can learn more at https://www.kidneyx.org/prizecompetitions/RedesignDialysisPhaseII.

The American Association of Kidney Patients is also looking for participants.

AAKP is pleased to announce an opportunity for individuals with chronic kidney disease, and their caregivers, to participate in a research survey that will help us better understand the impact chronic kidney disease has had on their lives.

To find out whether you qualify, please click on the box below that corresponds with the survey that is most appropriate for you, and complete the brief screening questionnaire. If eligible, you will be directed to the full survey which is expected to take about 15-to-20 minutes to complete. Kindly note, the survey must be completed in one sitting so it is important to start the survey at a time when you feel confident you can allocate enough time to complete the survey in its entirety.

As a show of appreciation for your time and input, participants who complete

the full survey will receive a check for $35!

You can read more about this at https://survey-d.dynata.com/survey/selfserve/53b/1912660?CT=1#?

Until next week,

Keep living your life!

Auld Lang Syne Already?

It’s the last few days of 2019 and this year has whizzed by. My dance with pancreatic cancer has been a trip I could have done without, but the birth of my grandson more than made up for it. Now I get to see him all the time and I only have one more regiment of chemotherapy to go.

Oh, there I go again assuming everyone knows what Auld Lange Syne is. According to Classic FM at https://www.classicfm.com/discover-music/auld-lang-syne-lyrics-and-origins/:

What does ‘Auld Lang Syne’ mean?

The most accurate plain English interpretation of the Auld Lang Syne’s famous title is ‘Old long since’, or ‘For the sake of old times’.

The song itself is reflective in nature, and is basically about two friends catching up over a drink or two, their friendship having been long and occasionally distant.

The words were written by Scottish poet Robert Burns in 1788, but Burns himself revealed at the time of composing it that he had collected the words after listening to the verse of an old man on his travels, claiming that his version of ‘Auld Lang Syne’ marked the first time it had been formally written down.

However, an earlier ballad by James Watson, named ‘Old Long Syne’, dates as far back as 1711, and use of the title phrase can be found in poems from as early as the 17th century, specifically works by Robert Ayton and Allan Ramsay.”

The song is usually sung at the stroke of midnight on New Year’s Eve and is closely associated with the ending of one year and the beginning of the next. That’s tomorrow night.

Before we leave 2019, let’s take a look at what’s been happening in the kidney world this year.

The ball got rolling, so to speak, with this announcement:

“The Advancing American Kidney Health initiative, announced on July 10, 2019 by the US Department of Health and Human Services (HHS), places the kidney community in the national spotlight for the first time in decades and outlines a national strategy for kidney diseases for the first time …. In order to achieve the Advancing American Kidney Health initiative’s lofty goals and make good on the KHI’s commitment to people with kidney diseases, drug and device innovation needs to accelerate.”

You can read the entire announcement from the Clinical Journal of the American Society of Nephrology at https://cjasn.asnjournals.org/content/early/2019/12/05/CJN.11060919.

The American Kidney Fund at https://www.kidneyfund.org/advocacy-blog/future-of-dialysis-innovation.html announced prizes for innovations in dialysis. We are now in phase two.

“HHS and ASN collaborated with patients, nephrologists, researchers and others in planning the competition. Several agencies, including the National Institutes of Health, the Food and Drug Administration, and the Centers for Medicare & Medicaid Services, are involved in this effort. AKF has provided comments to the KidneyX project, urging a focus on unmet needs and improving patient quality of life.

The KidneyX: Redesign Dialysis competition will have two phases. During phase one (late-October 2018-February 2019), innovators will be asked to come up with ideas to ‘replicate normal kidney functions and improve patient quality of life.’ During phase two (April 2019-January 2020), innovators will be asked to develop prototypes to test their ideas.

The HHS press release detailing the competition can be found here.

You can also read my blog about KidneyX by using the topic dropdown on the right side of the blog.

S.1676/H.R 3912 was passed this year, too. According to Renal Support Network at https://www.rsnhope.org/kidney-disease-advocacy/the-chronic-kidney-disease-improvement-in-research-and-treatment-act-of-2019-s-1676/, this is what the act provides:

“Specifically, the legislation does the following:

  • Medigap available to all ESRD Medicare beneficiaries, regardless of age.
  • Improve care coordination for people on dialysis by requiring hospitals to provide an individual’s health and treatment information to their renal dialysis facility upon their discharge. The individual or dialysis facility may initiate the request.
  • Increase awareness, expand preventative services, and improve coordination of the Medicare Kidney Disease Education program by allowing dialysis facilities to provide kidney disease education service. And it will allow physician assistants, nurse practitioners, and clinical nurse specialists, in addition to physicians, to refer patients to the program. And additionally, provide access to these services to Medicare beneficiaries with Stage 5 (CKD) not yet on dialysis.
  • Incentivize innovation for cutting-edge new drugs, biologicals, devices, and other technologies by maintaining an economically stable dialysis infrastructure. The Secretary would be required to establish a process for identifying and determining appropriate payment amounts for incorporating new devices and technologies into the bundle.
  • Improve the accuracy and transparency of ESRD Quality Programs so patients can make better decisions about their care providers.
  • Improve patient understanding of palliative care usage as well as access to palliative care services in underserved areas.
  • Allow individuals with kidney failure to retain access to private insurance plans as their primary payor for 42 months, allowing people to keep their private plans longer.”

I scooted over to EurekAlert! at https://www.eurekalert.org/pub_releases/2019-04/uoo-bkd041219.php when I realized they were announcing a drug I’d blogged about:

“’A drug like canagliflozin that improves both cardiovascular and renal outcomes has been eagerly sought by both patients with Type 2 diabetes and clinicians caring for them,’ added Kenneth Mahaffey, MD, professor of medicine at the Stanford University School of Medicine and co-principal investigator of the trial. ‘Now, patients with diabetes have a promising option to guard against one of the most severe risks of their condition.’

The researchers found the drug canagliflozin, a sodium glucose transporter 2 (SGLT2) inhibitor, was less effective at lowering blood sugar in people with reduced kidney function but still led to less kidney failure, heart failure and cardiovascular events such as heart attacks, strokes and death from cardiovascular disease.

Professor Perkovic said the results were impressive. ‘The substantial benefit on kidney failure despite limited effects on blood glucose suggest that these drugs work in a number of different ways beyond their effects on blood sugar. This is an area of intense ongoing research.’”

These are just a few of the innovations in kidney disease in 2019. I hope to see many more for us – like the FDA approval of the artificial kidney – in 2020.

Until next year,

Keep living your life!

AKI & CKD

Aha! Dana contacted me and here’s the blog I promised him. (Still looking for the request from the woman who waited so patiently for me to recover from my surgery. Please contact me again.) Dana asked about AKI, Acute Kidney Injury, and how aggressively his nephrologist should be pursuing treatment of this. He and his nephrologist feel that his AKI may have been caused by strep.

I know I write about CKD, Chronic Kidney Disease, so what is AKI? The glossary in my very first CKD book, What Is It and How Did I Get It? Early Stage Chronic Kidney Disease, tells us ‘acute’ means:

“Extremely painful, severe or serious, quick onset, of short duration; the opposite of chronic.” This is what I wrote about AKI and CKD in SlowItDownCKD 2017,

“I’d always thought that AKI and CKD were separate issues and I’ll bet you did, too. But Dr. L.S. Chawla and his co-writers based the following conclusion on the labor of epidemiologists and others. (Note: Dr. Chawla et al wrote a review article in the New England Journal of Medicine in 2014.)

‘Chronic Kidney Disease is a risk factor for acute kidney injury, acute kidney injury is a risk factor for the development of Chronic Kidney Disease, and both acute kidney injury and Chronic Kidney Disease are risk factors for cardiovascular disease. Not surprisingly, the risk factors for AKI {Once again, that’s acute kidney injury.} are the same as those for CKD… except for one peculiar circumstance. Having CKD itself can raise the risk of AKI 10 times.’

Whoa! If you’re Black, of an advanced age {Hey!}, or have diabetes, you already know you’re at risk for CKD, or are the one out of nine (Update: Now one out of seven.) in our country that has it. Once you’ve developed CKD, you’ve just raised the risk for AKI 10 times. I’m getting a little nervous here….

It makes sense, as researchers and doctors are beginning to see, that these are all connected. I’m not a doctor or a researcher, but I can understand that if you’ve had some kind of insult to your kidney, it would be more apt to develop CKD.

And the CVD risk? Let’s think of it this way. You’ve had AKI. That period of weakness in the kidneys opens them up to CKD. We already know there’s a connection between CKD and CVD (Cardiovascular Disease). Throw that AKI into the mix, and you have more of a chance to develop CVD whether or not you’ve had a problem in this area before. Let’s not go off the deep end here. If you’ve had AKI, you just need to be monitored to see if CKD develops and avoid nephrotoxic {Kidney poisoning} medications such as NSAIDS… contrast dyes, and radioactive substances. This is just so circular!

As with CKD, your hypertension and diabetes {if you have them.} need to be monitored, too. Then there’s the renal diet, especially low sodium foods. The kicker here is that no one knows if this is helpful in avoiding CKD after an AKI… it’s a ‘just in case’ kind of thing to help ward off any CKD and possible CVD from the CKD.”

Dana’s nephrologist put him on a regiment of prednisone for two months. Why? Well, prednisone is an anti-inflammatory drug. WebMD at https://www.webmd.com/a-to-z-guides/what-is-acute-kidney-failure#1 offers the following as possible causes of AKI. Notice the very last one and you’ll see how prednisone may be helpful.

  1. Something is stopping blood flow to your kidneys. It could be because of:
  1. You have a condition that’s blocking urine from leaving your kidneys. This could mean:
  1. Something has directly damaged your kidneys, like:

Now we know AKI and Acute Kidney Failure are not the same thing, but it is possible that this nephrologist is using prednisone in an attempt to avoid Acute Kidney Failure.

One thing Dana asked that made me stop cold is “How do you cope with the inevitable aspects?” They are not inevitable, Dana. I am a lay person who has managed to keep my CKD at stage 3 for 11 years. I am also not a magician. What I am is someone who follows the guidelines for keeping my kidneys as healthy as possible.

You’ve already seen a nutritionist – hopefully a renal nutritionist, since a healthy diet is not necessarily a renal healthy diet – so you’re aware of the nutrition aspect of protecting your kidneys. But there’s more. Do you smoke or drink? If so, stop. Do you exercise? If not, start… but with your nephrologist’s supervision. Are you getting adequate sleep and rest? Here’s the hardest guideline: try to avoid stress. Of course, if you have a stressful life, avoiding stress can just be another stress.

As to how aggressively you should expect your nephrologist to treat your AKI (or the CKD resulting from it) really depends upon you and your nephrologist. For example, some think stage 3 is barely CKD and urge you to just keep watch. Others, like my nephrologist, take CKD seriously and have their nutritionists train you re the renal diet and speak with you themselves about the guidelines. As for AKI, again it depends on you, your nephrologist, and the severity of the AKI. Since you have waste product buildup and inflammation, you may need dialysis or a hospital stay… or watchful waiting while taking a medication such as prednisone.’

There seems to be quite a lot of leeway as to the treatment you and your nephrologist decide upon.

Until next week,

Keep living your life!

Now What? 

Wow! It’s the last month of 2019 already. You may have noticed there was no blog post last week. That’s because I was unexpectedly hospitalized with just my iPhone on me and poor internet at the hospital not once, but twice. But I’m back in the office now.

Today is Dana’s turn to have his request filled. Although, I do wish the reader who graciously agreed to wait until after I’d recovered from major surgery to have her questions answered would contact me again. With so many people at my computer while I was hospitalized, her questions have been, er, mislaid.

Okay, Dana, back to you. Uh-oh, your messages have seemed to disappear, too. Well, I guess that’s the last time I allow anyone to use my computer. I do apologize. Please resend your questions.

Mind you all, I am not a doctor. I’m just a writer who’s taught research writing and been a Chronic Kidney Disease, stage 3 patient for 11 years. Anything I suggest – or that anyone else suggests, for that matter – should be checked with your nephrologist before you act on it

Hmmm, we have to hold off on both questions. Now what? I know. Let’s look at a rare kidney disease. Are you game? Well, will you look at that? I’ve already blogged about some of them on this list by the American Kidney Fund at https://www.kidneyfund.org/kidney-disease/other-kidney-conditions/rare-diseases/  Use the topic drop down on the right side of the blog if you’re seeking info on one of them or let me know if you’d like information about one I haven’t yet written about. Use comment on the blog so it doesn’t get lost.

Minimal change disease?  Whatever could that be? And why is it labeled in plain, laymen English rather than medical terms that we’d have to look up? Let’s find out.

According to the National Kidney Fund at https://www.kidney.org/atoz/content/minimal-change-disease,

“Many diseases can affect your kidney function by attacking and damaging the glomeruli, the tiny filtering units inside your kidney where blood is cleaned. The conditions that affect your glomeruli are called glomerular diseases. One of these conditions is minimal change disease (MCD). Minimal change disease is a disorder where there is damage to your glomeruli. The disease gets its name because the damage cannot be seen under a regular microscope. It can only be seen under a very powerful microscope called an electron microscope. Minimal change disease is the most common cause of nephrotic syndrome in children. It is also seen in adults with nephrotic syndrome, but is less common. Those with MCD experience the signs and symptoms of nephrotic syndrome much quicker than they would with other glomerular diseases.”

This is so logical it makes me wonder why the rest of medicine isn’t. I was referring to the part about the electron microscope. Let’s slow down a bit and take a look at “nephrotic syndrome” to ensure we fully understand what this disease is about.

The Mayo Clinic at https://www.mayoclinic.org/diseases-conditions/nephrotic-syndrome/symptoms-causes/syc-20375608 tells us,

“Nephrotic syndrome is a kidney disorder that causes your body to excrete too much protein in your urine.

Nephrotic syndrome is usually caused by damage to the clusters of small blood vessels in your kidneys that filter waste and excess water from your blood. Nephrotic syndrome causes swelling (edema), particularly in your feet and ankles, and increases the risk of other health problems.”

Got it? Okay, then back to minimal change disease. How, in heaven’s name, do you get it? Hmmm, after surfing the internet for a while, it’s become clear the medical community doesn’t yet know the cause of minimal change disease, although the following may be involved:

“The cause is unknown, but the disease may occur after or be related to:

  • Allergic reactions
  • Use of NSAIDs
  • Tumors
  • Vaccinations (flu and pneumococcal, though rare)
  • Viral infections”

Thank you MedlinePlus (part of the U.S. National Library of Medicine, which is part of the National Institutes of Health) at https://medlineplus.gov/ency/article/000496.htm.

All right then, maybe we could move on to the symptoms. This is clearly one of those times I wish I could understand medicalese. The best I could figure out is that, while kidney function remains normal, minimal change disease leads you right into nephrotic syndrome. That is a conglomeration of symptoms, as explained by Merck Manual Consumer Version at https://www.merckmanuals.com/home/kidney-and-urinary-tract-disorders/kidney-filtering-disorders/nephrotic-syndrome?query=Minimal%20Change%20Disease#v761896:

“Early symptoms include

  • Loss of appetite
  • A general feeling of illness (malaise)
  • Puffy eyelids and tissue swelling (edema) due to excess sodium and water retention
  • Abdominal pain
  • Frothy urine

The abdomen may be swollen because of a large accumulation of fluid in the abdominal cavity (ascites). Shortness of breath may develop because fluid accumulates in the space surrounding the lungs (pleural effusion). Other symptoms may include swelling of the labia in women and, in men, the scrotum. Most often, the fluid that causes tissue swelling is affected by gravity and therefore moves around. During the night, fluid accumulates in the upper parts of the body, such as the eyelids. During the day, when the person is sitting or standing, fluid accumulates in the lower parts of the body, such as the ankles. Swelling may hide the muscle wasting that is progressing at the same time.

In children, blood pressure is generally low, and blood pressure may fall when the child stands up (orthostatic or postural hypotension). Shock occasionally develops. Adults may have low, normal, or high blood pressure.

Urine production may decrease, and kidney failure (loss of most kidney function) may develop if the leakage of fluid from blood vessels into tissues depletes the liquid component of blood and the blood supply to the kidneys is diminished. Occasionally, kidney failure with low urine output occurs suddenly.

Nutritional deficiencies may result because nutrients are excreted in the urine. In children, growth may be stunted. Calcium may be lost from bones, and people may have a vitamin D deficiency, leading to osteoporosis. The hair and nails may become brittle, and some hair may fall out. Horizontal white lines may develop in fingernail beds for unknown reasons.

The membrane that lines the abdominal cavity and abdominal organs (peritoneum) may become inflamed and infected. Opportunistic infections—infections caused by normally harmless bacteria—are common. The higher likelihood of infection is thought to occur because the antibodies that normally combat infections are excreted in the urine or not produced in normal amounts. The tendency for blood clotting (thrombosis) increases, particularly inside the main veins draining blood from the kidneys. Less commonly, the blood may not clot when clotting is needed, generally leading to excessive bleeding. High blood pressure accompanied by complications affecting the heart and brain is most likely to occur in people who have diabetes or systemic lupus erythematosus.”

So, while the name of the disease is written in plain language, it’s clear this is a more complicated rare kidney disease than that would suggest.

Until next week,

Keep living your life!

Nephritis without the Lupus


Recently, I wrote about Lupus Nephritis. As one reader pointed out, it is possible to have Nephritis without Lupus. Let’s take a look at how that works.

According to MedicalNewsToday at https://www.medicalnewstoday.com/articles/312579.php,

“Nephritis is a condition in which the nephrons, the functional units of the kidneys, become inflamed. This inflammation, which is also known as glomerulonephritis, can adversely affect kidney function.

The kidneys are bean-shaped organs that filter the blood circulating the body to remove excess water and waste products from it.

There are many types of nephritis with a range of causes. While some types occur suddenly, others develop as part of a chronic condition and require ongoing management.”

Of course! ‘Itis’ means inflammation, while ‘neph’ means kidney. It’s amazing what you can remember learning in college over 50 years ago when you’re 72.

Hmmm, what do they mean by “many types of nephritis”? DoctorsHealthPress at doctorshealthpress.com/vital-organs/kidneys/types-nephritis-causes-symptoms-prevention/lists them for us:

1. Interstitial Nephritis                    

Interstitial nephritis is characterized by swelling between the tubules and kidneys. The kidney tubules reabsorb water and important substances from kidney filtration, and substances are secreted through urination.

Interstitial nephritis can be acute or chronic in nature. Acute interstitial nephritis is typically the result of an allergic reaction. Over 100 different medications cause interstitial nephritis, such as antibiotics, non-steroidal anti-inflammatory drugs (NSAIDs), and proton pump inhibitors.

Non-allergic interstitial nephritis causes include high calcium levels, low potassium levels, and autoimmune disorders.

  1. Pyelonephritis

Acute pyelonephritis is a severe and sudden kidney infection. Consequently, the kidneys will swell, which may lead to permanent damage. Frequent occurrences are known as chronic pyelonephritis.

The infection will begin in the lower urinary tract in the form of a urinary tract infection (UTI). Bacteria enter the body through the urethra and spread to the bladder. At that point, bacteria will travel from the ureters to the kidneys.

  1. Glomerulonephritis

Glomerulonephritis refers to a range of kidney conditions that cause inflammation in the very small blood vessels in the kidneys, which are called glomeruli.

It is also called glomerular disease or glomerular nephritis. When the glomeruli become damaged, the kidney can no longer efficiently remove excess fluids and waste.

  1. Lupus Nephritis [Gail here: This is they type I recently wrote about.]

Lupus nephritis is inflammation of kidneys caused by the autoimmune disease known as systemic lupus erythematous (SLE)—also called lupus. This is where the body’s immune system targets its own tissues.

As many as 60% of lupus patients will later get lupus nephritis. The most common symptoms include dark urine, weight gain, high blood pressurefoamy urine, and the need for nighttime urination.

  1. IgA Nephropathy (Berger’s Disease)

IgA (immunoglobulin A) nephropathy is also called Berger’s disease. The kidney disease occurs when the antibody IgA lodges within the kidneys.

Over time, this leads to local inflammation, which interferes in the kidneys’ ability to filter waste from the blood. It is a progressive disease that may lead to end-stage kidney failure.

  1. Alport Syndrome

Alport syndrome is an inherited disease caused by genetic mutations to the protein collagen. It can lead to kidney failure, hearing problems, and vision issues.

It will often run in families, and the severity is greater in men. Common symptoms include high blood pressure, protein in the urineblood in the urine, and swelling in the ankle, legs, feet, and around the eyes.

The genetic types of Alport syndrome include X-linked Alport syndrome (XLAS), autosomal recessive Alport syndrome (ARAS), and autosomal dominant Alport syndrome (ADAS).”

I usually move on to symptoms next but – as you can see – DoctorsHealthPress already took care of that for us. Thank you to DoctorsHealthPress.

Healthline (Yep, that’s the same Healthline that awarded SlowItDownCKD a place among the top six kidney disease blogs in both 2016 & 2017.) at https://www.healthline.com/health/acute-nephritic-syndrome#types offered more detail about the cause of several acute nephritis diseases:

Interstitial nephritis

In interstitial nephritis, the spaces between the kidney tubules become inflamed. This inflammation causes the kidneys to swell.

Pyelonephritis

Pyelonephritis is an inflammation of the kidney, usually due to a bacterial infection. In the majority of cases, the infection starts within the bladder and then migrates up the ureters and into the kidneys. Ureters are two tubes that transport urine from each kidney to the bladder.

Glomerulonephritis

This type of acute nephritis produces inflammation in the glomeruli. There are millions of capillaries within each kidney. Glomeruli are the tiny clusters of capillaries that transport blood and behave as filtering units. Damaged and inflamed glomeruli may not filter the blood properly. Learn more about glomerulonephritis.

What causes acute nephritis?

Each type of acute nephritis has its own causes.

Interstitial nephritis

This type often results from an allergic reaction to a medication or antibiotic. An allergic reaction is the body’s immediate response to a foreign substance. Your doctor may have prescribed the medicine to help you, but the body views it as a harmful substance. This makes the body attack itself, resulting in inflammation.

Low potassium in your blood is another cause of interstitial nephritis. Potassium helps regulate many functions in the body, including heartbeat and metabolism.

Taking medications for long periods of time may damage the tissues of the kidneys and lead to interstitial nephritis.

Pyelonephritis

The majority of pyelonephritis cases results fromE.coli bacterial infections. This type of bacterium is primarily found in the large intestine and is excreted in your stool. The bacteria can travel up from the urethra to the bladder and kidneys, resulting in pyelonephritis.

Although bacterial infection is the leading cause of pyelonephritis, other possible causes include:

  • urinary examinations that use a cystoscope, an instrument that looks inside the bladder
  • surgery of the bladder, kidneys, or ureters
  • the formation of kidney stones, rocklike formations consisting of minerals and other waste material

Glomerulonephritis

The main cause of this type of kidney infection is unknown. However, some conditions may encourage an infection, including:

  • problems in the immune system
  • a history of cancer
  • an abscess that breaks and travels to your kidneys through your blood

It certainly looks like there’s a lot more to nephritis than we’d thought.

Until next week,

Keep living your life!

Another Kind of Kidney Disease

While I’m still recuperating, I’ve had plenty of time to read Twitter articles, among other things. One topic I’ve been reading about is lupus nephritis. I think we’ve all heard of lupus, but just in case, here’s a definition from MedicineNet at https://www.medicinenet.com/script/main/art.asp?articlekey=8064.

“A chronic inflammatory disease that is caused by autoimmunity. Patients with lupus have in their blood unusual antibodies that are targeted against their own body tissues. Lupus can cause disease of the skin, heart, lungs, kidneys, joints, and nervous system.”

Did you catch the mention of kidneys in the above definition? That’s where the nephritis part of the condition comes in. By now, we’re all probably tired of being reminded that ‘neph’ means relating to the kidneys (although in non-medical terms, it means relating to the clouds) and ‘itis’ means inflammation. Nuts! I just reminded you again. Let’s ignore that. So, lupus nephritis actually means

“… a kidney disorder [which] is a complication of systemic lupus erythematosus.”

Thank you to MedlinePlus at https://medlineplus.gov/ency/article/000481.htm for the definition. Oh, “systemic lupus erythematosus” refers back to autoimmune disease. Still, the word “erythematosus” puzzled me. I finally figured it out after realizing I probably wasn’t going to get a definition since almost all the entries were for lupus erythematosus. Remember, I studied Greek & Latin roots way, way back in college. It means red and is from the Greek. I get it. Sometimes, lupus patients have a red rash in butterfly form across their face.

So, how do you develop this particular kidney disease? What better place to find out than Lupus.org at https://www.lupus.org/resources/how-lupus-affects-the-renal-kidney-system#.

“Inflammation of the nephrons, the structures within the kidneys that filter the blood, is called glomerulonephritis, or nephritis. Lupus nephritis is the term used when lupus causes inflammation in your kidneys, making them unable to properly remove waste from your blood or control the amount of fluids in your body.”

Hmmm, no lupus equals no lupus nephritis. However, if you do have lupus, you may develop lupus nephritis.

Let’s say hypothetically that you or a loved one (or even your neighbor down the block) has lupus and is concerned about developing lupus nephritis. How would they know if they were developing it? I had to look no further than the National Kidney Foundation at https://www.kidney.org/atoz/content/lupus.

“Lupus nephritis can cause many signs and symptoms and may be different for everyone. Signs of lupus nephritis include:

  • Blood in the urine (hematuria): Glomerular disease can cause your glomeruli to leak blood into your urine. Your urine may look pink or light brown from blood.
  • Protein in the urine (proteinuria): Glomerular disease can cause your glomeruli to leak protein into your urine. Your urine may be foamy because of the protein.
  • Edema: Having extra fluid that your kidneys cannot remove that causes swelling in body parts like your legs, ankles, or around your eyes.
  • Weight gain: due to the fluid your body is not able to get rid of.
  • High blood pressure

I know these may also be the symptoms of Chronic Kidney Disease, but if you have lupus, then they may be symptoms of lupus nephritis. To make things even more complicated, there are five different kinds of lupus nephritis depending upon which part of the kidney is affected.

I was wondering about tests to diagnose lupus nephritis, like we have blood and urine tests to diagnose CKD. Healthline (Now do you see why I was so thrilled to receive their Best Kidney Blogs Award two years in a row?) at https://www.healthline.com/health/lupus-nephritis#diagnosis cleared that up.

Blood tests

Your doctor will look for elevated levels of waste products, such as creatinine and urea. Normally, the kidneys filter out these products.

24-hour urine collection

This test measures the kidney’s ability selectively to filter wastes. It determines how much protein appears in urine over 24 hours.

Urine tests

Urine tests measure kidney function. They identify levels of:

  • protein
  • red blood cells
  • white blood cells

Iothalamate clearance testing

This test uses a contrast dye to see if your kidneys are filtering properly.

Radioactive iothalamate is injected into your blood. Your doctor will then test how quickly it’s excreted in your urine. They may also directly test how quickly it leaves your blood. This is considered to be the most accurate test of kidney filtration speed.

Kidney biopsy

Biopsies are the most accurate and also most invasive way to diagnose kidney disease. Your doctor will insert a long needle through your abdomen and into your kidney. They’ll take a sample of kidney tissue to be analyzed for signs of damage.

Ultrasound

Ultrasounds use sound waves to create a detailed image of your kidney. Your doctor will look for anything abnormal in the size and shape of your kidney.

Yes, I know these are the same tests that are used to diagnose CKD, but if you have lupus, they also can diagnose lupus nephritis.

Okay, now the biggie: How do you treat it if you do have it? The MayoClinic at  https://www.mayoclinic.org/diseases-conditions/lupus-nephritis/diagnosis-treatment/drc-20446438 had some sobering news for us:

“There’s no cure for lupus nephritis. Treatment aims to:

  • Reduce symptoms or make symptoms disappear (remission)
  • Keep the disease from getting worse
  • Maintain remission
  • Avoid the need for dialysis or a kidney transplant

Conservative treatments

In general, doctors may recommend these treatments for people with kidney disease:

  • Diet changes. Limiting the amount of protein and salt in your diet can improve kidney function.
  • Blood pressure medications. Drugs called angiotensin-converting enzyme (ACE) inhibitors and angiotensin II receptor blockers (ARBs) can help control blood pressure. These drugs also prevent protein from leaking from the kidneys into the urine. Drugs called diuretics can help you get rid of excess fluid.

However, conservative treatment alone isn’t effective for lupus nephritis.

Immune suppressants

For severe lupus nephritis, you might take drugs that slow or stop the immune system from attacking healthy cells, such as:

  • Steroids, such as prednisone
  • Cyclosporine
  • Tacrolimus
  • Cyclophosphamide
  • Azathioprine (Imuran)
  • Mycophenolate (CellCept)
  • Rituximab (Rituxan)

When immunosuppressive therapies don’t lead to remission, clinical trials may be available for new therapies.

Treatment options for kidney failure

For people who progress to kidney failure, treatment options include:

  • Dialysis. Dialysis helps remove fluid and waste from the body, maintain the right balance of minerals in the blood, and manage blood pressure by filtering your blood through a machine.
  • Kidney transplant. You may need a new kidney from a donor if your kidneys can no longer function.”

Help! Running out of room (but we’re done anyway),

Until next week,

Keep living your life!

Is it Blood Sugar or the Pancreas?

We all know diabetes raises your risk of developing Chronic Kidney Disease. But why? What’s the mechanism behind the fact? As far as I’m concerned, it’s time to find out.

Let’s start with diabetes. The National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK), part of the National Institutes of Health (NIH), which in turn is part of The U.S. Department of Health and Human Services at https://www.niddk.nih.gov/health-information/diabetes/overview/what-is-diabetes offers this explanation.

“Diabetes is a disease that occurs when your blood glucose, also called blood sugar, is too high. Blood glucose is your main source of energy and comes from the food you eat. Insulin, a hormone made by the pancreas, helps glucose from food get into your cells to be used for energy. Sometimes your body doesn’t make enough—or any—insulin or doesn’t use insulin well. Glucose then stays in your blood and doesn’t reach your cells.

Over time, having too much glucose in your blood can cause health problems. Although diabetes has no cure, you can take steps to manage your diabetes and stay healthy.

Sometimes people call diabetes ‘a touch of sugar’ or ‘borderline diabetes.’”

Having just had a tumor removed from my pancreas, I’m well aware that it produces insulin as well as digestive enzymes. Without a pancreas to produce insulin, you would need insulin injections several times a day.

I got what diabetes is, but how it causes CKD was still not clear.

Well, not until I read the following from The American Diabetes Association at https://www.diabetes.org/diabetes/complications/kidney-disease-nephropathy.

“When our bodies digest the protein we eat, the process creates waste products. In the kidneys, millions of tiny blood vessels (capillaries) with even tinier holes in them act as filters. As blood flows through the blood vessels, small molecules such as waste products squeeze through the holes. These waste products become part of the urine. Useful substances, such as protein and red blood cells, are too big to pass through the holes in the filter and stay in the blood.

Diabetes can damage this system. High levels of blood sugar make the kidneys filter too much blood. All this extra work is hard on the filters. After many years, they start to leak and useful protein is lost in the urine. Having small amounts of protein in the urine is called microalbuminuria.

When kidney disease is diagnosed early, during microalbuminuria, several treatments may keep kidney disease from getting worse. Having larger amounts of protein in the urine is called macroalbuminuria. When kidney disease is caught later during macroalbuminuria, end-stage renal disease, or ESRD, usually follows.

In time, the stress of overwork causes the kidneys to lose their filtering ability. Waste products then start to build up in the blood. Finally, the kidneys fail. This failure, ESRD, is very serious. A person with ESRD needs to have a kidney transplant or to have the blood filtered by machine (dialysis).”

Hmmm, now that we know what diabetes is and how it can cause CKD, maybe we need to look at ways to attempt to avoid diabetes.

  • Losing weight and keeping it off. Weight control is an important part of diabetes prevention. You may be able to prevent or delay diabetes by losing 5 to 10 percent of your current weight. For example, if you weigh 200 pounds, your goal would be to lose between 10 to 20 pounds. And once you lose the weight, it is important that you don’t gain it back.
  • Following a healthy eating plan. It is important to reduce the amount of calories you eat and drink each day, so you can lose weight and keep it off. To do that, your diet should include smaller portions and less fat and sugar. You should also eat a variety of foods from each food group, including plenty of whole grains, fruits, and vegetables. It’s also a good idea to limit red meat, and avoid processed meats.
  • Get regular exercise. Exercise has many health benefits, including helping you to lose weight and lower your blood sugar levels. These both lower your risk of type 2 diabetes. Try to get at least 30 minutes of physical activity 5 days a week. If you have not been active, talk with your health care professional to figure out which types of exercise are best for you. You can start slowly and work up to your goal.
  • Don’t smoke. Smoking can contribute to insulin resistance, which can lead to type 2 diabetes. If you already smoke, try to quit.
  • Talk to your health care provider to see whether there is anything else you can do to delay or to prevent type 2 diabetes. If you are at high risk, your provider may suggest that you take one of a few types of diabetes medicines.”

This is a list from NIH: National Institute of Diabetes and Digestive and Kidney Diseases posted on MedLinePlus at https://medlineplus.gov/howtopreventdiabetes.html. Notice it’s mentioned that this is for type 2 diabetes.

There are 11 different kinds of diabetes. Types 1 and 2 are the most common. WebMD at https://www.webmd.com/diabetes/guide/types-of-diabetes-mellitus#1 explains what type 1 and 2 are.

Type 1 diabetes is an autoimmune condition. It’s caused by the body attacking its own pancreas with antibodies. In people with type 1 diabetes, the damaged pancreas doesn’t make insulin…. With Type 2 diabetes, the pancreas usually produces some insulin. But either the amount produced is not enough for the body’s needs, or the body’s cells are resistant to it. Insulin resistance, or lack of sensitivity to insulin, happens primarily in fat, liver, and muscle cells.”

This is all starting to make sense.

Until next week,

Keep living your life!

HIV and CKD

Every morning, although I don’t have enough energy yet to create original posts, I peruse the Facebook Chronic Kidney Disease pages, Twitter, Instagram, and even LinkedIn for current information about CKD. I was surprised to see a post seeming to claim that Human Immunodeficiency Virus (HIV) can cause CKD. How had I never heard about this before?

As usual when I don’t know or understand something, I decided to investigate. My first stop was The National Institutes of Health at https://aidsinfo.nih.gov/understanding-hiv-aids/fact-sheets/26/99/hiv-and-kidney-disease.

  • “The kidneys are two fist-sized organs in the body that are located near the middle of the back on either side of the spine. The main job of the kidneys is to filter harmful waste and extra water from the blood. (We know that already.)
  • Injury or disease, including HIV infection, can damage the kidneys and lead to kidney disease.
  • High blood pressure and diabetes are the leading causes of kidney disease. In people with HIV, poorly controlled HIV infection and coinfection with the hepatitis C virus (HCV) also increase the risk of kidney disease.
  • Some HIV medicines can affect the kidneys. Health care providers carefully consider the risk of kidney damage when recommending specific HIV medicines to include in an HIV regimen.
  • Kidney disease can advance to kidney failure. The treatments for kidney failure are dialysis and a kidney transplant. Both treatments are used to treat kidney failure in people with HIV.”

Well, I knew there was a possibility of Acute Kidney Injury (AKI) leading to CKD, but HIV? What’s that? Oh, sorry, of course I’ll explain what HIV is. Actually, it’s not me doing the explaining, but the Center for Disease Control (CDC) at https://www.cdc.gov/hiv/basics/whatishiv.html.

“HIV stands for human immunodeficiency virus. It is the virus that can lead to acquired immunodeficiency syndrome or AIDS if not treated. Unlike some other viruses, the human body can’t get rid of HIV completely, even with treatment. So once you get HIV, you have it for life.

HIV attacks the body’s immune system, specifically the CD4 cells (T cells), which help the immune system fight off infections. Untreated, HIV reduces the number of CD4 cells (T cells) in the body, making the person more likely to get other infections or infection-related cancers. Over time, HIV can destroy so many of these cells that the body can’t fight off infections and disease. These opportunistic infections or cancers take advantage of a very weak immune system and signal that the person has AIDS, the last stage of HIV infection.

No effective cure currently exists, but with proper medical care, HIV can be controlled. The medicine used to treat HIV is called antiretroviral therapy or ART.  If people with HIV take ART as prescribed, their viral load (amount of HIV in their blood) can become undetectable. If it stays undetectable, they can live long, healthy lives and have effectively no risk of transmitting HIV to an HIV-negative partner through sex. Before the introduction of ART in the mid-1990s, people with HIV could progress to AIDS in just a few years. Today, someone diagnosed with HIV and treated before the disease is far advanced can live nearly as long as someone who does not have HIV.”

So, it’s not only HIV itself that can cause CKD, but also the drugs used to treat HIV.

The National Kidney Foundation at https://www.kidney.org/atoz/content/hiv-and-chronic-kidney-disease-what-you-need-know  offers some ideas about how to avoid CKD if you have HIV:

“Many people with HIV do not get kidney disease or kidney failure. Talk to your health care provider about your chances of getting kidney disease. If you have HIV, you can lower your chances by:

  • Checking your blood pressure as often as your doctor recommends and taking steps to keep it under control
  • Taking all your HIV medications as prescribed
  • Asking your doctor about HIV drugs that have a lower risk of causing kidney damage
  • Controlling your blood sugar if you have diabetes
  • Taking medicines to control your blood glucose, cholesterol, anemia, and blood pressure if your doctor orders them for you
  • Asking your doctor to test you for kidney disease at least once each year if you:
    • Have a large amount of HIV in your blood
    • Have a low level of blood cells that help fight HIV (CD4 cells)
    • Are African American, Hispanic American, Asian, Pacific Islander, or American Indian
    • Have diabetes, high blood pressure, or hepatitis C”

It seems to me that avoiding CKD if you have HIV is almost the same as taking care of your CKD if you didn’t have HIV, except for the specific HIV information.

I now understand why it’s so important to take the hepatitis C vaccine. I turned to UpToDate at https://www.uptodate.com/contents/treatment-of-chronic-hepatitis-c-virus-infection-in-the-hiv-infected-patient for further information about hepatitis C and HIV.

“The consequences of hepatitis C virus (HCV) infection in HIV-infected patients are significant and include accelerated liver disease progression, high rates of end-stage liver disease, and shortened lifespan after hepatic decompensation, in particular among those with more advanced immunodeficiency …. In the era of potent antiretroviral therapy, end-stage liver disease remains a major cause of death among HIV-infected patients who are coinfected with HCV ….”

Remember that drugs leave your body via either your liver or kidneys. If your kidneys are already compromised by HIV or the medications used to treat your HIV, you need a high functioning liver. If your liver is compromised by hepatitis C, you need high functioning kidneys. I was unable to determine just what high functioning meant as far as your kidneys or liver, so if you find out, let us know.

Please be as careful as possible to avoid HIV, and if you do have it, pay special attention to being treated for it. I’d like it if you were one of the people who is “diagnosed with HIV and treated before the disease is far advanced [so that you] can live nearly as long as someone who does not have HIV.”

Until next week,

Keep living your life!

Zap!

To my surprise, hair started growing back in unexpected places after I finished chemotherapy. One place was my face. My face! And quite a bit of it, more than a bearded person would have. At least, that’s how it looked to me. I was surprised no one mentioned it to me, but supposed they were just glad I was still alive. I wasn’t worried. I’d just use laser hair removal… or would I? I do have Chronic Kidney Disease.

What did that mean as far as the laser hair removal? I remembered from when I’d had it done on the mustache area about seventeen years ago that it doesn’t work on white hair. No problem with this currently. This facial hair was growing in black and thick.

My goodness, you’d think I’d just be thankful to be alive at this point, too. But as is often attributed to Mr. Shakespeare, “Vanity, thy name is woman.” (Actually, he wrote “Frailty, thy name is woman,” but no one seems to remember that.) So, time to explore what CKD limits there are with laser hair removal.

Let’s start at the beginning with what it is. WebMD at https://www.webmd.com/beauty/laser-hair-removal#1  explained it this way:

“Laser hair removal is one of the most commonly done cosmetic procedures in the U.S. It beams highly concentrated light into hair follicles. Pigment in the follicles absorb the light. That destroys the hair.”

Just in case you need reminders,

“A hair follicle is a tunnel-shaped structure in the epidermis (outer layer) of the skin. Hair starts growing at the bottom of a hair follicle. The root of the hair is made up of protein cells and is nourished by blood from nearby blood vessels.

As more cells are created, the hair grows out of the skin and reaches the surface. Sebaceous glands near the hair follicles produce oil, which nourishes the hair and skin.”

Thank you to Healthline at https://www.healthline.com/health/hair-follicle#anatomy for that information. Notice I specified hair follicles since there are other kinds of follicles.

What else might we need defined. Oh yes, pigment. I used the definition of pigmentation instead since it was less convoluted to my way of thinking. The ‘ation’ part just means the action or process of whatever we’re discussing – in this case pigment. MedicineNet at https://www.medicinenet.com/script/main/art.asp?articlekey=9681  tells us it’s:

“The coloring of the skin, hair, mucous membranes, and retina of the eye. Pigmentation is due to the deposition of the pigment melanin, which is produced by specialized cells called melanocytes.”

Now, the limitations with CKD – if any. In the last 17 years, I’ve learned that not only wouldn’t white hair respond to laser hair removal, but gray and blonde won’t either. It will also be less effective on red hair. It all has to do with your melanin.

Whoa! This was unexpected. I not only did NOT find any research warning about CKD and laser hair removal, but found some that endorsed it. For instance, The National Center for Biotechnology Information (NCBI), which is part of the U.S. National Library of Medicine, which in turn is part of the National Institutes of Health, which is connected to PubMed at https://www.ncbi.nlm.nih.gov/pubmed/30005102.

“Laser hair reduction is a well-established modality for a wide range of medical indications. Laser hair reduction can be beneficial for hemodialysis patients who undergo repeated adhesive tape application and removal at their hemodialysis site during hemodialysis sessions. There is a paucity of published literature on efficacious laser hair removal treatments for hemodialysis patients. Herein, we present a case of a 50-year-old male (Fitzpatrick III) with end-stage renal disease on hemodialysis, who achieved successful laser hair reduction at his hemodialysis vascular access site with five sessions of a neodymium:yttrium-aluminium-garnet (Nd:YAG) laser (1064 nm) to improve his quality of life by reducing the hair burden at the adhesive tape site application. We recommend providing this safe and effective hair reduction treatment option for hemodialysis patients given the decreased quality of life associated with end stage renal disease and hemodialysis. J Drugs Dermatol. 2018;17(7):794-795.”

Let me translate the medicalese. This abstract means that using laser hair removal around the patient’s access site for dialysis made his life easier (and less painful) since the tape wasn’t sticking to his arm hair anymore. We all know how painful taking off adhesive anything can be if body hair is involved.

I have dug around in my computer for hours and hours. That’s all I found about laser hair removal and Chronic Kidney Disease. That’s the great thing about keeping an open mind; you find some unexpected information.

Here’s hoping you had a fun Halloween and didn’t eat too much candy, especially if you’re diabetic.

Talking about food, are you aware of Mrs. Dash’s seasonings for use instead of salt? It’s come to the point where I can taste even a teeny bit of salt. After almost a decade of not using salt, I’ve lost my taste for it… but Mrs. Dash? How does lemon pepper seasoning sound to you? Or garlic and herb? There are about 28 different flavors of seasoning. Go to the website at https://www.mrsdash.com/ to see for yourself. They also make marinades which was news to me. I usually choose the less spicy seasonings, but they have some zingers that you spicy food loving CKD patients will probably enjoy more.

Until next week,

Keep living your life!

 

Gee, That Smells Nice

Decades ago, when I was a newlywed and still in college, we lived on East 90th Street in New York City. The neighborhood was old; the building was old. It was old enough to have that odor, the one New Yorkers are still arguing about. One group says it’s dead rats in the walls; the other says it’s feline urine that’s built up over the years. It was pretty rank.

At that time, I was a wannabe hippie, so I did what all the wannabe hippies did. I lit incense. It was powerful and it smelled nice. Opening the windows wasn’t a helpful option since this was a dumb belle apartment and people had been throwing garbage out the windows and down into the little airspace the shape of the apartment created for over a hundred years.

They’d been throwing it out the back windows, too. Nobody wanted to walk their garbage down the five flights from where I lived. What about the front windows, you ask. If you didn’t mind car exhaust smoke or the shrills of children playing in the street, that would have been okay. I liked the sound of the children, but it didn’t help me study.

We finally figured out this was not the best place for us to live, so we moved to an apartment in Forest Hills, a neighborhood in Queens. It smelled nice there. Our three windows opened on to a courtyard belonging to the apartment building behind us. There were trees and bushes galore. But we still lit incense. By this time, my then husband was a wannabe hippie right along with me.

I moved a lot in those years: New Rochelle in Westchester, Park Slope in Brooklyn, and Stapleton Heights in Staten Island. In each new home, I lit incense more from habit than anything else.

Finally, I moved to Arizona and kept all ten windows in my home open throughout the fall, winter, and spring. But in the summer with its extreme heat, they had to be closed…. So what did I do? That’s right; I burned incense. Never once did I consider this might be some sort of health hazard.

Now I have pancreatic cancer which I know is caused by the ATM gene and, in my case, is hereditary (Stop laughing, please. That really is the name of the gene.) But I also have Chronic Kidney Disease. I got to wondering if there’s any connection between the incense burning and the fact that I have CKD. So, I decided to explore that possibility.

But first, let me tell those who may not know just what incense is. Dictionary.com at https://www.dictionary.com/browse/incense has a nice, easy definition:

  1. “an aromatic gum or other substance producing a sweet odor when burned, used in religious ceremonies, to enhance a mood, etc.
  2. the perfume or smoke arising from such a substance when burned.
  3. any pleasant perfume or fragrance.”

I popped over to The National Center for Biotechnology Information (NCBI), which is part of the
US National Library of Medicine
, which in turn is part of the National Institutes of Health, which is connected to PubMed at https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6325774/. Why? Because I remembered reading something about incense on this site. I know, I know. I freely admit I have weird reading habits, but remember: I’m retired. I can indulge in anything that catches my fancy now… including reading weird, seemingly random articles. Anyway, this is what I learned from this study of daily incense burning by Chinese CKD patients in Singapore.

“Our study provides epidemiological evidence that long-term exposure to domestic incense smoke may contribute to the risk of ESRD in the general populations. We acknowledge the lack of information on kidney function at baseline as a limitation in our study, and recommend that the findings be corroborated by future studies that can demonstrate the deterioration in kidney function with time in incense users. Given the worldwide prevalence of incense burning, our finding has substantial public health implications. We advocate implementing strategies to reduce exposure to the emissions from domestic incense and educating the public about the importance of improving ventilation with the use of incense.”

This is no surprise if you’re thinking logically, but then again, who thinks about incense? Although I’ll bet you’ll be doing a little bit more thinking about it now. There are some problems here, though.

  1. I’m not Chinese.
  2. I don’t live in Singapore.
  3. I don’t burn incense on a daily basis.

Hmmm, let’s see if I can find anything else. While not specific to CKD, Healthline at https://www.healthline.com/health/is-incense-bad-for-you#bottom-line did have concerns.

“Incense has been used for thousands of years with many benefits. However, studies are showing incense can possibly pose dangers to health.

Incense isn’t officially deemed a major public health risk comparable to smoking tobacco. Correct use to minimize risks hasn’t yet been explored. Neither has the extent of its dangers been explored, since studies thus far are limited.

Reducing or limiting incense use and your exposure to the smoke may help lower your risk. Opening windows during or after use is one way to reduce exposure.

Otherwise, you can explore alternatives to incense if you’re concerned about the risks.”

I intend to open the windows the next time I use incense to cover that darned chemo smell I’m still emitting. Consider opening the windows the next time you choose to use incense, if you do.

Time for a little gratitude here. You know I’ve been dealing with pancreatic cancer since last March. During this time period, I’ve been invited to present at a conference in Tokyo, participate in both a radio show and a newspaper article, and be a member of a think tank in New Jersey. To be honest, I hadn’t realized how much physical energy I put into my CKD awareness outreach. While I had to answer, “Not this year. Please keep me in mind for next year,” I am thankful for these opportunities.

Until next week,

Keep living your life!

Sodium Bicarbonate, Anyone?

I belong to a number of social media Chronic Kidney Disease support groups. Time and time again, I’ve seen questions about sodium bicarbonate use. I never quite understood the answers to members’ questions about this. It’s been years, folks. It’s time for me to get us some answers.

My first question was, “What is it used for in conjunction with CKD?” Renal & Urology News at https://www.renalandurologynews.com/home/conference-highlights/era-edta-congress/sodium-bicarbonate-for-metabolic-acidosis-slows-ckd-progression/ had a current response to this. Actually, it’s from last June 19th.

“Sodium bicarbonate treatment of metabolic acidosis in patients with chronic kidney disease (CKD) improves renal outcomes and survival, researchers reported at the 56th European Renal Association-European Dialysis and Transplant Association Congress in Budapest, Hungary.

In a prospective open-label study, patients with CKD and metabolic acidosis who took sodium bicarbonate (SB) tablets were less likely to experience a doubling of serum creatinine (the study’s primary end point), initiate renal replacement therapy (RRT), and death than those who received standard care (SC).”

It may be current but what does it mean? Let’s start with metabolic acidosis. Medline Plus, part of the U.S. National Library of Medicine which, in turn, is part of the National Institutes of Health at https://medlineplus.gov/ency/article/000335.htm explains it this way:

“Metabolic acidosis is a condition in which there is too much acid in the body fluids.”

But why is there “too much acid in the body fluid?”

I like the simply stated reason I found at Healthline (https://www.healthline.com/health/acidosis), the same site that deemed SlowItDownCKD among the Best Six Kidney Disease Blogs for 2016 and 2017.

“When your body fluids contain too much acid, it’s known as acidosis. Acidosis occurs when your kidneys and lungs can’t keep your body’s pH in balance. Many of the body’s processes produce acid. Your lungs and kidneys can usually compensate for slight pH imbalances, but problems with these organs can lead to excess acid accumulating in your body.”

In case you’ve forgotten, pH is the measure of how acid or alkaline your body is. So, it seems that when the kidneys (for one organ) don’t function well, you may end up with acidosis. Did you know the kidneys played a part in preventing metabolic acidosis? I didn’t.

I went to MedicalNewsToday at https://www.medicalnewstoday.com/articles/263834.php in an attempt to find out if metabolic syndrome has any symptoms. By the way, AHA refers to the American Heart Association.

“According to the AHA, a doctor will often consider metabolic syndrome if a person has at least three of the following five symptoms:

  1. Central, visceral, abdominal obesity, specifically, a waist size of more than 40 inches in men and more than 35 inches in women
  2. Fasting blood glucose levels of 100 mg/dL or above
  3. Blood pressure of 130/85 mm/Hg or above
  4. Blood triglycerides levels of 150 mg/dL or higher
  5. High-density lipoprotein (HDL) cholesterol levels of 40 mg/dL or less for men and 50 mg/dL or less for women

Having three or more of these factors signifies a higher risk of cardiovascular diseases, such as heart attack or stroke, and type 2 diabetes.”

Well! Now we’re not just talking kidney (and lung) involvement, but possibly the heart and diabetes involvement. Who knew?

Of course, we want to prevent this, but how can we do that?

“You can’t always prevent metabolic acidosis, but there are things you can do to lessen the chance of it happening.

Drink plenty of water and non-alcoholic fluids. Your pee should be clear or pale yellow.

Limit alcohol. It can increase acid buildup. It can also dehydrate you.

Manage your diabetes, if you have it.

Follow directions when you take your medications.”

Thank you to WebMD at https://www.webmd.com/a-to-z-guides/what-is-metabolic-acidosis#2  for the above information.

Let’s say – hypothetically, of course – that you were one of the unlucky CKD patients to develop metabolic acidosis. How could you treat it?

I went directly to the National Kidney Foundation at https://www.kidney.org/atoz/content/metabolic-acidosis to find out. This is what they had to say:

“We all need bicarbonate (a form of carbon dioxide) in our blood. Low bicarbonate levels in the blood are a sign of metabolic acidosis.  It is a base, the opposite of acid, and can balance acid. It keeps our blood from becoming too acidic. Healthy kidneys help keep your bicarbonate levels in balance.  Low bicarbonate levels (less than 22 mmol/l) can also cause your kidney disease to get worse.   A small group of studies have shown that treatment with sodium bicarbonate or sodium citrate pills can help keep kidney disease from getting worse. However, you should not take sodium bicarbonate or sodium citrate pills unless your healthcare provider recommends it.”

I’m becoming a wee bit nervous now and I’d like to know when metabolic acidosis should start being treated if you, as a CKD (CKF) patient do develop it. Biomed at http://www.biomed.cas.cz/physiolres/pdf/prepress/1128.pdf reassured me a bit.

“Acid–base disorder is commonly observed in the course of CKF. Metabolic acidosis is noted in a majority of patients when GFR decreases to less than 20% to 25% of normal. The degree of acidosis approximately correlates with the severity of CKF and usually is more severe at a lower GFR…. Acidosis resulting from advanced renal insufficiency is called uremic acidosis. The level of GFR at which uremic acidosis develops varies depending on a multiplicity of factors. Endogenous acid production is an important factor, which in turn depends on the diet. Ingestion of vegetables and fruits results in net production of alkali, and therefore increased ingestion of these foods will tend to delay the appearance of metabolic acidosis in chronic renal failure. Diuretic therapy and hypokalemia, which tend to stimulate ammonia production, may delay the development of acidosis. The etiology of the renal disease also plays a role. In predominantly tubulointerstitial renal diseases, acidosis tends to develop earlier in the course of renal insufficiency than in predominantly glomerular diseases. In general, metabolic acidosis is rare when the GFR is greater than 25–20 ml/min (Oh et al. 2004).”

At least I understand why the sodium bicarbonate and I realize it’s not for me… yet.

Until next week,

Keep living your life!

Get the Lead Out

In case you haven’t heard yet, my youngest and her husband are having a little boy at the end of the month. I’ve noticed that, as millennials, their generation shares what they already have instead of running out to buy new as my generation – the baby boomers – did. One thing that was shared with them was a 16 year old crib in ace condition.

I thought it was painted white and got nervous about lead in the paint until I did a little digging. Luckily, the anti-lead paint laws came into existence 41 years ago in 1978.

Then I started to wonder what sustained lead exposure could do to someone with Chronic Kidney Disease and turned to one of my favorite sites to find out. According to the National Kidney Foundation at https://www.kidney.org/atoz/content/lead-exposure-and-kidney-function,

“Having too much lead in your body can affect all the organs in your body, including the kidneys. When it affects your kidneys, medical experts call it ‘lead-related nephrotoxicity.’  (‘Nephro’ refers to your kidneys, and ‘toxicity’ refers to poison.’) Kidney damage from lead exposure is very uncommon in the United States.  In fact, most experts believe that kidney damage from lead is rare nowadays, especially in the United States and Europe.

It’s believed that lead exposure causes less than 1% of all cases of kidney failure.  It is usually related to jobs where workers are exposed to very high levels of lead, such as stained glass artists, metal smelters, and people who work in battery factories or remodel old homes. The low levels of lead found in drinking water, house paint, dirt, dust, or toys rarely causes kidney damage.

But if it does happen, it is usually only after many years of lead exposure (5 to 30 years).  Also, it is more likely to affect people who are already at risk for kidney disease, or those who already have kidney disease. In children, however, even mild exposure over many years can lead to health effects later in life, including kidney damage.”

Let’s say (Heaven forbid!) that you were among the “less than 1% of all cases of kidney failure” caused by lead exposure. How would you even know you had lead poisoning? The National Institute for Occupational Safety and Health (NIOSH), part of the Centers for Disease Control and Prevention (CDC) at  https://www.cdc.gov/niosh/topics/lead/health.html had an answer ready for us.

“Lead poisoning can happen if a person is exposed to very high levels of lead over a short period of time. When this happens, a person may feel:

  • Abdominal pain
  • Constipated
  • Tired
  • Headachy
  • Irritable
  • Loss of appetite
  • Memory loss
  • Pain or tingling in the hands and/or feet
  • Weak

Because these symptoms may occur slowly or may be caused by other things, lead poisoning can be easily overlooked. Exposure to high levels of lead may cause anemia, weakness, and kidney and brain damage. Very high lead exposure can cause death.

Lead can cross the placental barrier, which means pregnant women who are exposed to lead also expose their unborn child. Lead can damage a developing baby’s nervous system. Even low-level lead exposures in developing babies have been found to affect behavior and intelligence. Lead exposure can cause miscarriage, stillbirths, and infertility (in both men and women).

Generally, lead affects children more than it does adults. Children tend to show signs of severe lead toxicity at lower levels than adults. Lead poisoning has occurred in children whose parent(s) accidentally brought home lead dust on their clothing. Neurological effects and mental retardation have also occurred in children whose parent(s) may have job-related lead exposure.…”

Did you catch the mention of kidney disease? Now what? How is lead poisoning treated? Let’s see what another favorite site of mine, The Mayo Clinic at https://www.mayoclinic.org/diseases-conditions/lead-poisoning/diagnosis-treatment/drc-20354723   has to say:

“The first step in treating lead poisoning is to remove the source of the contamination. If you can’t remove lead from your environment, you might be able to reduce the likelihood that it will cause problems. For instance, sometimes it’s better to seal in rather than remove old lead paint. Your local health department can recommend ways to identify and reduce lead in your home and community. For children and adults with relatively low lead levels, simply avoiding exposure to lead might be enough to reduce blood lead levels.

Treating higher levels For more-severe cases, your doctor might recommend:

  • Chelation therapy. In this treatment, a medication given by mouth binds with the lead so that it’s excreted in urine. Chelation therapy might be recommended for children with a blood level of 45 mcg/dL or greater and adults with high blood levels of lead or symptoms of lead poisoning.
  • EDTA chelation therapy. Doctors treat adults with lead levels greater than 45 mcg/dL of blood and children who can’t tolerate the drug used in conventional chelation therapy most commonly with a chemical called calcium disodium ethylenediaminetetraacetic acid (EDTA). EDTA is given by injection.”

Is that safe for your kidneys? Uh-oh, according to WebMD at https://www.webmd.com/balance/guide/what-is-chelation-therapy, it may not be.

“When chelation therapy is used the right way and for the right reason, it can be safe. The most common side effect is burning in the area where you get the IV. You might also experience fever, headache, and nausea or vomiting. Chelating drugs can bind to and remove some metals your body needs, like calcium, copper, and zinc. This can lead to a deficiency in these important substances. Some people who’ve had chelation therapy also have low calcium levels in the blood and kidney damage.”

It looks like this is another case when you’ll have to present the information to your nephrologist and see what he or she advises in your particular case. If it’s a primary care doctor who is treating you for lead poisoning, be certain to tell him or her that you CKD.

Until next week,

Keep living your life!

Needling Me

Years ago, as a young woman in my twenties (Could that really be at least 50 years ago????), I was horrified to discover I needed surgery for bleeding hemorrhoids. It was embarrassing, my younger self thought. It was private, my younger self thought. So my younger self looked for an alternative and discovered acupuncture. Not only would I be spared someone – even though that someone would be a doctor – dealing with private parts of my body, but I would also be spared the insult to the body that surgery can be… and my insurance covered it.

Hmmm, I was fully clothed and the needles didn’t hurt although I had expected the process to be painful. Best? I did get relief from the bleeding hemorrhoids and avoided the surgery.

Remembering that incidence today for some unknown reason, I wondered what – if anything – acupuncture could do for those of us with Chronic Kidney Disease. So, I went searching for information.  But wait, I’m getting ahead of myself – as usual. Let’s go back to talking about what acupuncture is.

Acupuncture is a form of medical treatment that’s been used for hundreds — even thousands — of years. Acupuncture originated in Asian medical practices. That’s why many licensure and oversight boards use the term ‘Oriental Medicine’ to classify acupuncture.

Acupuncture is practiced by tens of thousands of licensed acupuncturists. Expert acupuncturists train for three to four years. The training includes both instruction in the use of needles and instruction in diagnosing conditions. Practitioners have direct supervision from another senior or expert practitioner.

In addition to this training, acupuncturists must undergo testing from a national board of examiners and continue to take instructional courses each year to maintain their license.

The American Medical Association accepts acupuncture as a medical treatment, and some insurance companies may cover the cost of treatment.”

Thank you, Healthline at https://www.healthline.com/health/dry-needling-vs-acupuncture for the above information.

The University of California, San Diego, School of Medicine, Center for Integrative Medicine in the Department of Family Medicine and Public Health at https://medschool.ucsd.edu/som/fmph/research/cim/clinicalcare/Pages/About-Acupuncture.aspx  had a succinct description of the process.

“First, your acupuncturist will ask about your health history. Then, he or she will examine your tongue’s shape, color, and coating, feel your pulse, and possibly perform some additional physical examinations depending on your individual health needs. Using these unique assessment tools, the acupuncturist will be able to recommend a proper treatment plan to address your particular condition. To begin the acupuncture treatment, you lay comfortably on a treatment table while precise acupoints are stimulated on various areas of your body. Most people feel no or minimal discomfort as the fine needles are gently placed. The needles are usually retained between five and 30 minutes. During and after treatments, people report that they feel very relaxed.”

PubMed, part of the US National Library of Medicine, National Institutes of Health at https://www.ncbi.nlm.nih.gov/pubmed/28422526 concluded via a small, fairly recent study:

“Acupuncture at bilateral Hegu, Zusanli, and Taixi for 12 weeks reduced creatinine levels and increased eGFR levels. The study only provided a feasibility method for the treatment of patients with CKD. However, the results of this preliminary study warrant further investigation.”

I think we all need a little help here to understand this conclusion. The three words we are not familiar with are all acupuncture points. The Acupuncture Massage College’s site at https://www.amcollege.edu/blog/commonly-used-acupuncture-points explained in language I could understand.

“Large Intestine Channel: LI4, Hegu
This point is located on the back side of the hand between the thumb and first finger. The primary use of this point is to relieve pain and treat inflammatory and feverish diseases.

Stomach Channel: ST36, Zusanli
This point is located on the front of the leg, just below the knee. It is helpful for digestive disorders. Research shows that using this point results in positive effects in treating anemia, immune deficiency, fatigue, and numerous diseases.

Kidney Channel: KI3, Taixi
This point is located just behind the inner ankle. It is used for disorders in several areas of the body, including sore throat, toothache, deafness, tinnitus, dizziness, asthma, thirst, insomnia, lower back pain and menstrual irregularities.”

Inflammatory? CKD. Anemia? CKD. Immune deficiencies? CKD.  Kidney? CKD. Now we know why acupuncture can help us. There seems to be a split among doctors as to whether it will or not, so you’ll have to be careful to talk to your nephrologist. Some will give you an emphatic, “YES!”  Others will give you a questioning look. And still others will ask you, “Why bother?” Be prepared with your answers. You don’t want to alienate the doctor in charge of your treatment and you want to keep the lines of communication open. Well, at least I do.

 

If you’re excited about the idea of acupuncture, you may be asking yourself how to find a good, safe practitioner. Sure you can look in the phone book, but – just as with any doctor – what would you know about how this particular acupuncturist functions? Before I had CKD, when I was plagued by another medical problem but had already moved to Arizona away from my NYC acupuncturist, I asked my stepdaughter about the acupuncturist she saw. If your nephrologist is onboard, you can ask for a referral. Sometimes, your primary care physician can be a good source here, too.

If you’re not excited about acupuncture, don’t push yourself. My husband tried it once to please me and swore never to do that again because he just didn’t like it. Okay, he has other ways of dealing with his back pain. While I am in favor of acupuncture and plan to incorporate this into my medical team once I’m done with surgery and rehab, I also like peace in the house.

Until next week,

Keep living your life!

It’s Like the Sahara in There

I like my dentist, especially when he tells me something I didn’t know. When I went to see him last time, I told him my chemo experience and how dry my mouth was. I thought they might be related. He patiently gave me the same information as the Mayo Clinic at https://www.mayoclinic.org/diseases-conditions/dry-mouth/symptoms-causes/syc-20356048.

“Dry mouth, or xerostomia (zeer-o-STOE-me-uh), refers to a condition in which the salivary glands in your mouth don’t make enough saliva to keep your mouth wet. Dry mouth is often due to the side effect of certain medications or aging issues or as a result of radiation therapy for cancer. Less often, dry mouth may be caused by a condition that directly affects the salivary glands.

Saliva helps prevent tooth decay by neutralizing acids produced by bacteria, limiting bacterial growth and washing away food particles. Saliva also enhances your ability to taste and makes it easier to chew and swallow. In addition, enzymes in saliva aid in digestion.

Decreased saliva and dry mouth can range from being merely a nuisance to something that has a major impact on your general health and the health of your teeth and gums, as well as your appetite and enjoyment of food.

Treatment for dry mouth depends on the cause.”

The joke’s on me. I developed dry mouth before the radiation treatments began. At least my salivary glands weren’t having any issues of their own. It seems we discussed xerostomia at the right time.

Wait a minute. Something is pulling on my memory. Something about Chronic Kidney Disease and dry mouth. Of course, periodontics and CKD. The Journal Of Clinical Periodontology at https://onlinelibrary.wiley.com/action/doSearch?AllField=chronic+kidney+disease&SeriesKey=1600051x had just what I was trying to remember. By the way, this is a fascinating free online library by John Wiley, a publisher I remember well from when I worked as an educator.

“Periodontitis had significant direct effect, and indirect effect through diabetes, on the incidence of CKD. Awareness about systemic morbidities from periodontitis should be emphasized.”

In other words, if you have CKD or diabetes, make certain your dentist knows so he or she can monitor you for the beginning of periodontic problems. Just as with any other medical issue, the sooner you start treatment, the better. I can attest to this since I caught my pancreatic cancer early, which gave me a much better chance of eradicating it from my body.

The treatment for dry mouth seems simple enough, as explained by Healthline (Thank you again for the two awards!) at https://www.healthline.com/symptom/dry-mouth.

“Dry mouth is usually a temporary and treatable condition. In most cases, you can prevent and relieve symptoms of dry mouth by doing one or more of the following:

  • sipping water often
  • sucking on ice cubes
  • avoiding alcohol, caffeine, and tobacco
  • limiting your salt and sugar intake
  • using a humidifier in your bedroom when you sleep
  • taking over-the-counter saliva substitutes
  • chewing sugarless gum or sucking on sugarless hard candy
  • over- the-counter toothpastes, rinses, and mints

If your dry mouth is caused by an underlying health condition, you may require additional treatment. Ask your doctor for more information about your specific condition, treatment options, and long-term outlook.”

The sugarless gum works well for me and, as an added benefit, quelled the nausea from the radiation treatments, too. While I don’t drink or smoke, I will have an occasional half cup of coffee when I can tolerate it. I didn’t know this was something to be avoided. As both a CKD patient and a type 2 diabetic (Thanks, pancreatic cancer.), I was already avoiding salt and sugar. So, without realizing it, I was already helping myself deal with dry mouth. Lucky me.

That got me to thinking. What other problems could dry mouth cause? I went to NHS Inform at https://www.nhsinform.scot/illnesses-and-conditions/mouth/dry-mouth to look for an answer. Indeed, this is a Scottish website, but a mouth is a mouth no matter where it’s located, right?

  • “a burning sensation or soreness in your mouth
  • dry lips
  • bad breath (halitosis)
  • a decreased or altered sense of taste
  • recurrent mouth infections, such as oral thrush
  • tooth decay and gum disease
  • difficulty speaking, eating or swallowing”

On a personal note, I found the halitosis embarrassing and the altered sense of taste frustrating. And here, I’d been blaming the chemo for that. Maybe it was the chemo, although my age could also be the cause of my dry mouth. I do admit that 72 could be considered “aging.” My husband orders the groceries and we now have a pantry full of food I used to love but all taste, well, funny now. Poor guy, he was just trying to get me to eat when he ordered the food. He knew calorie intake is important when you’re dealing with cancer.

I wondered what the symptoms of dry mouth were… well, other than a dry mouth, that is.

“Common symptoms include:

  • A sticky, dry feeling in the mouth
  • Frequent thirst
  • Sores in the mouth; sores or split skin at the corners of the mouth; cracked lips
  • A dry feeling in the throat
  • A burning or tingling sensation in the mouth and especially on the tongue
  • A dry, red, raw tongue
  • Problems speaking or trouble tasting, chewing, and swallowing
  • Hoarseness, dry nasal passages, sore throat
  • Bad breath

Thank you to WebMD at https://www.webmd.com/oral-health/guide/dental-health-dry-mouth#1 for the above information.

Will you look at that! Just as diabetes can cause CKD and CKD can cause diabetes, bad breath (halitosis), soreness or burning sensation in the mouth can both be symptoms of dry mouth and problems caused by dry mouth.

Let’s see now. What else can I tell you about dry mouth? DentistryIQ at https://www.dentistryiq.com/clinical/oral-cancer/article/16356305/facts-about-dry-mouth is a new site for me. They describe themselves as “… a leading source of information that helps dental professionals achieve excellence in their positions, whether that position is dentist, dental practice owner, dental hygienist, dental office manager, dental assistant, or dental school student.” I went there to find out just how many people suffer from dry mouth.

“It is estimated to affect millions of people in the United States, particularly women and the elderly…. Current research indicates that approximately one in four adults suffer from dry mouth, and this figure increases to 40 percent in populations over the age of 55….”

This was back in 2006, and unfortunately are the most current figures I could find. Please let us know if you can find more current numbers.

Personal note: Tomorrow I will be having surgery to remove the pancreatic cancerous tumor I’ve been dealing with since last February. The blogs will be posted right on time, but comments, emails, etc. probably won’t be answered for a while. I’ve been told this is an arduous surgery with a long, slow recovery period. Keep well until we can communicate again.

Until next week,

Keep living your life!

How Will They Know?

Let’s start this month with a guest blog by American Medical Alert IDs. Why? Although I am not endorsing this particular brand, because I clearly remember being give Sulphur drugs in the Emergency Room when I was by myself and unable to let the medical staff there know I have Chronic Kidney Disease. Why? Because I remember that my husband fell when I was out of town. His grown children took him to the emergency room but didn’t know about his latex allergy and he was in no condition to explain.

 

Everything You Need To Know About Medical Alert IDs for Chronic Kidney Disease


Are you debating on getting a medical alert ID for chronic kidney disease? It’s time to take the confusion out of choosing and engraving a medical ID. This post will show you everything you need to know so you can enjoy the benefits of wearing one.

Why Kidney Patients Should Wear a Medical Alert ID

A medical ID serves as an effective tool to alert emergency staff of a patient’s special care needs, even when a person can’t speak for themselves. When every second counts, wearing a medical ID can help protect the kidney and safeguard its remaining function.

In emergencies, anyone diagnosed with chronic kidney disease or kidney failure may require special medical attention and monitoring. It is important that patients are able to communicate and identify their medical condition at all times. This includes individuals who are:

  • Undergoing in-center hemodialysis
  • Undergoing home hemodialysis
  • On Continuous Ambulatory Peritoneal Dialysis (CAPD)
  • On Continuous Cycling Peritoneal Dialysis (CCPD)
  • Transplant recipients
  • Diagnosed with diabetes

Delays in getting the proper treatment needed for chronic kidney disease may lead to the following complications:

  • Fatal levels of potassium or hyperkalemia. This condition can lead to dangerous, and possibly deadly, changes in the heart rhythm.
  • Increased risk of peritonitis or inflammation of the membranes of the abdominal wall and organs. Peritonitis is a life-threatening emergency that needs prompt medical treatment.
  • Anemia or decreased supply in red blood cells. Anemia can make a patient tired, weak, and short of breath.
  • Heart disease, heart attack, congestive heart failure, and stroke
  • High blood pressure which can cause further damage to the kidneys and negatively impact blood vessels, heart, and other organs in the body.
  • Fluid buildup in the body that can cause problems with the heart and lungs.

According to Medscape, the most common cause of sudden death in patients with ESRD is hyperkalemia, which often follows missed dialysis or dietary indiscretion. The most common cause of death overall in the dialysis population is cardiovascular disease; cardiovascular mortality is 10-20 times higher in dialysis patients than in the general population.

Kidney Patients Who Wear a Medical ID Have 62% Lower Risk of Renal Failure

In a study of 350 patients, primarily in CKD stages 2 through 5, those who wore a medical ID bracelet or necklace had a 62% lower risk of developing kidney failure, based on eGFR. Wearing a medical-alert bracelet or necklace was associated with a lower risk of developing kidney failure compared with usual care.

Wearing a medical ID can serve as a reminder to look after your health and make the right choices such as taking medication on time and sticking to proper diet.

6 Things to Engrave on Kidney Disease Medical ID

A custom engraved medical alert jewelry can hold precise information that is specific to the wearer’s health condition. Here are some of the most important items to put on a chronic kidney disease or kidney failure medical ID:

  • Name
  • Medical information – including if you have other medical conditions such as diabetes or high blood pressure
  • Stage of CKD or kidney function
  • Transplant information
  • Current list of medicines
  • Contact person

Some patients have a long list of medications that may not fit on the engraved part of an ID. An emergency wallet card is recommended to use for listing down your medicines and other information or medical history.

 

Click here to enlarge chronic kidney disease infographic

Do you wear or carry a form of medical identification with you? Please share your experience or tips with us by posting a comment.

Ready for a new topic? All right then. Ever have a problem drinking your coffee? I know I have… until I followed these tips from the Cleveland Clinic at https://health.clevelandclinic.org/coffee-giving-you-tummy-trouble-try-these-low-acid-options/:

Here’s hoping that next cup of coffee treats you well.

Until next week,

Keep living your life!

 

Stay in the Blood, PLEASE

Let’s finish out this lazy, hazy summer month of August with another reader question. This one was quite straight forward:

“Any advice to slow down protein leaking into urine. Hard to build muscle when you keep excreting protein”

The condition of leaking protein into your urine is called proteinuria. That’s almost self-explanatory. The root of the word actually says protein while the suffix (group of related letters added to the end of a word which changes its meaning) is defined as,

“-uria.

  1. suffix meaning the “presence of a substance in the urine”: ammoniuria, calciuria, enzymuria.
  2. combining form meaning “(condition of) possessing urine”: paruria, polyuria, pyuria.

Thank you to the Medical Dictionary at https://medical-dictionary.thefreedictionary.com/-uria for the definition of uria.

Okay, so we know that protein is leaking into the urine. Not good. Why? We need it in our blood, not excreted in our urine. The following is from a previous blog on proteinuria. I used the dropdown menu in “Topics” on the right side of the blog page to find it or any other topic listed there. You can, too.

“According to WebMD at https://www.webmd.com/men/features/benefits-protein#1:

‘Protein is an important component of every cell in the body. Hair and nails are mostly made of protein. Your body uses protein to build and repair tissues. You also use protein to make enzymes, hormones, and other body chemicals. Protein is an important building block of bones, muscles, cartilage, skin, and blood.’”

Got it. Our reader is correct; it is hard to build muscle if you’re “excreting protein.” Now what? I usually stick to medical sites but this comment from Healthfully at https://healthfully.com/170108-how-to-reduce-excess-protein-in-the-kidney.html caught my eye.

“Continue monitoring how much protein your kidneys are spilling for several months. Since colds and infections can cause transient increases in protein, you will want at least several months of data.”

As Chronic Kidney Disease patients, we usually have quarterly urine tests… or, at least, I do. My urine protein level is included. I did not know that colds and infections are a factor here. Here’s an old urine analysis of mine. You can see Protein, Urine fourth from the bottom.

Component Your Value Standard Range
Color, Urine Yellow Colorless, Light Yellow, Yellow, Dark Yellow, Straw
Clarity, Urine Clear Clear
Glucose, Urine Negative mg/dL Negative mg/dL
Bilirubin, Urine Negative Negative
Ketones, Urine Negative mg/dL Negative mg/dL
Specific Gravity, Urine 1.013 1.007 – 1.026
Blood, Urine Negative Negative
pH, Urine 7.0 5.0 – 8.0
Protein, Urine Negative mg/dL Negative mg/dL
Urobilinogen, Urine <2.0 mg/dL <2.0 mg/dL
Nitrite, Urine Negative Negative
Leukocyte Esterase, Urine Negative Negative

 

Let’s say our reader did not have a cold or infection. What else could she do to slow down this loss of protein via her urine?

The American Kidney Fund at http://www.kidneyfund.org/kidney-disease/kidney-problems/protein-in-urine.html suggests the following:

“If you have diabetes or high blood pressure, the first and second most common causes of kidney disease, it is important to make sure these conditions are under control.

If you have diabetes, controlling it will mean checking your blood sugar often, taking medicines as your doctor tells you to, and following a healthy eating and exercise plan. If you have high blood pressure, your doctor may tell you to take a medicine to help lower your blood pressure and protect your kidneys from further damage. The types of medicine that can help with blood pressure and proteinuria are called angiotensin-converting enzyme inhibitors (ACE inhibitors) and angiotensin receptor blockers (ARBs).

If you have protein in your urine, but you do not have diabetes or high blood pressure, an ACE inhibitor or an ARB may still help to protect your kidneys from further damage. If you have protein in your urine, talk to your doctor about choosing the best treatment option for you.”

So far, we’ve discovered that frequent urine testing, determining if you have a cold or infection, keeping your diabetes and blood pressure under control, and/or ACE inhibitors may be helpful. But here’s my eternal question: What else can slow down the spilling of protein into our urine?

The Kidney & Urology Foundation of America, Inc. at http://www.kidneyurology.org/Library/Kidney_Health/Proteinuria.php has some more ideas about that:

“In addition to blood glucose and blood pressure control, restricting dietary salt and protein intake is recommended. Your doctor may refer you to a dietitian to help you develop and follow a healthy eating plan.”

As CKD patients, we know we need to cut down on salt intake. I actually eliminate added salt and have banned the salt shakers from the kitchen. No wonder no one but me likes my cooking. You do lose your taste for salt eventually. After all these years, I taste salt in restaurant food that makes that particular food unpalatable to me.

Hmmm, it seems to me that a list of high protein foods might be helpful here.

POULTRY…

  • Skinless chicken breast – 4oz – 183 Calories – 30g Protein – 0 Carbs – 7g Fat
  • Skinless chicken (Dark) – 4 oz – 230 Calories – 32g Protein – 0 Carbs – 5g Fat
  • Skinless Turkey (White) – 4 oz – 176 Calories – 34g Protein – 0 Carbs – 3.5g Fat
  • Skinless Turkey (Dark) – 4 oz – 211 Calories – 31g Protein – 0 Carbs – 8.1 g Fat

FISH…

  • Salmon – 3 oz – 119 Calories – 17g Protein – 0 Carbs – 5.5g Fat
  • Halibut – 3 oz – 91 Calories – 18g Protein – 0 Carbs – 3g Fat
  • Tuna – 1/4 cup – 70 Calories – 18g Protein – 0 Carbs – 0g Fat
  • Mackerel – 3 oz – 178 Calories – 16.1g Protein – 0 Carbs – 12g Fat
  • Anchovies (packed in water) – 1 oz – 42 Calories – 6g Protein – 1.3g Fat
  • Flounder – 1 127g fillet – 149 Calories – 30.7g Protein – 0 Carbs – 0.5g Fat (High Cholesterol)
  • Swordfish – 1 piece 106g – 164 Calories – 26.9g Protein – 0 Carbs – 1.5g Fat (High Cholesterol)
  • Cod – 1 fillet 180g – 189 Calories – 41.4g protein – 0 Carbs – 0.3g Fat (High Cholesterol)
  • Herring – 1 fillet 143g – 290 Calories – 32.9g Protein – 0 Carbs – 3.7g Fat (High Cholesterol)
  • Haddock – 1 fillet 150g – 168 Calories – 36.4g Protein – 0 Carbs – 0.3g Fat (High Cholesterol)
  • Grouper – fillet 202g – 238 Calories – 50.2g Protein – 0 Carbs – 0.6g Fat (High Cholesterol)
  • Snapper – 1 fillet 170g – 218 Calories – 44.7g Protein – 0 Carbs – 0.6g Fat (High Cholesterol)

BEEF…

  • Eye of round steak – 3 oz – 276 Calories – 49g Protein – 2.4g Fat
  • Sirloin tip side steak – 3 oz -206 Calories – 39g Protein – 2g Fat
  • Top sirloin – 3 oz – 319 Calories – 50.9g Protein – 4g Fat
  • Bottom round steak – 3 oz – 300 Calories – 47g Protein – 3.5g Fat
  • Top round steak – 3 oz – 240 Calories – 37g Protein – 3.1g Fat

PORK…

  • Pork loin – 3 oz – 180 Calories – 25g Protein – 0 Carbs – 2.9g Fat (High in cholesterol)
  • Tenderloin– 3 oz – 103 Calories – 18g Protein – 0.3g Carbs – 1.2g Fat (High in cholesterol)

GAME MEATS…

  • Bison – 3 0z – 152 Calories – 21.6g Protein – 0 Carbs – 3g Fat
  • Rabbit – 3 oz – 167 Calories – 24.7g Protein – 0 Carbs – 2.0g Fat
  • Venison (Deer loin broiled) – 3 oz – 128 Calories – 25.7g Protein – 0 Carbs – 0.7g Fat

GRAINS…

  • Cooked Quinoa – 1/2 cup – 115 Calories – 4.1g Protein – 22 Carbs – 2g Fat
  • Cooked Brown Rice – 1/2 cup – 106 Calories – 2.7g Protein – 23 Carbs – 0.7g Fat
  • Regular Popcorn (Air Popped no oil) – 1 cup – 60 Calories – 2g Protein – 11 Carbs – 0.6g Fat
  • Steel cut Oatmeal – 1 cup – 145 Calories – 7g Protein – 25g Carbs – 2.5g Fat
  • Multi grain bread – 1 slice – 68.9 Calories – 3.5g Protein – 11.3g Carbs – 0.2g Fat

BEANS (All nutrition values calculated for cooked beans)…

  • Tofu – 1/2 cup – 98 Calories – 11g Protein – 2g Carbs – 6g Fat
  • Lentils – 1/2 cup – 119 Calories – 9g Protein – 20g Carbs – 0.3g Fat
  • Black beans – 1/2 cup – 115 Calories – 7.8g Protein – 20 Carbs – 0.4g Fat
  • Kidney beans – 1/2 cup – 111 Calories – 7.2g Protein – 20.2 Carbs – 0.4g Fat
  • Lima beans – 1/2 cup – 110 Calories – 7.4g Protein – 19.7 Carbs – 0.3g Fat
  • Soy beans – 1/2 cup – 133 Calories – 11g Protein – 10 Carbs – 5.9g Fat

DAIRY…

  • Skim milk – 1 cup – 90 Calories – 9g Protein – 12g Carbs – 4.8g Fat
  • Low fat Yogurt – 1 cup – 148 Calories – 12g Protein – 17Carbs – 3.2g Fat
  • Non fat Yogurt – 1 cup – 130 Calories – 13g Protein – 16.9 Carbs – 0.4 Fat
  • Cheddar cheese – 1 oz – 116 Calories – 7g Protein – 0.4 Carbs – 9.2g Fat
  • Low fat Cottage Cheese – 1/2 cup – 82 Calories – 14g Protein – 3.1g Carbs – 0.7g Fat
  • One large egg – 73 Calories – 6.6g Protein – 0 Carbs – 6g Fat
  • Low fat Milk – 1 cup – 119 Calories – 8g Protein – 12 Carbs – 4.6g Fat

NUTS & SEEDS…

  • Raw Almonds – 1 oz about 22 whole – 169 Calories – 22g Carbs – 6.2g Protein – 1.1g Fat
  • Raw Pistachios – 1 oz about 49 Kernels – 157 Calories – 7.9g Carbs – 5.8g Protein – 1.5g Fat
  • Pumpkin seeds – 1 oz – 28g about 100 hulled seeds – 151 Calories – 5g Carbs – 6.0g Protein – 2.4g Fat
  • Raw Macadamia nuts – 1 oz about 10- 12 kernels – 203 Calories – 4g Carbs – 2.2g Protein – 3.4g Fat
  • Chia seeds – 1 oz – 137 Calories – 12.3g Carbs – 4.4g Protein – 0.9g Fat
  • Walnuts – 1 cup in shell about 7 total – 183 Calories – 3.8g Carbs – 4.3g Protein – 1.7g Fat
  • Raw Cashews1oz – 28g – 155 Calories – 9.2g Carbs – 5.1g Protein – 2.2g Fat

MORE HIGH PROTEIN FOODS…

  • Natural peanut butter – 1 oz – 146 Calories – 7.3g Protein – 10g Carbs – 1.6g Fat
  • Natural almond butter – 1 tbsp – 101 Calories – 2.4g Protein – 3.4 Carbs – 0.9g Fat
  • Natural cashew butter – 1 tbsp – 93.9 Calories – 2.8g Protein – 4.4 Carbs – 1.6g Fat
  • Hummus – 1 oz – 46.5 Calories – 2.2g Protein – 4.0g Carbs – 0.4g Fat
  • Tempeh Cooked – 1 oz – 54 Calories – 5.1g Protein – 2.6g Carbs – 1.0g Fat

There’s a vegan list on the same site. Be leery of protein sources that are not on your kidney diet.

Until next week,

Keep living your life!

 

That Looks Swollen       

Remember I mentioned that several readers have asked questions that would become blogs? For example, one reader’s question became last week’s blog concerning creatinine and PTH. Another reader’s question became this week’s blog about lymphedema. She was diagnosed with it and wondered if it had anything to do with her protein buildup.

She’s a long time reader and online friend, so she already knows I remind those that ask questions that I am not a doctor and, no matter what I discover, she must speak with her nephrologist before taking any action based on what I wrote. That is always true. I’m a CKD patient just like you. The only difference is that I know how to research (Teaching college level Research Writing taught me a lot.) and happen to have been a writer for decades before I was diagnosed. Just take a look at my Amazon Author Page at amazon.com/author/gailraegarwood . But enough about me.

Anyone know what lymphedema is? I didn’t when I first heard the word, although my Hunter College of C.U.N.Y education as an English teacher gave me some clues. Edema had something to do with swelling under the skin. Actually, we can get more specific with The Free Medical Dictionary at https://medical-dictionary.thefreedictionary.com/-edema :

“suffix meaning swelling resulting from an excessive accumulation of serous fluid in the tissues of the body in (specified) locations”

I took a guess that lymph had to do with the lymph nodes. Using the same dictionary, but this time at https://medical-dictionary.thefreedictionary.com/lymph, I found this:

“The almost colourless fluid that bathes body tissues and is found in the lymphatic vessels that drain the tissues of the fluid that filters across the blood vessel walls from blood. Lymph carries antibodies and lymphocytes (white blood cells that help fight infection) that have entered the lymph nodes from the blood.”

Time to attach the suffix (group of letters added at the end of a word that changes its meaning) to the root (most basic meaning of the word) to come up with a definition of lymphedema. No, not my definition, the same dictionary’s.

“Swelling, especially in subcutaneous tissues, as a result of obstruction of lymphatic vessels or lymph nodes, with accumulation of lymph in the affected region.”

I found this definition at https://www.thefreedictionary.com/lymphedema, but if you switch the search options at the top of the page from dictionary to medical dictionary, you’ll find quite a bit of information about lymphedema.

Okay, we know what lymphedema is now but what – if anything – does that have to do with protein buildup? This is the closest I could come to an answer that

  1. Wasn’t too medical for me to understand and
  2. Had anything to do with the kidneys.

“A thorough medical history and physical examination are done to rule out other causes of limb swelling, such as edema due to congestive heart failure, kidney failure, blood clots, or other conditions.”

It’s from MedicineNet at https://www.medicinenet.com/lymphedema/article.htm#how_is_lymphedema_diagnosed

My friend, while a Chronic Kidney Disease patient, is not in renal failure. Was there something I missed?

Johns Hopkins Medicine at https://www.hopkinsmedicine.org/health/treatment-tests-and-therapies/treating-lymphedema gives us our first clue. It seems that lymphedema is a buildup of a specific fluid: protein-rich:

“Lymphedema is an abnormal buildup of protein-rich fluid in any part of the body as a result of malfunction in the lymphatic system.”

Malfunction in the lymphatic system? What could cause that? According to Lymphatic Education & Research at https://lymphaticnetwork.org/living-with-lymphedema/lymphatic-disease:

Secondary Lymphedema (acquired regional lymphatic insufficiency) is a disease that is common among adults and children in the United States. It can occur following any trauma, infection or surgery that disrupts the lymphatic channels or results in the loss of lymph nodes. Among the more than 3 million breast cancer survivors alone, acquired or secondary lymphedema is believed to be present in approximately 30% of these individuals, predisposing them to the same long-term problems as described above. Lymphedema also results from prostate, uterine, cervical, abdominal, orthopedic cosmetic (liposuction) and other surgeries, malignant melanoma, and treatments used for both Hodgkin’s and non-Hodgkin’s lymphoma. Radiation, sports injuries, tattooing, and any physical insult to the lymphatic pathways can also cause lymphedema. Even though lymphatic insufficiency may not immediately present at the time any of the events occur, these individuals are at life-long risk for the onset of lymphedema.”

I know the reader who has asked the question has a complex medical history that may include one or more of the conditions listed above. As for the protein buildup, we already know that kidneys which are

not working well don’t filter the protein from your blood as well as they could. So, is there a connection between this reader’s protein buildup and her lymphedema? Sure looks like it.

While the following is from BreastCancer.org at https://www.breastcancer.org/treatment/lymphedema/how/start, it is a simple explanation that may apply to other causes of lymphedema, too:

“… lymph nodes and vessels can’t keep up with the tissues’ need to get rid of extra fluid, proteins (Gail here: my bolding), and waste.… the proteins and wastes do not get filtered out of the lymph as efficiently as they once did. Very gradually, waste and fluid build up…. “

Ready for a topic change? The World Health Organization offers this pictograph for our information. Notice diabetes, one of the main causes of Chronic Kidney Disease.

Until next week,

Keep living your life!

Which Comes First?

Periodically, a blog will actually be the response to a reader’s question. I’ve received several questions lately. The first thing I do when I receive a question is to be sure the reader understands that I am not a doctor and that no matter what I research for them, they must clear the information with their nephrologist before taking any action. Today’s question was asked by a long time reader who already understands my terms for researching for her.

That’s a pretty big build up for a common sense question. But, at least now you understand how I handle reader questions and may want to ask one (or more) of your own.

Back to the question at hand: What is the connection between PTH and creatinine and which causes a problem with the other?

What’s PTH, you ask. Let’s find out. You and your Hormones: an educational source from the Society of Endocrinology at https://www.yourhormones.info/hormones/parathyroid-hormone/ was a great deal of help here:

“Alternative names for parathyroid hormone

PTH; parathormone; parathyrin

What is parathyroid hormone?

The parathyroid glands are located in the neck, just behind the butterfly-shaped thyroid gland.

Parathyroid hormone is secreted from four parathyroid glands, which are small glands in the neck, located behind the thyroid gland. Parathyroid hormone regulates calcium levels in the blood, largely by increasing the levels when they are too low. It does this through its actions on the kidneys, bones and intestine:

  1. Bones – parathyroid hormone stimulates the release of calcium from large calcium stores in the bones into the bloodstream. This increases bone destruction and decreases the formation of new bone.
  2. Kidneys – parathyroid hormone reduces loss of calcium in urine. Parathyroid hormone also stimulates the production of active vitamin D in the kidneys.
  3. Intestine – parathyroid hormone indirectly increases calcium absorption from food in the intestine, via its effects on vitamin D metabolism

Got it? Okay then let’s remind ourselves what creatinine is. I wrote the following in last December 24th’s blog:

“A good place to start is always at the beginning. By this, I wonder if I mean the beginning of my Chronic Kidney Disease awareness advocacy as the author of What Is It and How Did I Get It? Early Stage Chronic Kidney Disease and the blog or if I mean the basics about creatinine. Let’s combine them all. The following definition is from the book which became the earliest blogs:

Creatinine clearance: Compares the creatinine level in your urine with that in your blood to provide information about your kidney function’

Hmmm, that didn’t exactly work. Let’s try again. Bingo! It was in SlowItDownCKD 2014,

Creatinine: chemical waste product that’s produced by our muscle metabolism and to a smaller extent by eating meat. {MayoClinic.org}”

That was nine years ago, but the information remains the same today.

So now, we know what both PTH and creatinine are, but what’s the connection? According to VIVO Pathophysiology, Colorado State University at http://www.vivo.colostate.edu/hbooks/pathphys/endocrine/thyroid/pth.html :

Suppression of calcium loss in urine: In addition to stimulating fluxes of calcium into blood from bone and intestine, parathyroid hormone puts a brake on excretion of calcium in urine, thus conserving calcium in blood. This effect is mediated by stimulating tubular reabsorption of calcium. Another effect of parathyroid hormone on the kidney is to stimulate loss of phosphate ions in urine.”

To recap so far, we know what both PTH and creatinine are and what the connection between the two is. Now we need to know if one causes the other and, if so, which.

Chronic kidney failure. Your kidneys convert vitamin D into a form that your body can use. If your kidneys function poorly, usable vitamin D may decline and calcium levels drop. Chronic kidney failure is the most common cause of secondary hyperparathyroidism.”

Thank you to the Mayo Clinic at https://www.mayoclinic.org/diseases-conditions/hyperparathyroidism/symptoms-causes/syc-20356194 for this information.

 

Whoops! You may need a few reminders to understand the Mayo Clinic’s information, so here they are. Vitamin D helps the body absorb calcium properly. Calcium is necessary for strong bones and teeth. Many people don’t know it’s also necessary for blood clotting, nerves and heart. “Hyper” means over or, in this case, high as in above the necessary. Remember that when calcium or vitamin D is low, PTH rises. In my mind’s eye, I see a scale balancing the two out.

I did not find any information about PTH causing high creatinine. That doesn’t mean there isn’t any. It just means there isn’t any I could access. I found a journal site that looked promising, but it turned out to be for endocrinologists only. Too bad for us.

I do hope I’ve answered my reader’s question to her satisfaction. I know I enjoyed learning all this new information. You’re right: that’s my signal for a topic change.

“The Kidney Project is a national research initiative with a goal to create a small, surgically implanted, and free-standing bioartificial kidney to treat renal failure. RSN Founder and President Lori Hartwell catches up with Dr. Shuvo Roy who is a bioengineer professor at the University of California San Francisco to learn what is next for the Kidney Project and when clinical trials might begin. Dr. Shuvo Roy is passionate about this device that will mimic the kidneys and take the place of dialysis. Listen in to this exciting and hopeful show.

Listen in to the first conversation about the Kidney Project with Dr. Shuvo Roy.

 Learn more about the Kidney Project and Dr. Shuvo Roy

It’s an exciting time in the world of Chronic Kidney Disease Awareness right now. Even the government has acknowledged it’s time to deal with CKD patients. Keep on the lookout for more and more updates.

Until next week,

Keep living your life!

Not Nuked

Friday, I saw my oncology radiologist after having had a week of radiation treatments. As he was explaining what the radiation was meant to do to the remaining third of the tumor and how it was being done, one sentence he uttered stood out to me: “This doesn’t work like your microwave.”

Since radiation is also used in treating kidney cancer… and any other kind of cancer, to the best of my knowledge… I decided to take a look at that statement. First we need to know how a microwave works, so we know how radiation treatment for cancer doesn’t work. I went to the Health Sciences Academy at https://thehealthsciencesacademy.org/health-tips/microwave-radiation/ for an explanation.

“How do microwaves work?

Before we talk about how microwaves heat your food, let’s make a distinction between two very different kinds of radiation:

  1. ionising radiation, and
  2. non-ionising radiation.

Ionising radiation, which can remove tightly-bound electrons from atoms, causing them to become charged, is less risky in very tiny amounts (such as x-rays) but can cause problems when exposure is high (think burns and even DNA damage). However, microwaves emit non-ionising radiation; a type of radiation that has enough energy to move atoms around within a molecule but not enough to remove electrons.

What does this mean? Because the radiation from microwaves is non-ionising, it can only cause molecules in the food to move. …. In other words, microwave radiation cannot alter the chemical structure of food components. More precisely, when heating food in a microwave, the radiation that the microwave produces is actually absorbed by the water molecules in the food. This energy causes the water molecules to vibrate, generating heat through this (harmless) friction, which cooks the food. This mechanism is what makes microwaves much faster at heating food than other methods. Its energy immediately reaches molecules that are about an inch below the outer surface of the food, whereas heat from other cooking methods moves into food gradually via conduction….”

Phew, I’m glad to know I’m not being cooked from the inside. But what is happening to me and everyone else who has radiation as a cancer treatment? I went straight to the American Cancer Society at https://www.cancer.org/treatment/treatments-and-side-effects/treatment-types/radiation/basics.html  for the answer.

“Radiation therapy uses high-energy particles or waves, such as x-rays, [Gail here: this is ionising radiation.] gamma rays, electron beams, or protons, to destroy or damage cancer cells.

Your cells normally grow and divide to form new cells. But cancer cells grow and divide faster than most normal cells. Radiation works by making small breaks in the DNA inside cells. These breaks keep cancer cells from growing and dividing and cause them to die. Nearby normal cells can also be affected by radiation, but most recover and go back to working the way they should.

Unlike chemotherapy, which usually exposes the whole body to cancer-fighting drugs, radiation therapy is usually a local treatment. In most cases, it’s aimed at and affects only the part of the body being treated. Radiation treatment is planned to damage cancer cells, with as little harm as possible to nearby healthy cells.

Some radiation treatments (systemic radiation therapy) use radioactive substances that are given in a vein or by mouth. Even though this type of radiation does travel throughout the body, the radioactive substance mostly collects in the area of the tumor, so there’s little effect on the rest of the body.”

I don’t know how many times this was explained to me, but seeing it now in black and white (and blue for the click through) suddenly makes it clear. So this means I’ve had four months of my entire body being attacked – in a lifesaving way, of course – now only the cancer cells are being attacked.

Yet, I am experiencing some side effects even after only one week of radiation. I wondered if that’s usual. Cancer.net at https://www.cancer.net/navigating-cancer-care/how-cancer-treated/radiation-therapy/side-effects-radiation-therapy   answered that question for me.

“Why does radiation therapy cause side effects?

High doses of radiation therapy are used to destroy cancer cells. Side effects come from damage to healthy cells and tissues near the treatment area. Major advances in radiation therapy have made it more precise. This reduces the side effects.

Some people experience few side effects from radiation therapy. Or even none. Other people experience more severe side effects.

Reactions to the radiation therapy often start during the second or third week of treatment. They may last for several weeks after the final treatment.

Are there options to prevent or treat these side effects?

Yes. Your health care team can help you prevent or treat many side effects. Preventing and treating side effects is an important part of cancer treatment. This is called palliative care or supportive care.

Potential side effects

Radiation therapy is a local treatment. This means that it only affects the area of the body where the tumor is located. For example, people do not usually lose their hair from having radiation therapy. But radiation therapy to the scalp may cause hair loss.

Common side effects of radiation therapy include:

Skin problems. Some people who receive radiation therapy experience dryness, itching, blistering, or peeling. These side effects depend on which part of the body received radiation therapy. Skin problems usually go away a few weeks after treatment ends. If skin damage becomes a serious problem, your doctor may change your treatment plan.

Fatigue. Fatigue describes feeling tired or exhausted almost all the time. Your level of fatigue often depends on your treatment plan. For example, radiation therapy combined with chemotherapy may result in more fatigue. Learn more about how to cope with fatigue.

Long-term side effects. Most side effects go away after treatment. But some continue, come back, or develop later. These are called late effects. One example is the development of a second cancer. This is a new type of cancer that develops because of the original cancer treatment. The risk of this late effect is low. And the risk is often smaller than the benefit of treating the primary, existing cancer.”

Funny how I managed to forget about late effects, even though my oncology team made it clear this could happen. I think having the radiation to rid myself of this cancer is worth the risk.

Until next week,

Keep living your life!

Diabetic Neuropathy or Not: I WILL Dance Again

I come from a family of dancers. My parents and their siblings were all light on their feet and danced from the time they were teens right up until just before their deaths. It was a delight to watch them. The tradition continued with me… and my youngest who actually taught blues dancing for several years.

Ah, but then my neuropathy appeared. This was years before the diabetes diagnosis. Hmmm, there’s still a question as to whether or not the diabetes was caused by the pancreatic cancer. After all, the pancreas does produce insulin.

I just reread the above two paragraphs and see so much that needs some basic explanation. Let’s start with those explanations this week. How many of you know what neuropathy is? I didn’t either until I was diagnosed with it. According to my favorite dictionary since college a million years ago, The Merriam-Webster Dictionary at https://www.merriam-webster.com/dictionary/neuropathy defines neuropathy as:

“damage, disease, or dysfunction of one or more nerves especially of the peripheral nervous system that is typically marked by burning or shooting pain, numbness, tingling, or muscle weakness or atrophy, is often degenerative, and is usually caused by injury, infection, disease, drugs, toxins, or vitamin deficiency “

If you clicked though on ‘peripheral nervous system’ in the dictionary definition, you know it means,

“the part of the nervous system that is outside the central nervous system and comprises the cranial nerves excepting the optic nerve, the spinal nerves, and the autonomic nervous system”

Since the neuropathy was so minor before the pancreatic cancer, I wasn’t even aware of it until my neurologist did some testing. I knew my feet were tingly sometimes, but I thought they had fallen asleep. It did sort of feel like that.

Then, I started chemotherapy in March. The tingling became so bad that I couldn’t feel my feet under me and had to rely on a cane to keep my balance. We thought it was the chemo drugs causing the neuropathy. Uh-oh, that was just about when my hands became affected, too, and my A1C (Remember that one? It’s the blood test for the average of your blood glucose over a three month period.) rose all the way to 7.1.

Healthline at https://www.healthline.com/health/type-2-diabetes/ac1-test#understanding-the-results tells us,

“Someone without diabetes will have about 5 percent of their hemoglobin glycated [Gail here: that means glucose bonded to hemoglobin]. A normal A1C level is 5.6 percent or below, according to the National Institute of Diabetes and Digestive and Kidney Diseases.

A level of 5.7 to 6.4 percent indicates prediabetes. People with diabetes have an A1C level of 6.5 percent or above.”

Mind you, during chemotherapy I’d been ordered to eat whatever I could. Getting in the calories would cut down on the expected weight loss. In all honesty, I’m the only person I know what gained weight while on chemotherapy.

Now, what is this about the pancreas producing insulin? Might as well get a definition of insulin while we’re at it. MedicineNet at https://www.medicinenet.com/script/main/art.asp?articlekey=3989 offered the simplest explanation:

“A natural hormone made by the pancreas that controls the level of the sugar glucose in the blood. Insulin permits cells to use glucose for energy. Cells cannot utilize glucose without insulin.”

That would explain why my energy is practically nil, but it also seems to indicate that I won’t be able to do anything about it until after the surgery to remove the tumor. Although, when I start radiation next week, I may be able to go back to the diabetic diet. By the way, after following the Chronic Kidney Disease diet for 11 years, none of the new – off the CKD diet – foods I tried are appealing to me.

But I digress. So, what now? I need to dance; it’s part of who I am. My oncologist referred me to Occupational Therapy. Now I have exercises and tactile surfaces to explore that may be helpful. But what about those who are not going through chemotherapy, but do have diabetic neuropathy? Remember diabetes is the number cause of CKD.

Oh, my goodness. It looks like there are as many ways to treat neuropathy as there are different kinds of neuropathy. I hadn’t expected that. EverydayHealth at https://www.everydayhealth.com/neuropathy/guide/treatment/ gives us an idea of just how complicated choosing the proper treatment for your neuropathy can be:

What Are the Main Ways That Neuropathy Is Treated?

Treating neuropathy in general focuses first on identifying and then addressing the underlying condition to help prevent further damage and give nerves the time they need to heal to the extent that they can.

“The treatment for the neuropathy is to reverse whatever it is that is causing the neuropathy,” says Clifford Segil, DO, a neurologist at Providence Saint John’s Health Center in Santa Monica, California. “We try to reverse the insult to the nerves first and then do symptomatic control.”

For people with diabetic neuropathy, the first step physicians take is getting the person’s blood glucose level under control, says Matthew Villani, DPM, a podiatrist at Central Florida Regional Hospital in Sanford, Florida.

This treatment approach aims to remove the “insult” created by the excess sugar to peripheral nerves throughout the body — but especially the extremities, Dr. Segil explains.

Here are some other ways diabetic neuropathy may be treated:

  • Numbness or complete loss of sensation can lead to complications such as ulcers, sores, and limb amputations. It is addressed by monitoring the affected areas — often the feet — for injuries and addressing wounds before they become more serious, as well as prescribing protective footwear and braces.
  • Orthostatic hypotension (a drop in blood pressure upon standing up), which is an autonomic symptom, can be treated with increased sodium intake, a vasopressor such as ProAmatine (midodrine) to constrict blood vessels, a synthetic mineralocorticoid such as fludrocortisone to help maintain the balance of salt in the body, or a cholinesterase inhibitor such as pyridostigmine, which affects neurotransmitters.
  • Gastroparesis, a delayed emptying of the stomach, is another autonomic symptom, which can be treated with medication to control nausea and vomiting, such as Reglan (metoclopramide), Ery-Tab (erythromycin), antiemetics, and antidepressants, as well as pain medication for abdominal discomfort.
  • Motor neuropathy symptoms can include weakness and muscle wasting, particularly in the lower extremities, as well as deformities of the feet and loss of the Achilles’ heel tendon reflex. Treatments can include physical therapy to regain strength, as well as braces and orthotics.

I’ve got to think about this. Any questions? Well, then,

Until next week,

Keep living your life!

Like Life?

A word I hear every few weeks at chemotherapy is Neulasta. I looked it up since I was being given an injection each time I heard the word. I went directly to the manufacturer’s website at https://www.neulasta.com/learn-about-neulasta/ to find out just what it was:

“Neulasta® is a prescription medicine used to help reduce the chance of infection due to a low white blood cell count, in people with certain types of cancer (non-myeloid), who receive anti-cancer medicines (chemotherapy) that can cause fever and low blood cell count.”

But then I needed to define ‘non-myeloid’ for myself. No problem. I called up my old standby The Merriam-Webster Dictionary at https://www.merriam-webster.com/medical/nonmyeloid:

“not being, involving, or affecting bone marrow”

Okay, got it. Neulasta reduces low white blood cell count infection in cancer that doesn’t affect the bone marrow. By the way, this is accomplished by forcing white blood cells – the infection fighting blood cells – to mature quickly.

No sooner did I get that straight in my mind than I started hearing a different word: Udenyca. It turned out that Udenya is a biosimilar for Neulasta. Now we get to the meat of the matter.

Just what is a biosimilar? I took a former English teacher’s stab at the definition and decided it meant ‘like life.’ But does it? The Free Medical Dictionary at https://medical-dictionary.thefreedictionary.com/biosimilarity helped us out here:

“biosimilar

(bī′ō-sĭm′ə-lər)

adj.

Highly similar in function and effect to an existing biological product,

especially to a biologic that has al-ready been clinically tested and approved for use.

n.

A biological product that is biosimilar to an existing product,

especially to a biologic”

Keep in mind that an adjective (adj.) describes a noun, while a noun (n.) is a person, place, thing, or idea.

Frankly, I didn’t find this very helpful. So I did what I considered the logical thing and looked to the Food and Drug Administration (FDA) website at https://www.fda.gov/media/108905/download for more explanation:

“A biosimilar is a biological product

FDA-approved biosimilars have been compared to an FDA-approved biologic, known as the reference product. Reference and biosimilar products are:

Large and generally complex molecules

Produced from living organisms

Carefully monitored to ensure consistent quality

Meet FDA’s rigorous standards for approval

Are manufactured in FDA-licensed facilities

Are tracked as part of post-market surveillance to ensure continued safety

A biosimilar is highly similar to a reference product

For approval, the structure and function of an approved biosimilar were compared to a reference product, looking at key characteristics such as:

Purity

Molecular structure

Bioactivity

The data from these comparisons must show that the biosimilar is highly similar to the reference product.

A biosimilar has no clinically meaningful differences from a reference product

Studies were performed to show that biosimilars have no clinically meaningful differences in safety, purity or potency (safety and effectiveness) compared to the reference product:

Pharmacokinetic and, if needed, armacodynamic studies

Immunogenicity assessment

Additional clinical studies as needed

Studies may be done independently or combined.

A biosimilar is approved by FDA after rigorous evaluation and testing by the applicant

Prescribers and patients should have no concerns about using these medications instead of reference products because biosimilars:

Meet FDA’s rigorous standards for approval

Are manufactured in FDA-licensed facilities

Are tracked as part of post-market surveillance to ensure continued safety”

Okay! Now we’re talking. Pretty simple to understand, isn’t it? Well, maybe there’s a word or three we might need defined. Let’s take another look. These two definitions are from Dictionary.com.

“Pharmacokinetic – the branch of pharmacology that studies the fate of pharmacological substances in thebody, as their absorption, distribution, metabolism, and elimination.

Immunogenicity – causing or capable of producing an immune response.”

Wikipedia offered this interesting difference between Pharmacokinetic and Pharmacodynamics.

“Pharmacodynamics is the study of how a drug affects an organism, whereas pharmacokinetics is the study of how the organism affects the drug. Both together influence dosing, benefit, and adverse effects.”

The point here is that the synthetic drug and biosimilars are not the same. Maybe my guess at their definition is far off the mark.  And lest you’re beginning to think this is a cancer blog rather than a Chronic Kidney Disease blog, biosimilars are used in CKD, too.

This snippet from the Clinical Journal of the American Society of Nephrology (CJASN) at https://cjasn.asnjournals.org/content/early/2018/08/03/CJN.01980218 will give you the idea:

“Most recognizable to nephrologists is the biologic recombinant human erythropoietin (rHuEPO). Considerably more expensive to develop and produce, biologics are more structurally complex than small-molecule drugs. By 2020, biologics will constitute an estimated 27% of spending on worldwide pharmacologics.”

Remember erythropoietin, more commonly known among CKD patients as epo? Not to worry; MedicineNet at https://www.medicinenet.com/erythropoietin/article.htm will remind us:

Erythropoietin (EPO) is a hormone produced by the kidney that promotes the formation of red blood cells by the bone marrow. The kidney cells that make erythropoietin are sensitive to low oxygen levels in the blood that travels through the kidney.”

Un-oh, I almost forgot to explain the difference between biosimilars and biologics. According to the Congressional Research Service at https://fas.org/sgp/crs/misc/R44620.pdf:

“A biological product, or biologic, is a preparation, such as a drug or a vaccine, that is made from living organisms. Compared with conventional chemical drugs, biologics are relatively large and complex molecules. They may be composed of proteins (and/or their constituent amino acids), carbohydrates (such as sugars), nucleic acids (such as DNA), or combinations of these substances.

Biologics may also be cells or tissues used in transplantation. A biosimilar, sometimes referred to as a follow-on biologic, is a therapeutic drug that is highly similar but not structurally identical, to a brand-name biologic (i.e., the reference product). This is in contrast to a generic chemical drug, which is an exact copy of a brand-name chemical drug (i.e., the reference listed drug). Because biologics are more complex than chemical drugs, both in composition and method of manufacture, biosimilars will not be exact replicas of the brand-name product, but may instead be shown to be highly similar. However, for many years, the drug industry and the Food and Drug Administration (FDA) have coped with the inherent variability in biological products from natural sources. FDA maintains that the batch-to-batch and lot-to-lot variability that occurs for both brand-name biologics and biosimilars can be assessed and managed effectively.”

Hmmm, looks like I’ve made a fairly simple concept terribly complex.

Until next week,

Keep living your life!

More Time to Learn

I don’t think I’ve ever felt this tired in my life. Cancer does that… and it leaves me a lot of time in bed to explore whatever I’d like to on the internet. So now I’m discovering all these – what’s the word? – possibly peripheral? diseases that affect the kidneys. For example, while I don’t have the energy to post a new Chronic Kidney Disease picture on Instagram every day, I do check the site daily and like what appeals to me and learn from what’s new to me.

That’s where I noticed posts about Bartter syndrome. If you’re like me, you want to know about something you’ve never heard of before. Let’s explore this together.

I went directly to my old friend, MedlinePlus, which is part of the U.S. National Library of Medicine at https://medlineplus.gov/ency/article/000308.htm for a definition and the causes:

“Bartter syndrome is a group of rare conditions that affect the kidneys.

Causes

There are five gene defects known to be associated with Bartter syndrome. The condition is present at birth (congenital). The condition is caused by a defect in the kidneys’ ability to reabsorb sodium. People affected by Bartter syndrome lose too much sodium through the urine. This causes a rise in the level of the hormone aldosterone, and makes the kidneys remove too much potassium from the body. This is known as potassium wasting. The condition also results in an abnormal acid balance in the blood called hypokalemic alkalosis, which causes too much calcium in the urine.”

It looks like there are a few terms here we may now be familiar with. Let’s take a look at aldosterone. The Hormone Health Network from the Endocrine Society at https://www.hormone.org/hormones-and-health/hormones/aldosterone tells us:

“Aldosterone is produced in the cortex of the adrenal glands, which are located above the kidneys…. Aldosterone affects the body’s ability to regulate blood pressure. It sends the signal to organs, like the kidney and colon, that can increase the amount of sodium the body sends into the bloodstream or the amount of potassium released in the urine. The hormone also causes the bloodstream to re-absorb water with the sodium to increase blood volume. All of these actions are integral to increasing and lowering blood vessels. Indirectly, the hormone also helps maintain the blood’s pH and electrolyte levels.”

And hypokalemic alkalosis? What is that? Healthline at https://www.healthline.com/health/alkalosis#types  gave me the answer: “Hypokalemic alkalosis Hypokalemic alkalosis occurs when your body lacks the normal amount of the mineral potassium. You normally get potassium from your food, but not eating enough of it is rarely the cause of a potassium deficiency. Kidney disease, excessive sweating, and diarrhea are just a few ways you can lose too much potassium. Potassium is essential to the proper functioning of the:

  • heart
  • kidneys
  • muscles
  • nervous system
  • digestive system”

Hmmm, so kidney disease can cause you to lose too much potassium, which can then interfere with the proper functioning of your kidneys. Doesn’t sound good to me. But, remember that the condition is congenital and will show up at birth.

Let’s say it does. Then what? According to Verywellhealth at https://www.verywellhealth.com/bartter-syndrome-2860757:

“Treatment of Bartter syndrome focuses on keeping the blood potassium at a normal level. This is done by having a diet rich in potassium and taking potassium supplements if needed. There are also drugs that reduce the loss of potassium in the urine, such as spironolactone, triamterene, or amiloride. Other medications used to treat Bartter syndrome may include indomethacin, captopril, and in children, growth hormone.”

Food rich in potassium? I’m sure bananas came directly into your mind but there are others. I chose to use the National Kidney Foundation’s list of high potassium foods at https://www.kidney.org/atoz/content/potassium since this is a blog about CKD.What foods are high in potassium (greater than 200 milligrams per portion)? The following table lists foods that are high in potassium. The portion size is ½ cup unless otherwise stated. Please be sure to check portion sizes. While all the foods on this list are high in potassium, some are higher than others.

High-Potassium Foods
Fruits Vegetables Other Foods
Apricot, raw (2 medium) dried (5 halves) Acorn Squash Bran/Bran products
Avocado (¼ whole) Artichoke Chocolate (1.5-2 ounces)
Banana (½ whole) Bamboo Shoots Granola
Cantaloupe Baked Beans Milk, all types (1 cup)
Dates (5 whole) Butternut Squash Molasses (1 Tablespoon)
Dried fruits Refried Beans Nutritional Supplements: Use only under the direction of your doctor or dietitian.
Figs, dried Beets, fresh then boiled
Grapefruit Juice Black Beans
Honeydew Broccoli, cooked Nuts and Seeds (1 ounce)
Kiwi (1 medium) Brussels Sprouts Peanut Butter (2 tbs.)
Mango(1 medium) Chinese Cabbage Salt Substitutes/Lite Salt
Nectarine(1 medium) Carrots, raw Salt Free Broth
Orange(1 medium) Dried Beans and Peas Yogurt
Orange Juice Greens, except Kale Snuff/Chewing Tobacco
Papaya (½ whole) Hubbard Squash
Pomegranate (1 whole) Kohlrabi
Pomegranate Juice Lentils
Prunes Legumes
Prune Juice White Mushrooms, cooked (½ cup)
Raisins Okra
Parsnips
Potatoes, white and sweet
Pumpkin
Rutabagas
Spinach, cooked
Tomatoes/Tomato products
Vegetable Juices”

I also have a list of food sensitivities, so I avoid those foods. If you do, too, you might want to cross those foods off your high potassium foods list if you just happen to have Bartter syndrome.

Time for a few personal notes here. Thank you all for your well wishes and good cheer. Via a clinical trial, I have been able to shrink the pancreatic cancer tumor by two thirds and bring my blood tumor marker down to BELOW normal. This raises my chances for a successful Whipple surgery from 50% to 70% and that’s before another round of chemotherapy with radiation added. Hopeful? You bet! I also wanted to remind you that the SlowItDownCKD series makes a wonderful graduation, wedding, and Father’s Day gift for those new to Chronic Kidney Disease, those not new to Chronic Kidney Disease, and those who would like to share CKD with others in their lives.

Until next week,

Keep living your life!

No Longer a Transfusion Virgin

I’ve been thinking about the similarities between Chronic Kidney Disease treatment and Pancreatic Cancer treatment… or, at least, my Pancreatic Cancer treatment. Some are superficial, like going to the Research Institute several days a week for chemotherapy and those on dialysis going to the dialysis center several days a week for dialysis.

Some are not. A current topic of similarity was an eye opener for me. I am 72 years old and have never had a transfusion before last Monday. I’d gone to the Research Institute where I’m part of a clinical trial for a simple non-chemotherapy day checkup. This supposedly two hour appointment turned into almost eight hours. Why?

If you can understand these labs, you’ll know. If not, no problem. You know I’ll explain.

Component Your Value Standard Range
  RBC 2.23 10ˆ6/uL 3.50 – 5.40 10ˆ6/uL
Hemoglobin 6.8 g/dL 12.0 – 16.0 g/dL
Hematocrit 19.7 % 36.0 – 48.0 %
RDW 16.0 % 11.5 – 14.5 %
Platelets 15 K/uL 130 – 450 K/uL

Let’s start at the top of the list. RBC stands for red blood cells. MedicineNet at https://www.medicinenet.com/script/main/art.asp?articlekey=5260 tells us:

“Red blood cells: The blood cells that carry oxygen. Red cells contain hemoglobin and it is the hemoglobin which permits them to transport oxygen (and carbon dioxide). Hemoglobin, aside from being a transport molecule, is a pigment. It gives the cells their red color (and their name).

The abbreviation for red blood cells is RBCs. Red blood cells are sometime simply called red cells. They are also called erythrocytes or, rarely today, red blood corpuscles.”

So it makes sense that if RBC is below the standard range (column on the right), the hemoglobin will also be. And where are RBCs produced? Let’s trot on over to the National Institute of Diabetes, Digestive, and Kidney Disease (NIKKD) at https://www.niddk.nih.gov/health-information/kidney-disease/anemia for the answer to that one:

“Healthy kidneys produce a hormone called erythropoietin (EPO). A hormone is a chemical produced by the body and released into the blood to help trigger or regulate particular body functions. EPO prompts the bone marrow to make red blood cells, which then carry oxygen throughout the body.

What causes anemia in chronic kidney disease?

When kidneys are diseased or damaged, they do not make enough EPO. As a result, the bone marrow makes fewer red blood cells, causing anemia. When blood has fewer red blood cells, it deprives the body of the oxygen it needs.”

Now, this is not saying all CKD patients will have anemia, although it is common is the later stages of the disease. Chemotherapy had a lot to do with this, too.

What about this hematocrit? What is that? I went to the University of Rochester’s Health Encyclopedia at https://www.urmc.rochester.edu/encyclopedia/content.aspx?contenttypeid=167&contentid=hematocrit for help here:

“This test measures how much of your blood is made up of red blood cells.

Normal blood contains white blood cells, red blood cells, platelets, and the fluid portion called plasma. The word hematocrit means to separate. In this test, your red blood cells are separated from the rest of your blood so they can be measured.

Your hematocrit (HCT) shows whether you have a normal amount of red blood cells, too many, or too few. To measure your HCT, your blood sample is spun at a high speed to separate the red blood cells.”

MedicalNewsToday at https://www.medicalnewstoday.com/articles/321568.php helps us understand the RDW or red cell distribution width:

“If the results of a CBC [Gail here: that’s the complete blood count.] show low levels of red blood cells or hemoglobin, this usually suggests anemia. Doctors will then try to determine the cause of the condition using the RDW and other tests.”

So, we’re back to anemia. By the way, cancer is one of the diseases that can cause high numbers on your RDW. CKD is not, but diabetes – one of the primary causes of CKD – is.

I added platelets to the list since they are such an integral part of your blood. MedLinePlus at https://medlineplus.gov/plateletdisorders.html explains succinctly just what they are and what they do:

“Platelets, also known as thrombocytes, are small pieces of blood cells. They form in your bone marrow, a sponge-like tissue in your bones. Platelets play a major role in blood clotting. Normally, when one of your blood vessels is injured, you start to bleed. Your platelets will clot (clump together) to plug the hole in the blood vessel and stop the bleeding. You can have different problems with your platelets:

If your blood has a low number of platelets, it is called thrombocytopenia. This can put you at risk for mild to serious bleeding. The bleeding could be external or internal. There can be various causes. If the problem is mild, you may not need treatment. For more serious cases, you may need medicines or blood or platelet transfusions….”

I had my second infusion of platelets along with my first transfusion last week.

I’ve offered a multitude of definitions today. The point here is that both CKD patients and chemotherapy patients (and others suffering from a host of maladies) may need transfusions.

Right. I haven’t discussed what a transfusion is yet. Dictionary.com at https://www.dictionary.com/browse/transfusion defines it a little simplistically for us:

“the direct transferring of blood, plasma, or the like into a blood vessel.”

The MayoClinic at https://www.mayoclinic.org/tests-procedures/blood-transfusion/about/pac-20385168 adds:

“Your blood will be tested before a transfusion to determine whether your blood type is A, B, AB or O and whether your blood is Rh positive or Rh negative. The donated blood used for your transfusion must be compatible with your blood type.”

That’s when we discovered my son-in-law and I have the same blood type. Nice to know… just in case, you understand.

Before I leave you today, I want to remind my USA readers that this is Memorial Day. Having married a veteran, I now understand that we are honoring those who gave their saves to preserve ours no matter how long ago or how recent. Please give them a moment of your thoughts.

Until next week,

Keep living your life!

Clinical Trials Day

By now, you probably all know that I chose a clinical trial to treat my pancreatic cancer. But did you know that today, May 20th, is Clinical Trials Day? What’s that, you ask? Let’s find out together. According to The Association of Clinical Research Professionals (ACRP) at http://www.clinicaltrialsday.org/:

“WHY MAY 20?

Clinical Trials Day is celebrated around the world in May to recognize the day that James Lind started what is often considered the first randomized clinical trial aboard a ship on May 20, 1747.

HERE’S THE STORY

May, 1747.

The HMS Salisbury of Britain’s Royal Navy fleet patrols the English Channel at a time when scurvy is thought to have killed more British seamen than French and Spanish arms.

Aboard this ship, surgeon mate James Lind, a pioneer of naval hygiene, conducts what many refer to as the first clinical trial.

Acting on a hunch that scurvy was caused by putrefaction of the body that could be cured through the introduction of acids, Lind recruited 12 men for his ‘fair test.’…


From The James Lind Library:

Without stating what method of allocation he used, Lind allocated two men to each of six different daily treatments for a period of fourteen days. The six treatments were: 1.1 litres of cider; twenty-five millilitres of elixir vitriol (dilute sulphuric acid); 18 millilitres of vinegar three times throughout the day before meals; half a pint of sea water; two oranges and one lemon continued for six days only (when the supply was exhausted); and a medicinal paste made up of garlic, mustard seed, dried radish root and gum myrrh.

Those allocated citrus fruits experienced ‘the most sudden and good visible effects,’ according to Lind’s report on the trial.

Though Lind, according to The James Lind Library, might have left his readers ‘confused about his recommendations’ regarding the use of citrus in curing scurvy, he is ‘rightly recognized for having taken care to “‘compare like with like’’, and the design of his trial may have inspired ‘and informed future clinical trial design.'”

I’ve written about James Lind before, so you may want to re-read the 8/20/18 blog to read more about him and his experiments.

Time travel to 2019 with me, if you will, to read what Antidote.Me has to offer in the way of Chronic Kidney Disease Clinical Trials.

****

Headline: Chronic Kidney Disease Research: How to Get Involved

By Nancy Ryerson

May 20 is Clinical Trials Day. Every year, patient advocates and research groups participate to raise awareness of how clinical trial participation drives research progress. You may know that new treatments for Chronic Kidney Disease (CKD) can’t move forward without clinical trial volunteers, but you may not know how to find active, relevant trials in your area.

Below, you’ll find answers to commonly asked questions about finding CKD clinical trials, including who can join, how to find trials, and the kinds of questions CKD research aims to answer.

How can I find Chronic Kidney Disease clinical trials near me?

There are currently 171 research studies for CKD looking for volunteers in the United States. All clinical trials are listed on ClinicalTrials.gov, but because the website was developed with researchers in mind rather than patients, it can be difficult for patients to navigate. Antidote is a clinical trial matching company that provides a patient-friendly clinical trial search tool to health nonprofits and bloggers, including this blog. With the Antidote tool, you can answer a few questions about your medical history and where you’d like to find a trial to receive a list of trials you may qualify for in your area. You can also sign up to receive alerts when new trials are added near you.

Who can join CKD clinical trials?

 It’s a common misconception that clinical trials only need volunteers who have been recently diagnosed to take part. It’s also untrue that clinical trials are only a “last resort” for patients who have exhausted other options. In reality, clinical trials can be a care option for patients at any point after diagnosis. CKD trials need volunteers with mild, moderate, and severe kidney disease to participate in different trials. Some trials also look for patients with specific comorbidities, such as hypertension. 

What does CKD research typically focus on? 

Clinical trials for Chronic Kidney Disease (CKD) research potential new treatments to slow or stop CKD, as well as treat common conditions associated with CKD, such as anemia or hypertension.

CKD clinical trials aren’t limited to research into new drugs, either. For example, a kidney-friendly diet can make a significant difference in reducing kidney damage, and more research is needed into specific interventions that can help. Research studies are also looking into the impact exercise can have on CKD symptoms and progression.

Clinical trials may also be observational. These kinds of trials don’t test an intervention – a drug, diet, lifestyle change, etc. Instead, participants are divided into groups and observed for differences in outcome. 

Do clinical trials always use a placebo? 

In clinical trials, placebos – also known as “sugar pills” – help researchers understand the effectiveness of an experimental treatment. While they can be an important part of the research process, it’s also understandable that patients hope they won’t receive the placebo in a clinical trial.

If you’re considering taking part in a trial but you’re concerned about receiving a placebo, it’s important to know that not all trials use one. Many trials test a potential new treatment against the standard of care, for example. In some trials that use a placebo, everyone in the trial may receive the study drug at some point during the trial. 

I don’t have time to participate in a clinical trial.

Time restraints are another reason many patients hesitate to participate in clinical trials. While some clinical trials may require weekly site visits, others may only ask participants to come in every month or so. Some trials may also offer virtual visits online or home visits to help reduce the number of trips you’ll need to take to get to a site. When you’re considering joining a clinical trial, ask the study team any questions you have about the trial schedule, reimbursement for travel, or anything else about participation.

Interested in finding a trial near you? Use the SlowItDownCKD trial search, powered by Antidote, to start your search. (Gail here: It’s at the bottom right hand side of the blog roll.)

Ladies and Gentleman, start your motors! I hope you find just the right CKD Clinical Trial for you.

Until next week,

Keep living your life!

Don’t Know Much about FSGS…

Being on chemotherapy is very tiring, so I stay home a lot and delve into anything that catches my eye, like FSGS. I’ve seen the letters before and had sort of a vague idea of what it might be, but what better time to explore it and whatever it may have to do with Chronic Kidney Disease than now?

Let’s start at the beginning. FSGS is the acronym for focal segmental glomerulosclerosis. Anything look familiar? Maybe the ‘glomerul’ part of glomerulosclerosis? I think we need to know the definition of glomerulosclerosis to be able to answer that question. The National Institutes of Health’s U.S. National Library of Congress’s Medline Plus at https://medlineplus.gov/ency/article/000478.htm defines it this way:

“Focal segmental glomerulosclerosis is scar tissue in the filtering unit of the kidney. This structure is called the glomerulus. The glomeruli serve as filters that help the body get rid of harmful substances. Each kidney has thousands of glomeruli.

‘Focal’ means that some of the glomeruli become scarred. Others remain normal. ‘Segmental’ means that only part of an individual glomerulus is damaged.”

So, we do know what the ‘glomerul’ part of glomerulosclerosis means. It refers to the same filters in the kidneys we’ve been discussing for the past eleven years: the glomeruli. This former English teacher can assure you that ‘o’ is simply a connective between the two parts of the word. ‘Sclerosis’ is a term you may have heard of in relation to the disease of the same name, the one in which the following occurs (according to Encarta Dictionary):

“the hardening and thickening of body tissue as a result of unwarranted growth, degeneration of nerve fibers, or deposition of minerals, especially calcium.”

Wait a minute. When I first started writing about CKD, I approached NephCure Foundation… not being certain what it was, but seeing Neph in its name. They were kind enough to ask me to guest blog for them on 8/21/11. By the way, as of August 15, 2014, NephCure Foundation became NephCure Kidney International. That makes the connection to our kidneys much more clear.

Back to FSGS. The NephCure Kidney International website at https://nephcure.org/ offers us this information:

“How is FSGS Diagnosed?

FSGS is diagnosed with renal biopsy (when doctors examine a tiny portion of the kidney tissue), however, because only some sections of the glomeruli are affected, the biopsy can sometimes be inconclusive.

What are the Symptoms of FSGS?

Many people with FSGS have no symptoms at all.  When symptoms are present the most common include:

Proteinuria – Large amounts of protein ‘spilling’ into the urine

Edema – Swelling in parts of the body, most noticeable around the eyes, hands and feet, and abdomen which causes sudden weight gain.

Low Blood Albumin Levels because the kidneys are removing albumin instead of returning it to the blood

High Cholesterol in some cases

High Blood Pressure in some cases and can often be hard to treat

FSGS can also cause abnormal results of creatinine in laboratory tests. Creatinine is measured by taking a blood sample. Everyone has a certain amount of a substance called creatinine floating in his or her blood. This substance is always being produced by healthy muscles and normally the kidneys constantly filter it out and the level of creatinine stays low. But when the filters become damaged, they stop filtering properly and the level of creatinine left in the blood goes up.”

Whoa! Look at all the terms we’ve used again and again in the last eleven years of SlowItDownCKD’s weekly blog: proteinuria, edema, albumin, cholesterol, high blood pressure, and creatinine. This is definitely something that we, as CKD patients, should know about.

Okay. Let’s say you are diagnosed with FSGS. Now what? The National Kidney Organization at https://www.kidney.org/atoz/content/focal was helpful here:

How is FSGS treated?

The type of treatment you get depends on the cause. Everyone is different and your doctor will make a treatment plan that is right for your type of FSGS. Usually, treatments for FSGS include:

  • Corticosteroids (often called “steroids”)
  • Immunosuppressive drugs
  • ACE inhibitors and ARBs
  • Diuretics
  • Diet change

Corticosteroids and immunosuppressive drugs: These medications are used to calm your immune system (your body’s defense system) and stop it from attacking your glomeruli.

ACE inhibitors and ARBs: These are blood pressure medications used to reduce protein loss and control blood pressure.”

Diuretics: These medications help your body get rid of excess fluid and swelling. These can be used to lower your blood pressure too.

Diet changes:  Some diet changes may be needed, such as reducing salt (sodium) and protein in your food choices to lighten the load of wastes on the kidneys.”

I think we need another definition here. Yep, it’s Plasmapheresis. Back to the Encarta Dictionary.

“a process in which blood taken from a patient is treated to extract the cells and corpuscles, which are then added to another fluid and returned to the patient’s body.”

Let’s go back to The NephCure Kidney International website at https://nephcure.org/ for a succinct summary of FSGS Facts.

“More than 5400 patients are diagnosed with FSGS every year, however, this is considered an underestimate because:

  • a limited number of biopsies are performed
  • the number of FSGS cases are rising more than any other cause of Nephrotic Syndrome…

NephCure estimates that there are currently 19,306 people living with ESRD due to FSGS…, in part because it is the most common cause of steroid resistant Nephrotic Syndrome in children,… and it is the second leading cause of kidney failure in children…

NephCure estimates that people of African ancestry are at a five times higher diagnosis rate of FSGS…

About half of FSGS patients who do not respond to steroids go into ESRD each year, requiring dialysis or transplantation…

Approximately 1,000 FSGS patients a year receive kidney transplants… however, within hours to weeks after a kidney transplant, FSGS returns in approximately 30-40% of patients….”

As prevalent and serious as this sounds, please remember that FSGS is a rare kidney disease. Knowing what we now know just may help you keep your eyes open for it.

Until next week,

Keep living your life!

That’s Not a Kind of Kidney Disease.  Or Is It?

It’s like I’m attuned to anything kidney. After eleven years of writing about Chronic Kidney Disease, I’ll bet I am. Sometimes, it’s the smallest connection that triggers something in my mind. For example, Sjögren’s syndrome kept nagging at me, although I’d never heard of it as a sort of kidney disease. So, what was it and what did it have to do with the kidneys? I went right to the Sjögren’s Syndrome Foundation at https://info.sjogrens.org/conquering-sjogrens/sjogrens-kidney-disease for information.

Sjögren’s & Kidney Disease

by Philip L. Cohen, MD, Professor of Medicine, Temple University School of Medicine 

About 5% of people with Sjögren’s develop kidney problems. In most of these patients, the cause is inflammation around the kidney tubules, where urine is collected, concentrated, and becomes acidic. The infiltrating blood cells (mostly lymphocytes) injure the tubular cells, so that the urine does not become as acidic as it should. This condition, called distal renal tubular acidosis, is frequently asymptomatic, but can cause excessive potassium to be excreted in the urine, and may lead to kidney stones or (very rarely) low enough blood potassium to cause muscle weakness or heart problems. Very occasionally, injury to the renal tubules can cause impairment in the ability to concentrate urine, leading to excessive urine volume and increased drinking of fluids (nephrogenic diabetes insipidus).

A smaller number of patients with Sjögren’s may develop inflammation of the glomeruli, which are the tiny capillaries through which blood is filtered to produce urine. This may cause protein to leak into the urine, along with red blood cells. Sometimes a kidney biopsy is needed to establish the exact diagnosis and treatment. Treatment options may include corticosteroids and immunosuppressive drugs to prevent loss of kidney function.

This information was first printed in The Moisture Seekers, SSF’s patient newsletter for members.”

This reminds me of when I was teaching critical thinking on the college level. First, we’d hit the class with an article about something foreign to them and then, we’d show them how to figure out what it meant. For our purposes, a few explanations and perhaps a diagram or two might be a good place to start.

Tubules, huh? What are those? Actually, the word just means tube shaped. Remembering that renal and kidney mean the same thing, we can see the problem area.

Here’s another picture. This one to show you glomeruli.

Now remember, CKD patients are usually limited as to how much fluid they can drink per day. Too much forces the kidneys to work too hard to clear the urine from your body. Remember the car analogy from What Is It and How Did I Get It? Early Stage Chronic Kidney Disease?

As for potassium, that’s one of the electrolytes CKD patients need to be aware of. This article by Dr. Parker on Healthy Way at http://www.bmj-health.com/what-does-potassium-do/ explains:

“Potassium does many important functions in the body. This essential mineral is mainly found inside the cells of our body. Low potassium levels are associated with many health conditions including hypertension, irregular heartbeat, and muscle weakness. We should take adequate amounts of potassium-rich foods for a healthy life.

Potassium is essential for the heart

We need potassium to maintain the blood pressure within normal range. There should be a balance between sodium and potassium in the body to regulate our blood pressure. Too much sodium and too little potassium can elevate your blood pressure.

In addition, potassium is needed for the contraction of the heart. Potassium levels in the blood should be kept nearly constant or within a narrow range for the proper pumping action of the heart. The heart may stop beating if we have high or low levels of potassium in the blood.

We need potassium for stronger muscles

Most of the potassium in the body is found inside the muscle cells. It is the main positively charged ion inside the cells. It is essential for the contraction of muscles. Low levels of potassium are associated with muscle twitching, cramps and muscle weakness. Very low levels can cause paralysis of the muscles.

Hypokalemic periodic paralysis is a disorder that causes occasional episodes of muscle weakness and paralysis caused by lower levels of potassium in the blood. It is a genetic condition that runs in families.

It is essential for nerve conduction

Sodium and potassium are needed to maintain the electrical potential across the nerve cells. This electrical charge is essential for the conduction of nerve signals along the nerves.

It protects from stroke

Researchers found eating potassium-rich foods is associated with reduced incidents of stroke. A recent study conducted in postmenopausal women supports the findings. One of the co-researchers says, ‘post-menopausal women should eat more potassium-rich foods, such as fruits, vegetables, beans, milk and unprocessed meats in order to lower their risk of stroke and death’.

It is important for water and electrolyte balance in the body

Water and electrolyte balance is maintained by the kidneys. This is one of the important functions of the kidneys. Aldosterone, a hormone secreted by the adrenal glands plays the primary role in the balance of sodium and potassium.

The normal blood level of potassium is 3.5 to 5 mmol/l. A level of less than 3.5 is called hypokalemia, and more than 5 is called hyperkalemia. To achieve the normal blood level, we need to take about 4 to 5 grams of potassium per day. An average size banana will provide about 25% of daily requirement.

It is recommended to eat foods that have plenty of potassium. In addition, your diet should contain low amounts of sodium (salt). Taking supplements is not a good idea. It can cause many side effects.

People who have certain medical conditions such as chronic kidney failure should not eat large amounts of potassium-rich foods.

People who take certain types of medications should consult a doctor about their potassium intake. Some may need additional intake while others may need to restrict the intake of potassium rich foods.”

So, while Sjögren’s syndrome may not be a kind of kidney disease, it can affect your kidneys. Thanks for keeping me company while I made the connection for myself.

Until next week,

Keep living your life!

Chemo and My Kidneys

 As most of you know, I am extremely protective of my kidneys. When I was first diagnosed with Chronic Kidney Disease 11 years ago, my eGFR was only 39. Here’s a quick reminder of what the eGFR is from my first CKD book, What Is It and How Did I Get It? Early Stage Chronic Kidney Disease:

“GFR: Glomerular filtration rate [if there is a lower case ‘e’ before the term, it means estimated glomerular filtration rate] which determines both the stage of kidney disease and how well the kidneys are functioning.”

39. That’s stage 3B, the lower part of stage 3B. During the intervening 11 years, I’ve been able to raise it to 50 (and sometimes higher for short periods) via vigorously following the renal diet, exercising, avoiding stress as much as possible, maintaining adequate sleep, and paying strict attention to the medications prescribed for me. While the medications were the ones I had been taking for high blood pressure prior to being diagnosed with CKD, they worked in my favor.

This excerpt from The National Center for Biotechnology Information (NCBI) part of the United States National Library of Medicine (NLM), a branch of the National Institutes of Health (NIH) at https://www.ncbi.nlm.nih.gov/books/NBK492989/ will explain why:

“The decision of whether to reduce blood pressure levels in someone who has chronic kidney disease will depend on

  • how high their blood pressure is (when untreated),
  • whether they have diabetes, and
  • how much protein is in their urine (albumin level).

A person with normal blood pressure who doesn’t have diabetes and hardly has any albumin in their urine will be able to get by without using any blood-pressure-lowering medication. But people who have high blood pressure, diabetes or high levels of albumin in their urine are advised to have treatment with ACE inhibitors (angiotensin-converting enzyme inhibitors) or sartans (angiotensin receptor blockers). In people who have diabetes, blood-sugar-lowering medication is also important.”

When I was first diagnosed with pancreatic cancer early last month, it changed my medical priorities. With my nephrologist’s blessing, my primary focus was the cancer… not my kidneys. It took constant reminders to myself not to be so quick to say no to anything that I thought would harm my kidneys. In other words, to those things I’d been saying no to for the last 11 years.

For example, once diagnosed with CKD, I ate very little protein keeping to my five ounce daily limitation. Not anymore. Protein is needed to avoid muscle wasting during chemotherapy with a minimum requirement of eight ounces a day. I even tried roast beef and other red meats. After 11 years, they no longer agreed with me so I eat ground turkey, chicken, cheese, and am considering soy.

Another change: I preferred not to eat carbohydrates, but was warned not to lose weight if I could help it. All of a sudden I’m eating Goldfish, bread, and pasta. I can’t say that I’m enjoying them, but I am keeping my weight loss to a minimum. Other limitations like those on potassium and phosphorous have also gone by the wayside. I’ve eaten every childhood favorite, foods that I’ve avoided for the last 11 years, and anything that might look tempting in the last month, but none of them really taste that good. I like the foods on the renal diet now.

Oh, the only thing I have not increased is salt. My daughter takes me to my chemotherapy sessions. There’s a Jewish style restaurant across the street and we showed up early one day. I wanted to try a toasted bagel with butter, the way I ate it before CKD. The damned thing was salty! I hadn’t expected that.

Back to chemo and my kidneys. I admit it. I was nervous. What was this combination of poisons going to do to my kidneys? If it was so caustic that I had to have a port in place so that it wouldn’t be injected directly into my veins for fear of obliterating them, what about my kidneys?

I anxiously awaited my first Comprehensive Blood Panel, the blood test that includes your GFR. Oh, oh, oh! My kidney function had risen to 55 and my creatinine had lowered to 1.0. Let me explain just how good this was.

A GFR of 55 is the higher part of stage 3A. 60 is where stage 2 of CKD begins. My kidneys were functioning better on chemo. And the creatinine? Let’s get a quick definition of that first. According to The National Institute of Diabetes and Digestive and Kidney Diseases at https://www.niddk.nih.gov/health-information/kidney-disease/chronic-kidney-disease-ckd/tests-diagnosis:

“Creatinine. Creatinine is a waste product from the normal breakdown of muscles in your body. Your kidneys remove creatinine from your blood. Providers use the amount of creatinine in your blood to estimate your GFR. As kidney disease gets worse, the level of creatinine goes up.”

Yet, mine went down. How? I asked and it was explained that all the hydration used to clear my veins of the caustic chemotherapy had worked this magic. I had two hours of hydration before the chemo-therapy  itself, two hours afterward, and another two hours the next day. My kidneys had never been this hydrated!

But wait, there’s more. I have diabetes. The pancreas is the organ that produces insulin. Could my diabetes be from the tumor blocking the production of insulin by my pancreas? I truly don’t know, but my glucose level is within the standard range for the first time since I’ve been diagnosed with diabetes.

Would I recommend chemotherapy to raise your GFR, and lower your creatinine and your glucose level? Of course not. But I am feeling so very lucky that my kidneys are not coming to any harm during the chemotherapy necessary to save my life. I can’t begin to tell you how relieved I am.

Until next week,

Keep living your life!

Oh, the Places You’ll Go!

Thank you to Dr. Seuss for lending us the title of today’s blog. Oh, you haven’t heard of him yet? According to Encyclopaedia Britannica at https://www.britannica.com/biography/Dr-Seuss:

“Dr. Seuss, pseudonym of Theodor Seuss Geisel, (born March 2, 1904, Springfield, Massachusetts, U.S.—died September 24, 1991, La Jolla, California), American writer and illustrator of immensely popular children’s books, which were noted for their nonsense words, playful rhymes, and unusual creatures.”

And why begin the blog with the title of his book you ask. Last month, I received an email from booknowmed.com. Now, I’m not endorsing this new company since I’m not on dialysis and so have not made use of their services myself. However, after reading about the difficulties my dialysis readers were having finding a clinic while they traveled, I was intrigued. Could this be another way to lessen the burden of being on dialysis?

This is from that email:

“What is booknowmed.com?

Whether you travel for holidays or for work, with booknowmed.com you can now find dialysis clinics that have availability for your treatment dates and book your treatments on the spot, anywhere in the World. And most importantly, booknowmed.com is FREE for patients.

  • Browse 440+ dialysis centers, in 380 destinations across 5 continents.
  • Find clinics that have availability based on your search criteria.
  • Know the price of treatment, before booking.
  • See ratings and read reviews from previous patients at the clinic.
  • Book your treatments on the spot in safety.
  • No booking fees, no hidden costs.
  • Track the progress of your booking, directly from your account.

Booknowmed.com is supported by the European Union and 60 national Kidney Patient Associations globally.”

Based on this alone, I asked Vassia Efstathiou, the User Experience Manager, if she’d be interested in guest blogging… and she was.  This is what she had to say, with just a bit of editing from me.

“Free booking engine for dialysis treatments? Dream or reality?

Travelling while on dialysis is a challenge on its own. Consider having to research, book and coordinate your dialysis treatments abroad. This process can be particularly stressful for dialysis patients, especially when faced with language barriers, lack of information – like the availability of clinics and cost of treatments- and, of course, safety concerns.

Many dialysis patients know this already but the power of the Internet alone cannot do much in this case. So it is definitely good news to hear that the first booking engine for holiday dialysis is live, and even better news to see that it actually works. Let alone the fact that it is free for patients!

Since its launch, thousands of dialysis patients have used booknowmed.com to book more than 27,000 treatments around the globe.

booknowmed.com allows dialysis patients to browse, find and book their dialysis treatments anywhere in the World. We are talking literally – anywhere.

By visiting booknowmed.com you will be able to browse more than 450 dialysis centers in 380 destinations, across five continents. This includes standard holiday options like Spain, Greece, and Turkey, as well some less ordinary destinations like Bali, Sri Lanka, Miami, Brazil and Argentina. Cuba, Barbados, and Curacao are coming up this month.

Bookings are completely free for patients, meaning there are no booking or other hidden costs. Overall the platform is very user-friendly and the booking process is very simple:

  1. Patients select their treatment dates and desired destination.
  2. They are then presented with a list of the clinics that match their search criteria and – most importantly – have availability for the requested dates.
  3. Booking is completed after a simple registration process, which is there for safety reasons. The process takes three minutes and includes registering the patient’s full name, email, and telephone number.

But let’s examine what differentiates booknowmed.com to the online directories currently available to dialysis patients.

Firstly, we are talking about a booking engine where you can book your treatments on the spot. In contrast to online directories, booknowmed.com allows you to know the availability and price before booking. You can select your exact treatment dates and preferred shift, and complete your booking without picking up the phone or waiting for a reply that takes weeks. Consider that the average booking time on booknowmed.com is six minutes compare to 15 days, the average booking time when you contact the clinic directly or go through a directory service.

Secondly, you have a wide variety of options to choose from, not only in terms of destination but also in terms of the type of the medical facility. booknowmed.com offers the largest network of independent dialysis centers. From global leaders – like Diaverum – to public and private hospitals as well as independent state-of-the-art clinics around the globe.

Thirdly, the simplicity of the booking process itself.

And last, but definitely not least, the great features offered to patients, which promote transparency and allow them to have all the information in hand before booking. These include:

  • Know the price of treatment before booking.
  • Use smart filters to narrow down your research. If you are an EU patient, for example, you can select to be presented with only the clinics that accept the EHIC.
  • See ratings and read reviews written by real patients who have completed treatment at this particular clinic.
  • Track the progress of your booking through your account. All the details of the booking including the exact time frame of the treatment, contact details of the clinic, and even a map with instructions on how to get there can be found in your account.

booknowmed.com was created by professionals with years of expertise in renal healthcare and the goal to serve a true need for patients. It has received the support of the European Union as well as of national kidney patient associations globally.

The company has plans to expand the functionalities of the platform, with the goal to become a 360o platform serving various everyday needs of renal patients, from nutrition and supplements to an online database and the online exchange of medical reports.

booknowmed.com is the living proof that we have entered a new era for dialysis patients, who can now find and book treatments abroad, with no hassle, no risk, and no language barriers.

Gail here, hoping this is exactly what you’ve been looking for to make your travel while on dialysis an easier experience for you.

Until next week,

Keep living your life!

 

CKD and Me

Okay, so I was finally ready to give up World Kidney Day and National Kidney Month. Maybe it’s time to give up the 1in9 chapter contribution, too. Since each contributing author also had their biography accompanying their chapter, I think the best way to do that is to print the biography… although it’s all me, me, me. Indulge me, please.

*****

Ms. Rae-Garwood’s writing started out as a means to an end for a single parent with two children and a need for more income than her career as a NYC teacher afforded. Gail retired from both college teaching and acting – after a bit of soul searching about where her CKD limited energy would be best spent – early in 2013. Since her diagnose, Ms. Rae-Garwood writes most often about Chronic Kidney Disease, although she does write fiction. She has a three time award winning weekly blog (Surprise!) about this topic at https://gailraegarwood.wordpress.com and social media accounts as @SlowItDownCKD.

*****

Hmmm, it seems to me I’ve done a lot more with Chronic Kidney Disease awareness advocacy since I started with this in 2010. Let’s see what else there is. Aha! These are on my website at www.gail-raegarwood.com.

 

Arizona Health & Living  (West Valley)  6/2018

 

MyTherapy Guest Blog    3/8/18

eCareDiary: Coping with Chronic Kidney  Disease  3/06/18

NephJC: One More Patient Voice on CKD Staging and Precision Medicine  12/08/16

 

Center for Science in the Public Interest: Nutrition Action Healthletter   9/16

New York State United Teachers: It’s What We Do   8/9/16

American Kidney Fund: Slowing DownCKD – It Can Be Done   7/14/16

The Edge Podcast  5/19/16

Dear Annie   3/10/14

Renal Diet Headquarters Podcast   2/12/14

 

Accountable Kidney Care Collaborative: Bob’s Blog   1/23/14

Wall Street Journal: Patients Can Do More to Control Chronic Conditions  1/13/14

The Neuropathy Doctor’s News   9/23/13

Series of five Monthly CKD education classes in The Salt River Pima-Maricopa

Indian Community   9/12/13

 

KidneySteps: Gail Rae and SlowItDown  9/11/13

Salt River Pima-Maricopa Indian Community: 4th Annual Men and Women’s Gathering  8/29/13

National Kidney Foundation: Staying Healthy  6/6/13

KidneySteps: Learning Helps with CKD    7/04/12

Life Options Links for Patients and Professionals   5/30/12

It Is Just What It Is    3/9/12

Online with Andrea    03/07/12

 

Working with Chronic Illness  2/17/12

 

Libre Tweet Chat with Gail Rae   1/10/12

Kevinmd.com   1/1/12

Improve Your Kidney Health with Dr. Rich Snyder, DO   11/21/11

Glendale Community College Gaucho Gazette   8/22/11

 

The NephCure Foundation   8/21/11

Authors Show Radio    8/8/11

Renal Support Network: Another 30 Years  1/11/10

Working with Chronic Illness: Are You Aching to Write    1/11/10

I’m going to keep today’s blog very short so you have the time to click though on the hyperlinked podcasts and articles. When I was teaching college, my students thoroughly enjoyed the time to choose what they’d like to hear or read from a prescribed list. I hope it’s the same for you.

Until next week,

Keep living your life!

I’m Finally Ready to Let National Kidney Month Go

As you already know, I’ve been posting the chapter I contributed to the book 1in9 as my contribution to National Kidney Month. This will probably be the final post of that chapter, unless I decide to post the biography that goes along with the chapter at a later date.

Most of you are aware that I now have pancreatic cancer and the chemo effects are getting in my way. I’m hoping that I’ll not be feeling them so severely in the near future and will be able to research some new material for you. Right now, that’s just not possible. You may have noticed that my Twitter, Instagram, and Facebook pages no longer contain original posts. That’s due to the same reason.

But let’s complete the book chapter:

When I was diagnosed back in 2008, there weren’t that many reader friendly books on anything having to do with CKD. Since then, more and more books of this type have been published. I’m laughing along with you, but I don’t mean just SlowItDownCKD 2011, SlowItDownCKD 2012 (These two were The Book of Blogs: Moderate Stage Chronic Kidney Disease, Part 1, until I realized how unwieldy both the book and the title were – another learning experience), SlowItDownCKD 2013, SlowItDownCKD 2014 (These two were formerly The Book of Blogs: Moderate Stage Chronic Kidney Disease, Part 2), SlowItDownCKD 2015, SlowItDownCKD 2016, and SlowItDownCKD 2017. By the way, I’m already working on SlowItDownCKD 2018. Each book contains the blogs for that year.

I include guest blogs or book review blogs to get a taste of the currently available CKD news. For example, 1in9 guest blogged this year. Books such as Dr. Mandip S. Kang’s, The Doctor’s Kidney Diets (which also contains so much non-dietary information that we – as CKD patients – need to know), and Drs. Raymond R. Townsend and Debbie L. Cohen’s 100 Questions & Answers about Kidney Disease and Hypertension.

I miss my New York daughter and she misses me, so we sometimes have coffee together separately. She has a cup of coffee and I do at the same time. It’s not like being together in person, but it’s something. You can find support the same way via Facebook Chronic Kidney Disease Support Groups. Some of these groups are:

Chronic Kidney Disease Awareness

Chronic Kidney Disease in India

CKD (Kidney Failure) Support Group International

Dialysis & Kidney Disease

Friends Sharing Positive Chronic Kidney Disease

I Hate Dialysis

Kidney Disease Diet Ideas and Help

Kidney Disease Ideas and Diets1

Kidney Disease is not a Joke

Kidney Disease, Dialysis, and Transplant

Kidney Warriors Foundation

Kidneys and Vets

Mani Trust

Mark’s Private Kidney Disease Group

P2P

People on Dialysis

Sharing your Kidney Journey

Stage 3 ‘n 4 Kidneybeaners Gathering Place

The Transplant Community Outreach

UK Kidney Support

Women’s Renal Failure

Wrap Up Warm for Kidney Disease

What I hit over and over again in the blogs is that diabetes is the foremost cause of CKD with hypertension as the second most common cause. Simple blood and urine tests can uncover your CKD – if you’re part of the unlucky 96% of those in the early stages of the disease who don’t know they have it.

Each time I research, I’m newly amazed at how much there is to learn about CKD…and how many tools you have at your disposal to help slow it down. Diet is the obvious one. But if you smoke or drink, stop, or at least cut down. If you don’t exercise, start. Adequate, good quality sleep is another tool. Don’t underestimate rest either; you’re not being lazy when you rest, you’re preserving whatever kidney function you have left. I am not particularly a pill person, but if there’s a medication prescribed that will slow down the gradual decline of my kidney function, I’m all for it.

I was surprised to discover that writing my SlowItDownCKD book series, maintaining a blog, Facebook page, Twitter, Instagram, and Pinterest accounts of the same name are not enough for me for me to spread the word about CKD screening and education. I’m determined to change this since I feel so strongly that NO ONE should have this disease and not be aware of it.

That’s why I’ve brought CKD awareness to every community that would have me: coffee shops, Kiwanis Clubs, independent bookstores, senior citizen centers, guest blogging for the likes of The American Kidney Fund and The National Kidney Foundation, being interviewed by publications like the Wall Street Journal’s Health Matters, The Center for Science in The Public Interest, and The United Federation of Teachers’ New York Teacher, and on podcasts such as The Renal Diet Headquarters, Online with Andrea, The Edge Podcast, Working with Chronic Illness, and Improve Your Kidney Health.

I’ve been very serious about sharing about CKD before it advances to end stage… meaning dialysis. To that end, I gathered a team for the National Kidney Foundation of Arizona Kidney Walk one year. Another year, I organized several meetings at the Salt River Pima-Maricopa Indian Community. Education is vital since so many people are unaware they even have the disease.

You can slow down the progression of the decline of kidney function. I have been spending a lot of time on my health and I’m happy to say it’s been paying off. There are five stages. I’ve stayed at the middle one for over a decade despite having both high blood pressure and diabetes. That’s what this is about. People don’t know about CKD. They get diagnosed. They think they’re going to die. Everybody dies, but it doesn’t have to be of CKD. I am downright passionate about people knowing this.

Thanks for taking the time to finish the chapter. The more people who know about Chronic Kidney Disease, the more people can tell others about it. I’d hate for anyone to be part of the 90% of those with CKD who don’t know they have it.

Until next week,

Keep living your life!