Not just myeloma

First bit of news: I’ve had absolutely no pain in my heel. It’s as good as new. I have to admit I’m still stunned…and I wonder if a more conventional doctor, let’s say a physiotherapist, would have made the connection between my relatively new eyeglass prescription and my heel pain. I doubt it.

This makes me wonder how many similar cases there are, of people who think they have plantar fasciitis or tendonitis or, sorry for the mention! 😉 , heel spurs, but whose pain actually originated in a different part of the body, an easy-to-fix part of the body. Mind-blowing, eh?

But the reason I’m writing today is that EBV, that is, the Epstein-Barr virus, is in the news again.

I wrote a few posts about the EBV connection to MGUS (and, therefore, to SMM and MM) back in October of 2017 when I came across an Italian study on this very topic, and then another bunch of posts in December and January, as I recall. To find and read these posts, all you have to do is put the acronym “EBV” in my blog’s “Search” box.

But now we have a more recent EBV study (which a dear SMM friend, thanks!!!, brought to my attention), conducted by a team at the Cincinnati Children’s Hospital Medical Center, showing that this terrible virus is linked to SEVEN OTHER diseases, as follows: lupus, MS, RA, inflammatory bowel disease, juvenile idiopathic arthritis, celiac disease, and type 1 diabetes. (!!!)

Here’s the link to the Science Daily article: goo.gl/FMyGe5

It’s a very interesting, easy-to-read article…a highly recommended read. As my friend commented, EBV has reached the mainstream now.

Here’s a food-for-thought excerpt from the SD article: “When viral and bacterial infections strike, our bodies respond by commanding B cells within our immune systems to crank out antibodies to battle the invaders. However, when EBV infections occur, something unusual happens. The EBV virus invades the B cells themselves, re-programs them, and takes over control of their functions.”

Given all the possibly dire consequences of an EBV infection, and given the fact that more than 90% of adults all over the world are antibody positive by the time they are 35 years old (freaky fact), we must take action. So, while we wait for an EBV vaccine to be developed (see article for more info), we need to build up our immune systems and, more importantly, those of our kids. How do we do that? Well, by looking up all the natural ways to block EBV…Curcumin would be at the top of my list: it prevents B cells infected with EBV from becoming immortal, etc. etc. etc. (check PubMed…I even found a study published back in 1998 about how curcumin affects EBV!)…There is lots we can do…

Oh how I wish I’d known all this stuff when I was in grad school, BEFORE I contracted this bloody virus, which, I just read, is an ancient fellow, perhaps 100 million years old…another freaky fact!!!

Anyway, it’s too late for me now…But it might NOT be late for you, so…get going! PREVENTION IS KEY!!! 🙂

Guided imagery, celiac disease, wine and tooth decay

Intriguing title, eh?  I don’t have time to write a proper post today, although I am working on a couple of different, rather complicated (!) items, but I did want to post about a recent Mayo Clinic report on the benefits of guided imagery. You can read about it here: http://tinyurl.com/ythf5x An excerpt, which is practically the whole thing!: “Aristotle and Hippocrates believed in the power of images in the brain to enliven the heart and body. Today, research shows they were right. Guided imagery is helping patients use the full range of the body’s healing capacity […]. Guided imagery is more than listening to relaxing sounds. It’s a learning process to listen to someone’s voice, relax the breathing and consciously direct the ability to imagine. The effect of guided vivid imagery sends a message to the emotional control center of the brain. From there, the message is passed along to the body’s endocrine, immune and autonomic nervous systems. These systems influence a wide range of bodily functions, including heart and breathing rates and blood pressure.”

Guided imagery apparently can reduce side effects from conventional cancer treatments, reduce fear and anxiety before surgery and help manage stress and headaches. I have never heard of this technique. Has anyone tried it?

Celiac disease sufferers, have a look at this: http://tinyurl.com/ysrtex An excerpt: “Researchers have discovered a new structure for a key enzyme associated with celiac disease, a finding that could lead to the design of new medications for the common digestive disorder.” Hah!

And finally, wine-drinkers will certainly be interested in this Science Daily report: http://tinyurl.com/yqfn6s Basically, specific polyphenols found in the waste products from winemaking (fermented seeds and skins, which normally get tossed) may prevent tooth decay and, even more importantly, lessen “the ability of bacteria to cause life-threatening, systemic infections”? Hmmm. How about that?

Another Celiac Disease Case Study

Just a quick post today. These days I have heaps of things to do that are keeping me away from my computer and my research. Errands, work, cookie baking and whatnot. ‘Tis the Xmas season! Speaking of work, one of my students this morning wanted to say “I’m really sorry,” but what came out of her funny mouth was “Sorry davvero” (davvero means “really” in Italian). Yes, this was another merry teaching day. Oh dear, I just noticed that parts of my keyboard have turned yellow. Will I ever get the curcumin stains out? Hmmm.
 
Anyway, back to serious stuff. A friend (thank you!) sent me a case study published in 1980 and titled “Multiple myeloma and adult celiac disease.” It discusses the case of a 75-year-old woman with multiple myeloma (a bone marrow biopsy or BMB revealed 80% malignancy), a resident of Wisconsin, who “was admitted to the hospital because of diarrhea and abdominal pain.” She had had this kind of trouble for “25 years prior to admission.” So had a few close relatives. Her intestinal woes vanished after she began a gluten-free diet.
 
Keeping in mind that this study was written 27 years ago (!), let’s read the following: “The appearance of malignity in patients with celiac disease has been well described and several theories have been offered in explanation. An abnormal immune surveillance allowing for the development of a malignant clone of cells is most popular. Proponents of this theory cite the various studies demonstrating a defect in the immune apparatus, such as a reduction in the number of ‘T’ cells or immunoglobulins, or demonstrating a defect in immune function, such as impaired response to mitogens or reduced cytotoxicity. Other explanations include inherent genetic predisposition (celiac patients with malignancy have a higher frequency of having the histocompatibility antigens HLA-A1, HLA-B8, and HLA-B12), and the accumulation of dietary carcinogens because of the lack of detoxifying enzymes and appropriate cell turnover in the small bowel mucosa.” Hmmm. Detoxifying enzymes, eh? I must look into this when I have more time (hah!).
 
Further on, “Multiple myeloma, a malignant conversion of an immune functioning cell, had not been reported in association with celiac disease. It is tempting to speculate that chronic antigenic stimulation in a patient with abnormal immune response resulted in the plasma cell dycrasia. In patients with multiple myeloma who have persistent, unexplained diarrhea or steatorrhea, endoscopy and biopsy are indicated to rule out amyloid or celiac disease.”
 
Plasma cell dyscrasia, by the way, is a group of diseases characterized by the proliferation of a single clone of plasma cells. This clone produces a huge amount of a single antibody, or monoclonal antibody, known as M-protein. Multiple myeloma is part of this group and so are other plasma cell malignancies, such as Waldenstrom’s macroglobulinemia. And MGUS. I think it’s always good to review this stuff (sometimes I forget specifics, too!).
 
I don’t know if I have gluten intolerance. I certainly don’t have any of the harsh symptoms that I have seen described here (and there). But I want to take the antigliadin antibody test just to rule it out. Like Web Admin, I had a terrible diet for years, especially in college and grad school, when I couldn’t be bothered with cooking. I ate a lot of pasta and chemical-ridden sweets. Tons of gluten, in other words. At any rate, if it turns out that I have the slightest intolerance to gluten, I don’t think it would hurt for me to send it into exile forever. Even if my myeloma markers don’t decrease. Okay, I have more errands to run, so off I go! Ciao a tutti!

Myeloma: An Acute Form Of Celiac Disease?

A topic that has been discussed recently on a couple of websites, that is, Cancer Compass (http://tinyurl.com/2daxza) and Beating Myeloma, is the celiac disease-myeloma connection. There are a ton of studies on celiac disease, also known as gluten intolerance. According to this one (abstract: http://tinyurl.com/2hk8jj), it is: “an autoimmune inflammatory disease of the small intestine that is precipitated by the ingestion of gluten, a component of wheat protein, in genetically susceptible persons. Exclusion of dietary gluten results in healing of the mucosa, resolution of the malabsorptive state, and reversal of most, if not all, effects of celiac disease. Recent studies in the United States suggest that the prevalence of celiac disease is approximately one case per 250 persons.” Now, I grew up in Italy on a pasta diet. I LOVE pasta and cannot imagine my life without it. But this topic concerned me enough to buy some gluten-free pasta and think about going on a gluten-free diet at some point early next year. Let’s have a look at a few of these studies.

A study (abstract: http://tinyurl.com/2hfhgz) published in “Leukemia Research” in December of 2006 points out that “it is well known that in sera of some patients with intolerance to gluten, with celiac disease, the IgA or IgG immunoreactivity to gliadin, and elevated levels of IL-6, could be present too.” Gliadin is a glycoprotein (a carbohydrate plus a protein) found in wheat, oats, rye, barley and other cereals.

Now, this is very interesting. Let’s see: 1. Gluten intolerance is associated with high levels of IL-6. But people with celiac disease also have high levels of IL-1beta, which strongly induces IL-6. Not good. 2. The immunoglobulins IgA and IgG are involved in the immune system reaction to gliadin. What a coincidence, huh? Hmmm.

This study is the first to report “that antibodies from some M-component could be directed to gliadin antigens.” Even though more research is needed, multiple myeloma could possibly be a “more severe form of gluten intolerance than celiac disease,” connected to our immune system’s reaction to gliaden antigens. In other words, those who have this particular food intolerance could possibly and eventually develop myeloma. Did I understand this correctly??? I am almost at a loss for words.

Another excerpt: “As IgA or IgG antigliadin immunoreactivity found in sera of patients with celiac disease is diminished in patients on gluten-free diet (GFD) and by some antibiotics, it could be of importance to consider whether the same approach in patients with MM (and with antigliadin immunoreactivity), applied at the end of conventional therapy would stop myeloma progression.” How about that? Go on a gluten-free diet, as some myeloma and MGUS folks in my acquaintance already have, and see if that is enough to stop myeloma from progressing. Who knows?

Another 2006 study, published in “Aging Clinical and Experimental Research (full study: http://tinyurl.com/ythyfm), tells us that “Although lymphoproliferative disorders and intestinal tumors are the most commonly seen malignancies, many other malignancies including multiple myeloma may develop.” The study examines the specific case of an elderly patient who was eventually diagnosed with celiac disease, after 15 years of diarrhea and other symptoms. “In our case, failure of diagnosis despite 15 years of symptoms played an important role in the development of malabsorption-related complications such as anemia, electrolyte imbalance and osteoporosis, as well as multiple myeloma.” I noticed a rather curious thing: the abstract tells us that the patient had plasma cell dyscrasia but not myeloma; then the full study states that the patient was diagnosed with early-stage myeloma. Odd. Oh well. Point is, though: this study affirms that myeloma may develop in patients with celiac disease.

A 1990 German study (http://tinyurl.com/yrlfa3) examined the fate of 52 people diagnosed with celiac disease: 15% of them developed cancer, including one case of myeloma. A 2004 Irish study (http://tinyurl.com/28gkm9), titled “Celiac Disease and Malignancy,” looked at 77 patients with celiac disease. One had myeloma. Interesting statistics, if nothing else. Could there be a gluten intolerance connection for some of us? Isn’t it worth at least getting tested?

Concluding remarks: I recall having an array of allergy tests done several years ago, and I distinctly remember that I was not allergic to wheat (etc.). But things change, so I am going to ask my haematologist what she thinks about it. After all, a simple blood test can determine if one has the antigliadin antibodies. Easy peasy!