Niacin:

--Raises HDL and shifts HDL towards the healthier large (HDL2b) subclass.
--Reduces total LDL.
--Reduces small LDL particles.
--Reduces triglycerides and triglyceride-containing particles like VLDL and IDL (intermediate-density lipoprotein).
--Reduces fibrinogen.
--Reduces inflammatory responses.

Weight loss achieved through a low-carbohydrate (read "wheat-free") diet:

--Raises HDL and shifts HDL towards the healthier large (HDL2b) subclass.
--Reduces total LDL.
--Reduces small LDL particles.
--Reduces triglycerides and triglyceride-containing particles like VLDL and IDL (intermediate-density lipoprotein).
--Reduces fibrinogen.
--Reduces inflammatory responses.

Curious, isn't it? Niacin achieves virtually the same effect as weight loss achieved through a low-carbohydrate diet, particularly if free of wheat products. The only major difference is that niacin also reduces lipoprotein(a), though even that distinction shrinks if monounsaturated fat sources like almonds are included in a low-carbohydrate program.

So which should you do first if you have any of the above patterns? Well, it's a question of 1) severity, 2) how carbohydrate-rich your starting diet is, 3) how much weight you could stand to lose, and 4) how urgent your program is (determined largely by your heart scan score).

Niacin can also be very helpful if you've taken full advantage of weight loss through a carbohydrate-restricted program, yet still retain some of the abnormal lipoprotein patterns that could continue to grow coronary plaque. For instance, if HDL cholesterol rises from 28 to 40 mg/dl by eliminating wheat and reducing carbohydrates and losing weight, niacin could raise HDL to 50 mg/dl or higher.

As much as I love and use niacin for its broad array of plaque-controlling effects, a low-carbohydrate, wheat-free diet can achieve many of the same effects. Use this strategy to full advantage.

Every once in a while, we will see someone experience more-than-expected rate of coronary plaque growth, a sudden jump in heart scan scores. I'm talking about increases in score of 50%, even 100%, sometimes despite favorable lipid and lipoprotein patterns.

It's not always easy to pin this phenomenon down, since we often detect it after a year or more on a repeat heart scan. It would be wonderfully insightful to perform heart scans more frequently and track plaque growth more precisely, but of course, radiation exposure is the most important limiting factor, as is cost.

So this list is, admittedly, speculative. It is based on observation, on presumptive associations between events and heart scan scores. But, judging from what we do confidently know about coronary atherosclerotic plaque, I think these observations make physiologic sense.

These are the sorts of increases in heart scan score that can scare the heck out of you, silent yet explosive growth of coronary atherosclerotic plaque that can grow with no warning whatsoever.

Image courtesy Wikipedia and the United States Geological Survey.

Factors which I have observed to possibly be responsible for explosive plaque growth include:

--Overwhelming tragedy such as death of a loved one, financial ruin, divorce. One of my early and catastrophic failures was a young man in his early 40s who, in the space of just a few months, suffered the loss of his mother, a brother, and his mother-in-law, while working a high-stress job. His heart scan score doubled from around 100 to 200 in one year, despite perfect lipoproteins. He had a heart attack shortly after the second score, despite a normal stress test just months earlier. (Pessimism is tragedy's weak cousin, but one that still holds power to corrupt our otherwise best efforts at plaque reversal.)

--Substantial weight gain. In the early years of the Track Your Plaque program, before it was even called "Track Your Plaque," I witnessed a man more than double his score from 1100 to 2400 in 18 months just by allowing himself to gain 40 lbs. (I don't know what became of him. His life apparently suffered other disasters, as well, and we lost track of him.)

--Poorly-controlled diabetes. High blood sugars out of control have yielded explosive growth.

--Kidney disease--However, I am uncertain of how much this overlaps with a deficiency of vitamin D's active form, 1,25-OH-vitamin D3, the form that is often deficient in people with dysfunctional kidneys.

--An inflammatory disease that is out of control, e.g., rheumatoid arthritis.

--This is very speculative, but I've witnessed explosive growth after vaccine administration that yielded strange viral-like symptoms. In this one instance, the man was getting heart scans (on his own) every three to six months and described a severe illness following a vaccine administered in preparation for travel out of the U.S.

--Unrecognized low thyroid function--i.e., hypothyroidism. This is easily corrected with thyroid hormone replacement.

These factors can also be relative and they can be overcome. Look at our current Track Your Plaque reversal record-holder: a 53-year old woman who dropped her heart scan score an amazing 63% despite the loss of a loved one during the 15 months of her program. Despite an overwhelming tragedy, she overcame the potential adverse effects and set a record, probably a record for the entire world.

In his most recent Vitamin D Council Newsletter (reprinted in its entirety below, minus clickable links, as Dr. Cannell apparently lost his webmaster and this issue of the newsletter is therefore not posted on the Vitamin D Council website; if you would like to either donate money to the Vitamin D Council or pitch in with help with his website, go to www.vitamindcouncil.com), Dr. John Cannell once again enlightens us with some new insights into vitamin D and its enormous role in health. In this issue, he discusses the role of vitamin D in people diagnosed with cancer (treatment, not prevention).

While cancer is not our focus on the Heart Scan Blog, Dr. Cannell's always insightful comments provide some helpful thoughts for our management of vitamin D doses and blood levels.

Dr. Cannell cites a recent study from vitamin D research expert, Dr. Bruce Hollis:

In the first study of its kind, Professor Bruce Hollis of the Medical University of South Carolina gave all of us something to think about. He asked and answered a simple question: How much vitamin D do you have to take to normalize the metabolism of vitamin D?

Remember, unlike other steroid hormones, vitamin D has very unusual metabolism in most modern humans, called first-order, mass action, kinetics. All this means is that the more vitamin D you take, the higher the 25(OH)D level in your blood, and the higher the 25(OH)D level in your blood, the higher the levels of activated vitamin D in your tissues. No other steroid hormone in the body behaves like this. Think about it: would you like your estrogen level to be dependent on how much cholesterol you ate? Or your cortisol level? (I'd ask the same about testosterone levels but I know men well enough not to ask.) No, the body must tightly regulate powerful steroid hormones through substrate inhibition, that is, if an enzyme turns A into B, when the body has enough B, B inhibits the enzyme and so limits its own production.

Not so with vitamin D, at least at modern human vitamin D levels. Professor Reinhold Vieth was the first to write about this and Vieth's Chapter 61 in Feldman, Pike, and Glorieux's wonderful textbook, Vitamin D (Elsevier, 2005, second edition), is a great reason to buy the textbook or have your library do so. (I'm glad to see Amazon is out of stock of the new ones (someone must be reading about vitamin D) but you can still buy used editions.)

Why would the kinetics of vitamin D be different from all other steroids? Maybe they are not, Hollis reasoned, like Vieth before him. Maybe vitamin D levels are so low in modern humans that its metabolic system is on full blast all the time in an attempt to give the body all the vitamin D metabolites it craves. So Hollis asked, Is vitamin D's metabolism different in populations in the upper end of 25(OH)D levels (a population of sun-exposed people and a group of women prescribed 7,000 IU per day)? Note, the Hollis study is free on Medline, you can download the entire paper on the right hand of the PubMed page below.

Hollis BW, et al. Circulating vitamin D3 and 25-hydroxyvitamin D in humans: An important tool to define adequate nutritional vitamin D status. J Steroid Biochem Mol Biol. 2007 Mar;103(3-5):631-634.

If you look at the two graphs, Figures 1 and 2 of Hollis' paper, you find vitamin D's kinetics can be normalized, made just like all other steroid hormones in the body, but you have to get enough sunshine or take enough vitamin D to get your 25(OH)D level above 50 ng/ml, and 60 ng/ml would be better. Then your body starts to store cholecalciferol in the body without much further increase in 25(OH)D levels. The reaction becomes saturable. This is a remarkable discovery and it implies levels of 30 and 40 ng/ml are usually not sufficient. It also implies actual vitamin D levels (cholecalciferol levels), not just 25(OH)D levels, may be useful in diagnosing and treating deficiency. Note, that not all of the sun-exposed individuals or women prescribed 7,000 IU/day achieved such levels. That's because the sun-exposed individuals were tested after an Hawaiian winter and because prescribing and taking are two different things.

In answer to the question, "How much vitamin D should someone with cancer take?," Dr. Cannell advises:
"Take enough to get your 25(OH)D level above 60 ng/ml, summer and winter." In doing so, you will have normalized the kinetics of vitamin D and stored the parent compound, cholecalciferol, in your tissues. In the absence of sunshine, you need to take about 1,000 IU/day per 30 pounds of body weight to do this. A 150 pound cancer patient may need to take 5,000 IU per day, a 210 pound cancer patient about 7,000 IU per day, all this in the absence of sunlight.

Dr. Cannell, no stranger to the resisitance among many practicing physicians unaware of the expanding and robust literature on vitamin D, advises people with cancer that:
In the end, if you have cancer and your physician won't do a risk/benefit analysis, do it yourself. The risk side of that equation is easy. Both Quest Diagnostics and Lab-Corp, the two largest reference labs in the USA, report the upper limit of 25(OH)D normal is 100 ng/ml and toxic is above 150 ng/ml, so 60 ng/ml is well below both. The reason levels up to 100 ng/ml are published normals is because there is no credible evidence in the literature that levels of 100 ng/ml do any harm and because sun worshipers often have such levels. (If you don't believe me, go to the beach in the summer for one month, sunbath every day for 30 minutes on each side in your bathing suit, and go home and have a 25(OH)D level.) By getting your level above 60 ng/ml, all you are doing is getting your levels into the mid to upper range of laboratory reference normals. Little or no risk.

For readers wishing to read the entire text of Dr. Cannell's newsletter, it is reprinted below:

The Vitamin D Newsletter
January, 2008

The January newsletter is coming early as I will be out of touch for awhile. If you remember, the last newsletter was on preventing cancer, not treating it. Below is a sampling of the tragic emails the last newsletter generated:

"Dr. Cannell, I was just diagnosed with breast cancer, how much vitamin D should I take?"

"My mother has colon cancer, how much vitamin D should she take?"

"I've had prostate cancer for four years, is there any reason to think vitamin D would help?"

"Dr. Cannell, my son has leukemia, should I give him vitamin D?"

It's one thing to talk about evidence vitamin D may prevent cancer but something quite different to discuss evidence vitamin D might help treat cancer. I used to think the answers to all the above questions were the same. Like anyone else, people with cancer should be screened for vitamin D deficiency and be treated if deficiency is present. Simple. However, it's not that simple. The real questions are, What are reasonable 25-hydroxy-vitamin D [25(OH)D] levels for someone with a life-threatening cancer? How much vitamin D do they need to take to obtain such levels? Is there any evidence, of any kind, that vitamin D will help treat cancer? The risk/benefit analysis of taking vitamin D is quite different if you are in perfect health than if your life, or your child's life, is on the line.

Remember, unlike cancer prevention, not one human randomized controlled trial exists showing vitamin D has a treatment effect on cancer. By treatment effect, I mean prolongs the lives of cancer patients. However, as I cited in my last newsletter, Dr. Philippe Autier of the International Agency for Research on Cancer, and Dr. Sara Gandini of the European Institute of Oncology, performed a meta-analysis of 14 randomized controlled trials showing even low doses of vitamin D extend life but they looked at all-cause mortality, not just cancer (Arch Intern Med. 2007;167(16):1730-1737). However, some epidemiological studies indirectly address the treatment issue and are quite remarkable. The first are a series of discoveries by Professor Johan Moan, Department of Physics at the University of Oslo, with Dr. Alina Porojnicu as the lead author on most of the papers.

Moan J, et al. Colon cancer: Prognosis for different latitudes, age groups and seasons in Norway. J Photochem Photobiol B. 2007 Sep 19

Lagunova Z, et al. Prostate cancer survival is dependent on season of diagnosis. Prostate. 2007 Sep 1;67(12):1362-70.

Porojnicu AC, et al. Changes in risk of death from breast cancer with season and latitude: sun exposure and breast cancer survival in Norway. Breast Cancer Res Treat. 2007 May;102(3):323-8.

Porojnicu A, et al. Season of diagnosis is a predictor of cancer survival. Sun-induced vitamin D may be involved: a possible role of sun-induced Vitamin D. J Steroid Biochem Mol Biol. 2007 Mar;103(3-5):675-8.

Porojnicu AC, et al. Season of diagnosis is a prognostic factor in Hodgkin's lymphoma: a possible role of sun-induced vitamin D. Br J Cancer. 2005 Sep 5;93(5):571-4.

Porojnicu AC, et al. Seasonal and geographical variations in lung cancer prognosis in Norway. Does Vitamin D from the sun play a role? Lung Cancer. 2007 Mar;55(3):263-70.

What Professor Moan's group discovered, repeatedly, is quite simple, whether it be cancer of the breast, colon, prostate, lung, or a lymphoma. You live longer if your cancer is diagnosed in the summer. And it is not just Moan's group who has found this. A huge English study recently confirmed Moan's discovery.

Lim HS, et al. Cancer survival is dependent on season of diagnosis and sunlight exposure. Int J Cancer. 2006 Oct 1;119(7):1530-6.

What do these studies mean? Something about summer has a treatment effect on cancer. Whatever it is, you live longer if you are diagnosed in the summer but die sooner if you are diagnosed in the winter. What could it be about summer? Exercise? Fresh air? Melatonin? Sunlight? Pretty girls? Remember, these patients already had cancer. Whatever it is about summer, it is not a preventative effect that Professor Moan discovered, it is a treatment effect. Something about summer prolongs the life of cancer patients.

Dr. Ying Zhou, a research fellow, working with Professor David Christiani at the Harvard School of Public Health, went one step further. The stuffy Harvard researchers assumed summer worked its magic, not by pretty girls, but by summer sunlight making vitamin D. So they looked at total vitamin D input, from both sun and diet, to see if high vitamin D input improved the survival of cancer patients. Yes, indeed, remarkably. They found that early stage lung cancer patients with the highest vitamin D input (from summer season and high intake from diet) lived almost three times longer than patients with the lowest input (winter season and low intake from diet). Three times longer is a huge treatment effect, a treatment effect that most conventional cancer treatment methods would die for.

Zhou W, Vitamin D is associated with improved survival in early-stage non-small cell lung cancer patients. Cancer Epidemiol Biomarkers Prev. 2005 Oct;14(10):2303-9.

And that's not all, Marianne Berwick and her colleagues, at the New Mexico Cancer Institute, found malignant melanoma patients with evidence of continued sun exposure had a 60% mortality reduction compared to patients who did not. That implies a robust treatment effect from sunlight.

Berwick M, et al. Sun exposure and mortality from melanoma. J Natl Cancer Inst. 2005 Feb 2;97(3):195-9.

I will not list the thousands of animal studies that indicate vitamin D has a treatment effect on cancer as almost all of them studied activated vitamin D or its analogs, drugs that bypass normal regulatory mechanisms, cannot get autocrine quantities of the hormone into the cell, and that often cause hypercalcemia. However, Michael Holick's group found that simple vitamin D deficiency made cancers grow faster in mice. That is, vitamin D has a cancer treatment effect in vitamin D deficient mice. Professor Gary Schwartz, at Wake Forest, recently reviewed the reasons to think that vitamin D may have a treatment effect in cancer.

Tangpricha V, et al. Vitamin D deficiency enhances the growth of MC-26 colon cancer xenografts in Balb/c mice. J Nutr. 2005 Oct;135(10):2350-4.

Schwartz GG, Skinner HG. Vitamin D status and cancer: new insights. Curr Opin Clin Nutr Metab Care. 2007 Jan;10(1):6-11.

Finally, one human interventional study exists. In 2005, in an open trial, Professor Reinhold Vieth and his colleagues found just 2,000 IU of vitamin D per day had a positive effect on PSA levels in men with prostate cancer.

Woo TC, et al. Pilot study: potential role of vitamin D (Cholecalciferol) in patients with PSA relapse after definitive therapy. Nutr Cancer. 2005;51(1):32-6.

So we come back to the crucial question. If you have cancer, how much vitamin D should you take, or, more precisely, what 25(OH)D level should you maintain? We don't know. You can correctly say that definitive studies have not been done and, incorrectly, conclude physicians treating cancer patients should do nothing. I say incorrectly because standards of medical practice have always demanded that doctors make reasonable decisions based on what is currently known, doing a risk/benefit analysis along the way to decide what is best for their patients based on what is known today. If a patient has a potentially fatal cancer, the doctor cannot dismiss a relatively benign potential treatment modality just because definitive studies have not been done, and passively watch his patient die. Standards of care require doctors consider what is known now, using information currently available, perform a risk/benefit analysis, and then act in the best interest of their patient.

Luckily, such doctors recently obtained some guidance. In the first study of its kind, Professor Bruce Hollis of the Medical University of South Carolina gave all of us something to think about. He asked and answered a simple question: How much vitamin D do you have to take to normalize the metabolism of vitamin D?

Remember, unlike other steroid hormones, vitamin D has very unusual metabolism in most modern humans, called first-order, mass action, kinetics. All this means is that the more vitamin D you take, the higher the 25(OH)D level in your blood, and the higher the 25(OH)D level in your blood, the higher the levels of activated vitamin D in your tissues. No other steroid hormone in the body behaves like this. Think about it, would you like your estrogen level to be dependent on how much cholesterol you ate? Or your cortisol level? (I'd ask the same about testosterone levels but I know men well enough not to ask.) No, the body must tightly regulate powerful steroid hormones through substrate inhibition, that is, if an enzyme turns A into B, when the body has enough B, B inhibits the enzyme and so limits its own production.

Not so with vitamin D, at least at modern human vitamin D levels. Professor Reinhold Vieth was the first to write about this and Vieth's Chapter 61 in Feldman, Pike, and Glorieux's wonderful textbook, Vitamin D (Elsevier, 2005, second edition), is a great reason to buy the textbook or have your library do so. [ I'm glad to see Amazon is out of stock of the new ones (someone must be reading about vitamin D) but you can still buy used editions.)

Why would the kinetics of vitamin D be different from all other steroids? Maybe they are not, Hollis reasoned, like Vieth before him. Maybe vitamin D levels are so low in modern humans that its metabolic system is on full blast all the time in an attempt to give the body all the vitamin D metabolites it craves. So Hollis asked, Is vitamin D's metabolism different in populations in the upper end of 25(OH)D levels (a population of sun-exposed people and a group of women prescribed 7,000 IU per day)? Note, the Hollis study is free on Medline, you can download the entire paper on the right hand of the PubMed page below.

Hollis BW, et al. Circulating vitamin D3 and 25-hydroxyvitamin D in humans: An important tool to define adequate nutritional vitamin D status. J Steroid Biochem Mol Biol. 2007 Mar;103(3-5):631-4.

If you look at the two graphs, Figures 1 and 2 of Hollis' paper, you find vitamin D's kinetics can be normalized, made just like all other steroid hormones in the body, but you have to get enough sunshine or take enough vitamin D to get your 25(OH)D level above 50 ng/ml, and 60 ng/ml would be better. Then your body starts to store cholecalciferol in the body without much further increase in 25(OH)D levels. The reaction becomes saturable. This is a remarkable discovery and it implies levels of 30 and 40 ng/ml are usually not sufficient. It also implies actual vitamin D levels (cholecalciferol levels), not just 25(OH)D levels, may be useful in diagnosing and treating deficiency. Note, that not all of the sun-exposed individuals or women prescribed 7,000 IU/day achieved such levels. That's because the sun-exposed individuals were tested after an Hawaiian winter and because prescribing and taking are two different things.

So my answer to "How much should I take if I have cancer?" is "Take enough to get your 25(OH)D level above 60 ng/ml, summer and winter." In doing so, you will have normalized the kinetics of vitamin D and stored the parent compound, cholecalciferol, in your tissues. In the absence of sunshine, you need to take about 1,000 IU/day per 30 pounds of body weight to do this. A 150 pound cancer patient may need to take 5,000 IU per day, a 210 pound cancer patient about 7,000 IU per day, all this in the absence of sunlight. And this may not be enough; cancer patients may use it up faster (increased metabolic clearance) and children may do the same due to their young and vital enzymes. Or you may need less, because you get more sun than you think, more from your diet, or because you are taking a modern medicine that interferes with the metabolism of vitamin D. An even easier way to do it is go to a sun tanning booth every day and obtain and keep a dark, full-body, tan. Then you don't have to worry about blood levels but I'd get one anyway, just to be sure it was above 60 ng/ml.

Given what Hollis discovered, given the well-known potent anti-cancer properties of activated vitamin D, given epidemiological evidence that summer extends the life of cancer patients, given a meta-analysis of randomized controlled trials showed that vitamin D prolongs life, given animal data that simple vitamin D has a treatment effect on cancer, and given a patient with a life-threatening cancer, what would a reasonable physician do? Simply let their patient die while muttering something about the lack of randomized controlled trials?

No, they would simply check a 25(OH)D level every month and advise cancer patients to take enough vitamin D or frequent sun tanning parlors enough to keep their level above 60 ng/ml. Toxicity does not start until levels reach 150 ng/ml but if you take more than 2,000 IU per day have your doctor order a blood calcium every month or two along with the 25(OH)D. Both you and he will feel better and because if you have cancer, you are probably taking lots of other drugs and little is known about how modern drugs interact with vitamin D metabolism. By getting your level above 60 ng/ml, all you are doing is getting your level to where most lifeguards' levels are at the end of summer, to levels our ancestors had when they lived in the sun, to levels regular users of sun-tan parlors levels achieve, and most importantly, to levels where vitamin D's pharmacokinetics are normalized.

In the end, if you have cancer and your physician won't do a risk/benefit analysis, do it yourself. The risk side of that equation is easy. Both Quest Diagnostics and Lab-Corp, the two largest reference labs in the USA, report the upper limit of 25(OH)D normal is 100 ng/ml and toxic is above 150 ng/ml, so 60 ng/ml is well below both. The reason levels up to 100 ng/ml are published normals is because there is no credible evidence in the literature that levels of 100 ng/ml do any harm and because sun worshipers often have such levels. (If you don't believe me, go to the beach in the summer for one month, sunbath every day for 30 minutes on each side in your bathing suit, and go home and have a 25(OH)D level.) By getting your level above 60 ng/ml, all you are doing is getting your levels into the mid to upper range of laboratory reference normals. Little or no risk.

What are the potential benefits? It probably depends on a number of things. Did your cancer cells retain the enzyme that activates vitamin D? Many do. Did your cancer cells retain the vitamin D receptor? Many do. If your cancer cells get more substrate [25(OH)D], will that substrate induce the cancer cells to make more vitamin D receptors or more of the activating enzyme? Some cancer cells do both. In practical terms, vitamin D is theoretically more likely to help your cancer the earlier you start taking it. However, no one knows. Certainly there is no reason, other than bad medicine, for cancer patients to die vitamin D deficient. Unfortunately, most do.

Tangpricha V, et al. Prevalence of vitamin D deficiency in patients attending an outpatient cancer care clinic in Boston. Endocr Pract. 2004 May-Jun;10(3):292-3.

Plant AS, Tisman G. Frequency of combined deficiencies of vitamin D and holotranscobalamin in cancer patients. Nutr Cancer. 2006;56(2):143-8.

It is very important that readers understand I am not suggesting vitamin D cures cancer or that it replace standard cancer treatment. Oncologists perform miracles every day. Do what they say. The only exception is vitamin D. If your oncologist tells you not to take vitamin D, ask him three questions. 1) How do you convert ng/mls to nmol/Ls? How many IU in a nonogram? 3) How do you spell "cholecalciferol?" If he doesn't know how to measure it, weigh it, or spell it, chances are he doesn't know much about it.

All of the epidemiological and animal studies in the literature suggest cancer patients will prolong their lives if they take vitamin D. I can't find any studies that indicate otherwise. However, none of the suggestive studies are randomized controlled interventional trials; they are all epidemiological or animal studies, or, in the case of Vieth's, an open human study. However, if you have cancer, or your child does, do you want to wait the decades it will take for the American Cancer Society to fund randomized controlled trials using the proper dose of vitamin D? Chances are you, or your child, will not be around to see the results.

John Cannell, MD
The Vitamin D Council
9100 San Gregorio Road
Atascadero, CA 93422

This is a periodic newsletter from the Vitamin D Council, a non-profit trying to end the epidemic of vitamin D deficiency. If you don't want to get the newsletter, please hit reply and let us know. This newsletter is not copyrighted. Please reproduce it and post it on Internet sites. Remember, we are a non-profit and rely on donations to publish our newsletter and maintain our website. Send your tax-deductible contributions to:

The Vitamin D Council
9100 San Gregorio Road
Atascadero, CA 93422

PS: The Vitamin D Council lost our webmaster. If you want to donate your time to a good cause, know all about maintaining websites, are interesting in keeping up with the latest press about vitamin D, and are willing to do so for free, please hit reply and let me know. We currently have $405.52 in our bank account so we cannot pay you now but may be able to pay you in the future.

Let me paint a picture:

A 78-year old woman, tired and bent. She's lost an inch and a half of her original height because of collapse of several vertebra in her spine over the years, leaving her with a "dowager's hump," a stooped position that many older women assume with advanced osteoporosis. It's also left her with chronic back pain.

(Image courtesy of National Library of Medicine)

This poor woman also has arthritis in her knees, hips, and spine. All three locations add to her pain.

She also has hypertension, a high blood sugar approaching diabetes, and distortions of cholesterol values, including a low HDL and high triglycerides.

Look inside: On a simple x-ray, we see that the bones of her body are unusually transparent, with just a thin rim of bone at the outer edges, depleted of calcium. Weight-bearing bones like the spine, hips, and knees have eroded and collapsed.

On an echocardiogram of her heart (ultrasound), she has dense calcium surrounding her mitral valve ("mitral anular calcium"), a finding that rarely impairs the valve itself but is a marker for heightened potential for heart attack and other adverse events. Her aortic valve, another of the four heart valves, is also loaded with calcium. In the aortic valve, unlike the mitral valve, the collection of calcium makes the valve struggle to open, causing a murmur. The valve is rigid and can barely open to less than half of its original opening width.

If a heart scan were performed, we'd see the coronary calcification, along with calcification of the aorta, and the mitral and aortic valves.

Obviously, it's not a pretty picture. It is, however, a typical snapshot of an average 78-year old woman, or any other elderly man or woman, for that matter.

This collection of arthritis, osteoporosis, coronary and valve calcification, high blood pressure, abnormal cholesterol patterns, and pain is not unusual by any stretch. Perhaps you even recognize someone you know in this description. Perhaps it's you.

Look at this list again. Does it seem familiar? I'd say that the common factor that ties these seemingly unrelated conditions together is chronic and severe deficiency of vitamin D. Vitamin D deficiency leads to arthritis, osteoporosis, coronary and valve calcification, high blood pressure, abnormal cholesterol patterns, and pain.

Should we go so far as to proclaim that aging, or at least many of the undesirable phenomena of aging, are really just manifestations of vitamin D deficiency? I would propose that much of aging is really deficiency of vitamin D, chronic and severe, in its end stages.

My colleagues might propose a 30- or 40-year long randomized trial, one designed to test whether vitamin D or placebo makes any difference.

Can you wait?

Here's a fascinating e-mail we received recently. It came from a man in Hawaii who dropped his heart scan score a modest amount, but did it in two months using fasting. He also has the advantage of access to the Holistica Hawaii scan center with our friend, Dr. Roger White. His experience is so fascinating that we asked for his permission to reprint his story which he did enthusiastically.

So here is Don's story:

I am a 61 year old male with a history of heart disease in my family. My maternal grandfather, for instance, died at age 39 of a
heart attack and my mother died of a stroke. There are other instances in my family as well.

I, personally, before going to Holistica had had three heart procedures; one radio catheter ablation for WPW Syndrome, and two radio catheter ablations for atrial fibrilations. After suffering with WPW for over 30 years and A-Fibs for about a year, those issues seem to be behind me fortunately.

Three or four months back, however, I was suffering from shortness of breath and slight chest pains when doing the uphill part of a 5 mile walk that I do almost every day. My wife had had a coronary heart scan several years back at Holistica so that's how I knew about it.

I had a scan done on October 4th this year. The scan did show fairly
advanced plaque build up; my total coronary plague burden was
312.9. The day following the scan I felt absolutely terrible; lightheaded, weak, much like feeling you were at death's door.

I had read a book a number of years back about therapeutic fasting
(water only) called "Fasting and Eating for Health" by Dr. Joel
Furhman.

According to his book, one on the areas where he consistently has dramatic and quick results with fasting is with reducing arterial plaque. Based on how badly I was feeling at the time, I decided to start an immediate fast. Within just the first 24 hours, the relief was dramatic and amazing. I continued the water only fast for 3 weeks.

Yesterday, December 1st I went in for another cardio scan instead of the coronary angiogram that I had previously been scheduled for. I could tell they were a little confused why I was doing that but went ahead and did another coronary EBT scan.

When I went in for the doctor consultation, Dr. McGriff said, "OK, exactly what is it you've done since last time." In less than two months, my coronary plaque burden had dropped to 296.2. That's a 6% reduction in less than 2 months. Had I gone back in for the second scan right after my 3 week fast then it probably would have a 6%
reduction in less than a month.

Frankly, based on how good I've been feeling (I'm even thinking of
getting back into jogging instead of walking), I was surprised it was
only 6%. Based on the common experience, however, that it sometimes
takes a year or two to just stabilize your plaque increase, much less
actually start losing it, the doctor was truly startled and
surprised. He said he had never seen such a sudden reduction as that
before!

We are still going to proceed with the coronary angiogram and I
intend to apply what I find in your book but I thought you might be interested in these results since I've never heard or read of anyone actually measuring the effectiveness of a fast with before and after EBT Scans.

I admire your direction and work focusing on prevention instead of catastrophic management like most doctors. Dr. Fuhrman is very much the same with the greatest attention on prevention so if you haven't heard of his book you might be interested. Especially interesting regarding this particular issue is Chapter 5 entitled, "The Road Back to a Healthy Heart-the Natural Way."

I can personally verify everything he has said about the fasting procedure itself from start to finish. I consider his book the Bible about fasting. As I mentioned, given your similar direction in medicine, I thought I would bring my personal experience on the matter to your attention for your consideration. Maybe in a future edition of your book, you might want to include some information on fasting.

Anyhow, I hope you will find this helpful. Any other questions,
don't hesitate to e-mail back. Please keep up your good work and
thanks for what your doing!

Yours truly,

Don P.
Honolulu, Hawaii

Isn't that great?

Now, in all honesty, a change of 6% could conceivably be within the margin of error for heart scanning. (Although several studies from a number of years ago suggested that variation in heart scan scoring was about 10%, sometimes more, in my experience, on EBT devices like the one Don used, variation is <5% at this score range.) Genuine regression would probably be better documented by yet another scan down the road. If the trend is consistent, then it is probably real.

Nonetheless, Don's story may support we've been saying for some time: Fasting is a rapid method to gain control over plaque--but I didn't know it might be that quick! Perhaps Don is a living example of what I've called "instant" heart disease reversal.

Don is potentially off to a good start. But, unless he can periodically repeat his fast, he will still have to engage in a program that allows continuing control over coronary plaque in between fasts. Also, fasting cannot address issues like vitamin D deficiency, lipoprotein(a), and any residual lipid/lipoprotein issues. But I am continually impressed with the power of fasting to "jump start" a program of heart disease reversal.

It would be a fascinating study to perform, with serial heart scans within brief periods of weeks or months to gauge rapid response. However, we need to keep in mind that as wonderful as heart scans are, they do involve modest radiation exposure.

It might be interesting in future to add a fasting "arm" to the virtual clinical trial. That might yield some great insights.

Copyright 2007 William Davis,MD

This continues a series I've begun recently that discusses studies that have emerged over the past 10 years relevant to heart scan scoring and reversal of coronary atherosclerotic plaque.

The St. Francis Heart Study from St. Francis Hospital, Roslyn, New York, was released in 2005. This was yet another study that set out to determine whether Lipitor exerted a slowing effect on coronary calcium scores. This time, Lipitor (atorvastatin), 20 mg per day, was combined with vitamin C 1 g daily, and vitamin E (alpha-tocopherol) 1,000 U daily, vs. placebo. A total of 1,005 asymptomatic men and women, age 50 to 70 years, with coronary calcium scores 80th percentile or higher for age and gender
participated in the study.

After four years, heart scan scores in the placebo group increased 73%, compared to 81% in the treatment group. Statistically, the cocktail of drug, vitamins C and E had no effect on heart scan scores.

Other findings included:

--Participants experiencing heart attack and other events during the study showed greater progression of scores than those not experiencing heart attack: score increase of 256 vs. increase of 120.

--While treatment did not reduce the number of heart attacks and events overall, participants with starting heart scan scores >400 did show a benefit: 8.7% with events on treatment (20 of 229) vs. 15.0% with placebo (36 of 240).

(Note what is missing from the treatment regimen: efforts to raise HDL (starting average HDL 51 mg/dl); reduce triglycerides (starting average 140 mg/dl); identify those whose LDL was false elevated by lipoprotein(a); omega-3 fatty acids from fish oil; correction of other factors like vitamin D deficiency.)

Are we pretty in agreement that just taking Lipitor and following an American Heart Association low-fat diet is an unsatisfactory answer to gain control over coronary plaque growth? No slowing of heart scan score growth seen in the St. Francis Heart Study and similar studies is consistent with the 25-30% reductions in heart attack witnessed in large clinical trials. Yes, heart attack and related events are reduced, but not eliminated--not even close.

And when you think about it, it should come as no surprise that the simple strategy studied in the St. Francis Heart Study failed to completely control plaque growth. Lipitor and statin drugs exert no effect on small LDL particles, barely raise HDL cholesterol at all, and have no effect on Lp(a), factors that increase heart scan scores substantially.

Though these discussions have frightened some people because of the suggestion that increasing heart scan scores are inevitable and unavoidable, they shouldn't. It really should not be at all shocking to learn that taking one drug all by itself should cure coronary heart disease.

Instead, findings like those of the St. Francis study should cause us to ask: What could be done better? How can we better impact on heart scan scores and how can we further reduce heart attack, particularly in people with higher heart scan scores?

My answer has been the Track Your Plaque program, a comprehensive effort to 1) address all causes of coronary plaque, and then 2) correct all the causes.

Here is Dr. John Cannell's Vitamin D Council Newsletter reprinted in its entirety. It answers some of the questions that came up on The Heart Scan Blog about the recent release of a study of vitamin D and cancer

The Vitamin D Newsletter

December, 2007

Does vitamin D prevent cancer? If it does, will doctors who ignore the research end up with blood on their hands? The press makes it easy for doctors to believe what they want to believe. Below are six stories about the same scientific study; read the six different headlines. According to your a priori beliefs, you can choose the story you want to believe and read that one. Don't feel bad, we all do it. As Walter Lippman once said, "We do not see and then believe, we believe and then we see."

Vitamin D cuts colon cancer death risk

Study Finds No Connection Between Vitamin D And Overall Cancer Deaths

Vitamin D protects against colorectal cancer

Vitamin D May Not Cut Cancer Deaths

Vitamin D protects against colorectal cancer

Scientists advise a vitamin D downgrade as there is no real proof ...

Another option is to read the study yourself.

Freedman DM, et al. Prospective Study of Serum Vitamin D and Cancer Mortality in the United States. J Natl Cancer Inst. 2007 Oct 30; [Epub ahead of print]

What Dr. Freedman actually discovered is that when you take a very large group of people (16,818), some as young as seventeen, measure their vitamin D levels, and then wait about ten years to see who dies from cancer, you find 536 die and that a vitamin D level from ten years earlier is not a good predictor of who will die from cancer. However, even a level drawn ten years earlier predicted that those with the lowest level were four times more likely to die from colon cancer, suggesting, as Ed Giovannucci has, that colon cancer may be exquisitely sensitive to vitamin D. Furthermore, 28 women got breast cancer, 20 in the group with the lowest vitamin D level but only 8 in the highest. The breast cancer findings were not statistically significant - even during a very long breast cancer awareness month - but can you imagine what critics at the American Cancer Society would be telling women if the numbers were reversed, if the 20 women who got breast cancer were in the high vitamin D group?

Another large epidemiological study appeared about breast cancer the very next day. This time, the press passed on the story and the American Cancer Society was mum, no editorials by Dr. Lichtenfeld, their spokesman, in spite of breast cancer awareness month.

Abbas S, et al. Serum 25-hydroxyvitamin D and risk of postmenopausal breast cancer - results of a large case-control study. Carcinogenesis. 2007 Oct 31; [Epub ahead of print]

In the above study, 1,394 women with breast cancer were case-controlled with a similar number of women without breast cancer. The women with breast cancer were three times more likely to have low vitamin D levels. That is a lot of women who may be dying during next year's breast cancer awareness month.

Both of the above studies were epidemiological, not randomized controlled trials. Of course a randomized controlled trial has already shown a 60% reduction in internal cancers in women taking even a modest 1,100 IU per day of vitamin D.

Lappe JM, et al. Vitamin D and calcium supplementation reduces cancer risk: results of a randomized trial. Am J Clin Nutr. 2007 Jun;85(6):1586-91.

What is interesting is the difference in the response of the Canadian Cancer Society and the American Cancer Society. The Canadian Cancer Society has advised all Canadians to take 1,000 IU per day - not enough but a good first step - and for immediate additional large scale clinical trials. The Canadians simply performed a risk/benefit analysis. What is the risk of treating vitamin D deficiency versus what are the potential benefits? They quote the American Food and Nutrition Board, which says 2,000 IU/day is safe for anyone over the age on one to take, on their own, without being under the care of a physician. If there is little or no risk, then the next question is what are the potential benefits of treating vitamin D deficiency? This is not quantum mechanics.

Cancer society calls for major vitamin D trial

The Canadians acted because the Canadian government knows it could save billions of dollars by treating vitamin D deficiency.

Vitamin D Deficiency Drains $9 billion From Canadian Health Care ...

If wide spread treatment of vitamin D deficiency became the rule, ask yourself, "Who would be helped and who would be hurt." First ask yourself that question about Canada and then about the USA. Remember, in Canada, the government directly pays for its citizen's health insurance; in the USA, private insurance is the norm. In Canada, the government is realizing they could save billions if vitamin D deficiencies were treated. In the USA, a large segment of the medical industry would be hurt, some anti-cancer drug manufacturers would have to close their doors, thousands of patents would become worthless, lucrative consulting contracts between industry and cancer researchers would dry up.

Both Canadians and Americans are shocked to think their doctors care about money, are in the illness business. In some ways people think of their doctors like they do their local public schools. They know medicine is a business and know doctors do things for money but they don't think their own doctors do. Likewise they think public schools are in bad shape but think their local schools are above average. They think their doctor is above average, like their "Lake Woebegone" kids.

Lake Woebegone Effect

The fact is that doctors, hospitals, regional cancer centers, and the cancer drug manufacturers are all in business to make money and all of these businesses make money off the sick, not off the well. Just a fact, but, as Aldous Huxley once observed, "Facts do not cease to exist because they are ignored."

Vitamin D will save the Canadian government enormous amounts of money but will cause widespread economic disruption in the USA. Do the physicians leading the American Cancer Society have strong economic ties to the cancer industry in the form of patents, stock options, and consulting fees? If so, what do you expect them to do? What would you do? It's simple. You would believe what you have to believe, what you need to believe, that is, anything with the word "vitamin" in it is simply the latest Laetrile. Look to Canada, not the USA, to lead the way.

Vitamin D may fight cancer

What about American physicians? They are apparently waiting for the American trial lawyers to smell a tort. After all, the case is quite simple. Doctor, did you advise Mrs. Jones to avoid the sun? Doctor, did you tell her the sun is the source of 90% of circulating stores of vitamin D? Doctor, did you prescribe vitamin D to make up for what the sun would not be making? Doctor, did you measure her vitamin D levels? So you had no way of knowing if your sun-avoidance advice resulted in vitamin D deficiency? Doctor, do you know our expert tested her vitamin D level and it was less than 20? Doctor, did you tell her about any of the studies indicating vitamin D deficiency causes cancer? Doctor, did you know Mrs. Jones has terminal breast cancer and will be leaving behind a loving husband and two young children?

And what about the American Cancer Society? Dr. Lichtenfeld, their spokesman, quickly gave his opinion; from what I can tell the first time he ever commented on a vitamin D study. That is, he has ignored the hundreds of positive epidemiological studies, ignored the incredible randomized controlled trial, but he jumped on this one:

Maybe Vitamin D Isn't The Answer After All

Dr. Lichtenfeld, implied the Canadian Cancer Society has acted precipitously in recommending that all Canadians take 1,000 IU of vitamin D daily. He implied that Americans should placidly wait until more randomized controlled trials, such as Lappe JM, et al (above), accumulate before they address their vitamin D deficiency. That is, nothing should be done until more randomized controlled trials prove vitamin D prevents cancer, one randomized controlled trial is not enough; epidemiological studies are not enough, animal studies are not enough, multiple anti-cancer mechanisms of action are not enough? If that is his position, I challenge him to point to one human randomized controlled trial that proves smoking is dangerous?

If he cannot, then he must admit that the American Cancer Society's position on smoking is entirely derived from epidemiological studies, animal studies, and a demonstrable mechanism of action, not on human randomized controlled trials? Vitamin D not only has hundreds of epidemiological studies, thousand of animal studies, and at least four anti-cancer mechanisms of action, vitamin D deficiency has something smoking does not have, it has a high quality randomized controlled trial. If future randomized controlled trials fail to show vitamin D prevents cancer - and Dr. Lichtenfeld better hope they do - he can have the satisfaction of saying "I told you so." If future randomized controlled trials confirm vitamin D prevents cancer, then he needs to look at his hands, the red he sees is the blood of needless cancer deaths.

John Cannell, MD

The Vitamin D Council

9100 San Gregorio Road

Atascadero, CA 93422

This is a periodic newsletter from the Vitamin D Council, a non-profit trying to end the epidemic of vitamin D deficiency. If you don't want to get the newsletter, please hit reply and let us know.

Remember, we are a non-profit and rely on donations to publish our newsletter and maintain our website. Send your tax-deductible contributions to:

The Vitamin D Council

9100 San Gregorio Road

Atascadero, CA 93422

A Heart Scan Blog reader recently posted this comment:

You wouldn't believe the trouble I'm having trying to get someone to give me a CT Heart Scan without trying to talk me into a Coronary CTA [CT angiogram]. Every facility I've talked to keeps harping on the issue that calcium scoring only shows "hard" plaque...and not soft.

I also had a nurse today tell me that 30% of the people that end up needing a coronary catheterization had calcium scores of ZERO. That doesn't sound right to me. What determines whether or not someone needs a coronary catheterization anyway?

There was a time not long ago when I saw heart scan centers as the emerging champions of heart disease detection and prevention. Heart scans, after all, provided the only rational means to directly uncover hidden coronary plaque. They also offered a method of tracking progression--or regression--of coronary plaque. No other tool can do that. Carotid ultrasound (IMT)? Indirectly and imperfectly, since it measures thickening of the carotid artery lining, partially removed from the influences that create coronary atherosclerotic plaque. Cholesterol? A miserable failure for a whole host of reasons.

Then something happened. General Electric bought the developer and manufacturer of the electron-beam tomography CT scanner, Imatron. (Initial press releases were glowing: The Future of Electron Beam Tomography Looks Better than Ever.The new eSpeed C300 electron beam tomographic scanner features the industry’s fastest temporal resolution, and is now backed by the strength of GE Medical Systems. Imatron and GE have joined forces to provide comprehensive solutions for entrepreneurs and innovative medical practitioners.)

Within short order, GE scrapped the entire company and program, despite the development of an extraordinary device, the C-300, introduced in 2001, and the eSpeed, introduced in 2003, both yanked by GE. The C-300 and eSpeed were technological marvels, providing heart scans at incredible speed with minimal radiation.

Why would GE do such a thing, buy Imatron and its patent rights, along with the fabulous new eSpeed device, then dissolve the company that developed the technology and scrap the entire package?

Well, first of all they can afford to, whether or not the device represented a technological advancement. Second (and this is my reading-between-the-lines interpretation of the events), it was in their best financial interest. Not in the interest of the public's health, nor the technology of heart scanning, but they believed that focusing on the multi-detector technology to be more financially rewarding to GE.

GE, along with Toshiba, Siemens, and Philips, saw the dollar signs of big money with the innovations in multi-detector technology (MDCT). They began to envision a broader acceptance of these devices into mainstream practice with the technological improvements in CT angiography, a device (or several) in every hospital and major clinic.

Anyway, this represents a long and winding return to the original issue: How I once believed that heart scan centers would be champions of heart disease detection and reversal. This has, unfortunately, not proven to be true.

Yes, there are heart scan centers where you can obtain a heart scan and also connect with people and physicians who believe in prevention of this disease. I believe that Milwaukee Heart Scan is that way, as is Dr. Bill Blanchet's Front Range Preventive Imaging, Dr. Roger White's Holistica Hawaii, and Dr. John Rumberger's Princeton Longevity Center.

But the truth is that most heart scan centers have evolved into places that offer heart scans, but more as grudging lip service to the concept of early detection earned with sweat and tears by the early efforts of the heart scan centers. But the more financially rewarding offering of CT coronary angiograms, while a useful service when used properly, has corrupted the prevention and reversal equation. "Entry level" CT heart scans have been subverted in the quest for profit.

CT angiograms pay better: $1800-4000, compared to $100-500 for a heart scan (usually about $250). More importantly, who can resist the detection of a "suspicious" 50% blockage that might benefit from the "real" test, a heart catheterization? Can anyone honestly allow a 50% blockage to be without a stent?

CT angiograms not only yield more revenue, they also serve as an effective prelude to "downstream" revenue. By this equation, a CT angiogram easily becomes a $40,000 hospital procedure with a stent or two, or three, or occasionally a $100,000 bypass. Keep in mind that the majority of people who are persuaded that a simple heart scans are not good enough and would be better off with the "superior" test of CT angiography are asymptomatic--without symptoms of chest pain, breathelessness, etc. Thus, the argument is that people without symptoms, usually with normal stress tests, benefit from prophylactic revascularization procedures like stents and bypass.

There are no data whatsoever to support this practice. People who have no symptoms attributable to heart disease and have normal stress tests do NOT benefit from heart procedures like heart catheterization. They do, of course, benefit from asking why they have atherosclerotic plaque in the first place, followed by a preventive program to correct the causes.

So, beware: It is the heart scan I believe in, a technique involving low radiation and low revenue potential. CT angiograms are useful tests, but often offered for the wrong reasons. If we all keep in mind that the economics of testing more often than not determine what is being told to us, then it all makes sense. If you want a simple heart scan, just say so. No--insist on it.

Take trust out of the equation. Don't trust people in health care anymore than you'd trust the used car salesman with "a great deal."

Finally, in answer to the reader's last comment about 30% of people needing heart catheterizations having zero calcium scores, this is absolute unadulterated nonsense. I'm hoping that the nurse who said this was taken out of context. Her comments are, at best, misleading. That's why I conduct this Heart Scan Blog and our website, www.cureality.com. They are your unbiased sources of information on what is true, honest, and not tainted by the smell of lots of procedural revenue.

Russ had a beer belly, a big protuberant, hanging-over-the belt-on-top-of-skinny-legs sort of beer belly. Except he didn't get it from beer (only). Yes, he did drink beer, up to 3 or 4 per day on weekends, rarely during the week.

Russ got his "beer belly" from snack foods, processed foods, and yes, wheat products.

He came to my office for consultation for unexplained breathlessness. His primary care physician was stumped and asked for an opinion.

So, part of Russ' evaluation included laboratory work. Russ proved to have a blood sugar (glucose) of 136 mg/dl, well into the diabetic range. His insulin level was 102 microunits/ml, way above the desirable range of <10. I interpreted this to mean that Russ had early diabetes but still maintained vigorous pancreatic function, since the pancreas is the abdominal organ responsible for insulin production. In pre-diabetes and early diabetes, insulin levels can be high, reflecting the revved up output of the pancreas. However, the pancreas eventually "burns out," unable to keep up with the demand to product enormous quantities of insulin. That's when blood sugar skyrockets.

Along with the blood sugar and insulin, Russ showed all the expected markers of this syndrome (the "metabolic syndrome"): low HDL of 34 mg/dl, high triglycerides of 257 mg/dl, severe small LDL (80% of total LDL), high c-reactive protein, and high blood pressure.

A heart scan showed a surprisingly small amount of coronary plaque with a score of only 4. Thus, Russ' symptoms were unlikely to represent a coronary issue ("ischemia"). Breathlessness was far more likely to be from 1) his obesity and protuberant abdomen, large enough to encroach on his chest and lung volume, and 2) high blood pressure (which can, in turn, lead to high heart pressure and breathlessness, often called "left ventricular diastolic dysfunction").

I persuaded Russ to eliminate his previously flagrant and abundant over-reliance on wheat products and snack foods. Two months later, 15 lbs lighter, and a modestly less protuberant beer belly, Russ' laboratory evealuation showed:

--Blood sugar 90 mg/dl--normal.

--Insulin 12 microunit/ml--darn near normal.

Blood pressure was down 20 points. Russ' breathlessness was now entirely gone. He has another 30-40 lbs to go, but he's off to a great start. He is now clearly, solidly, and confidently NON-diabetic.

I see experiences like this every day, as do committed diabetes fighters like Jenny at Diabetes Update.

Why isn't this common practice? If pre-diabetes and diabetes can be cured by such a simple approach, why isn't it more widely embraced? After all, what other devastating diseases can claim to have such a simple, straightforward way to achieve cure?

And why does the American Diabetes Association (ADA) actually condone the inclusion of abundant carbohydrates in diabetics? Their modified food pyramid shows the widest part of the pyramid filled with "breads, grains, and other starches."

How about this question taken from a Q&A on the ADA website:

Can I eat foods with sugar in them?

For almost every person with diabetes, the answer is yes! Eating a piece of cake made with sugar will raise your blood glucose level. So will eating corn on the cob, a tomato sandwich, or lima beans. The truth is that sugar has gotten a bad reputation. People with diabetes can and do eat sugar. In your body, it becomes glucose, but so do the other foods mentioned above. With sugary foods, the rule is moderation. Eat too much, and 1) you'll send your blood glucose level up higher than you expected; 2) you'll fill up but without the nutrients that come with vegetables and grains; and 3) you'll gain weight. So, don't pass up a slice of birthday cake. Instead, eat a little less bread or potato, and replace it with the cake. Taking a brisk walk to burn some calories is also always helpful.

The answer is simple. Just as the American Heart Association focuses on ways to deliver the message of palliation, so does the ADA. So ADA diet advice is designed to help diabetics maintain a stable blood sugar on their medication. It is definitely not intended to reverse or eliminate diabetes. My patient Russ would be deep into diabetes on the ADA diet, enjoying his rolls, whole wheat bread, breakfast cereals, and birthday cake.

Once again, another example of the growing irrelevance of the "official" arbiters of health information for those of us looking for reversal of disease.

I'd like to start an occasional series of blog posts on The Heart Scan Blog in which I review studies relevant to the whole heart scan score reversal experience.

In a previous post, Don't be satisfied with "deceleration,"I discussed the BELLES Trial (Beyond Endorsed Lipid Lowering with EBT Scanning (BELLES)), in which either atorvastatin (Lipitor), 80 mg, or pravastatin (Pravachol),40 mg, was given to 615 women. Both groups showed an average of 15% annual plaque growth, regardless of which agent was taken and regardless of the amount of LDL cholesterol reduction.

I cited another study in which 471 participants received either Lipitor, 80 mg, or Lipitor, 10 mg. The rate of annual score increase was 25-27%, regardless of drug dose or LDL lowering.

Here's yet another study, a small German experience in 66 patients, with a curious design and using the now-defunct statin drug, cerivastatin (Bayccol, pulled in 2001, nearly simultaneous with the publication of this study, due to greater risk of muscle damage, particularly when used in combination with gemfibrozil). Achenbach et al in Influence of lipid-lowering therapy on the progression of coronary artery calcification: A prospective evaluation reported on this trial in which all participants underwent heart scanning to obtain a heart scan score; no treatment was initiated based on the score. A second scan was obtained after the no treatment period, followed by treatment with cerivastatin, 0.3 mg per day. A third scan was finally obtained.

In year one without treatment, the average increase in heart scan scores was 25%. In year two with cerivastatin, the average increase in heart scan score was 8.8%. In 32 participants who achieved LDL<100 mg/dl on the drug, there was an average modest reduction in heart scan scores of 3.7% (i.e., -3.7%).

Now, that was eye-opening. Why did this small study achieve such startlingly different results from the other two studies that showed relentless progression despite even high doses of Lipitor? That remains unanswered. Was cerivastatin unique among statins? Did the unique two-phase trial design somehow change the outcome by triggering participants to change lifestyle habits after their first scan (since most exhibited an increase in score; they were not "blinded" to their scores). Those questions will remain unanswered, since the drug has been made unavailable. This smal l study had actually been intended to be larger, but was prematurely terminated because of cerivastatin's withdrawal.

This experience is unique, as you can see, compared to the two other studies. But it was also smaller. The results are also different than what I have seen in day-to-day practice when I've seen people treated with statin drugs alone (not cerivastatin, of course): rarely do heart scan scores stop increasing. While slowing does usually occur (18-24% per year rates of annual score increase are very common in people who do nothing but take a statin drug and make modest lifestyle changes), I have personally seen only two people stop their score with this strategy alone. Nobody has ever dropped their score taking a statin alone, in my experience.

You can also see the nature of clinical studies: single or limited interventions instituted in order to control for unexpected or complex effects. If three different treatments are used, then what desirable or undesirable effects, or lack of an effect, is due to which treatment agent?

My experience is that no single treatment stops or reduces heart scan scores. It requires a more rational effort that includes 1) identification of all causes of coronary plaque (e.g., low HDL, high triglycerides, Lp(a), small LDL, deficiency of vitamin D, etc, none of which are substantially affected by statin drugs), and 2) correction of all causes. That simple concept has served us well.

Lou was recovering from his 3rd bypass operation. This third go-round left him weaker, slower, less quick on the rebound. In fact, he was lucky to have survived.

At 71 years old, Lou went a good 15 years since his second bypass, another 10 years prior to his first bypass at age 46.

In the days immediately following Lou's bypass, I had a chance to talk to his son, who stayed at his Dad's bedside while Lou struggled through post-op recovery.

"Did your Dad tell you about why this has happened, what caused his heart disease?" I asked.

"Sort of. He just said I should get checked," Lou's son, Aaron, replied.

"Did he mention the lipoprotein(a) pattern he has?"

"No. He never mentioned anything like that. He just said to get checked."

That's how it gets played out more often than not: Mom or Dad has a heart attack, stents, or (3rd) bypass, the children are told to get checked. Getting "checked" assumes that the doctor knows what to check for.

In Lou's case, the reason why he was in the hospital getting his 3rd (and final) bypass was lipoprotein(a), along with genetically-determined small LDL particles, low HDL, a postprandial (after-eating) disorder, hypertension, and borderline diabetes, not to mention vitamin D deficiency, omega-3 fatty acid deficiency, and marginal thyroid function. (Lou, a retired city employee, had showed only marginal interest in correcting these patterns. While he accepted medications, he proved unwilling to engage in the diet and nutritional supplement strategies required to correct his patterns.)

So Lou's 3rd bypass operation provided a moment of reflection for Aaron to ask: "Could I share the fate of my Dad?" With Lou's combination of genetic patterns, there was at least a 75% likelihood that he did. Sadly, going to his doctor would likely yield little more than a cholesterol panel, a question about smoking, and a prescription for Lipitor.

Just getting "checked" would be, more than likely, a recipe for disaster for Aaron: heart disease in his 40s or 50s. That's why you need to take control over this sad state of affairs and ask--no, insist--that an effort be made to determine whether you might share your parents' fate.

"This diet works great," Don declared. "But I think I've lost too much weight."

At 67 years old and 5 ft. 11 inches, Don began the program weighing 228 lbs (BMI 31.9). Because of high triglycerides, high blood sugar, high c-reactive protein, and excessive small LDL, I instructed Don to eliminate all wheat products from his diet, along with cornstarch and sweets. His intake of lean meats, eggs, vegetables, oils, raw nuts, etc. was unlimited.

Don now weighed 194 lbs, down 34 lbs over 6 months (BMI 27.1). Triglycerides, blood sugar, blood pressure, and well-being had improved dramatically; small LDL, however, had dropped only 30%--still room for improvement.

"My friends say I'm too skinny. They ask if I have cancer!"

I've heard this many times: Someone loses weight in a relatively short period of time and friends and family tell you you're too skinny. "It must be cancer. Nobody loses weight like that."

Unfortunately, many Americans have forgotten what normal looks like. Normal is certainly not a 190-lb, 5 ft 4 in woman, nor is it a 228 lb, 5 ft 11 inch man. But Americans have put on so much weight that the prevailing view of what constitutes "normal" weight has been revised upward. Normal is closer to what we see in old movies from the 1940s and '50s with people like Jimmy Stewart and Donna Reed. That's what we are supposed to look like.

So Don actually remains mildly overweight but is judged as "too skinny," or even cancer-ridden, by friends and family.

Ignore such comments. As you lose pounds and approach a truly desirable weight, realize that you are returning to the normal state, not the vision of "normal" now held by most Americans.

Vitamin D is, without a doubt, the most incredible "vitamin"/prohormone/neurosteroid I have ever encountered. Frankly, I don't know how we got anything accomplished in health pre-D.

Unfortunately, people I meet rarely take their vitamin D in a way that accomplishes full restoration of vitamin D blood levels. It really isn't that tough.

Here's a list of common tripping points with vitamin D:

"I take vitamin D: 1000 units a day."
This is probably the most common mistake I see: Taking a dose that is unlikely to yield a desirable blood level. (We use 60-70 ng/ml of 25-hydroxy vitamin D as our target.) Most men and women require 6000 units per day to achieve this level. There is substantial individual variation, however, with an occasional person needing much more, a rare person requiring as little as 1000 units.

"I bought some vitamin D on sale. They were white tablets."
Time and again, patients in my office who initially have had successful vitamin D replacement, despite being reminded that only oil-based forms should be taken, switch to tablets. While they initially showed a 25-hydroxy vitamin D blood level, for instance, of 67 ng/ml on 8000 units per day with an oil-based capsule, they switch to a tablet form and the next blood level is 25 ng/ml. In other words, tablets are very poorly or erratically absorbed.

I have had people use tablets successfully, however, by taking their vitamin D tablets with a teaspoon of oil, e.g., olive oil. Oil is necessary for full absorption.

"I'm going to Florida. I'll stop my vitamin D because I'm going to lay in the sun."
Wrong. 90% of adults over 40 years old have lost the majority of their ability to activate vitamin D in the skin. A typical response might be an increase in blood level from 25 to 35 ng/ml--a 10 ng increase with a dark brown tan.

There is an occasional person who, with sun exposure, increases blood levels substantially. This can occur in both fair-skinned and dark-skinned people, though I've never seen it happen in an African-American person. The occasional person who maintains the ability to convert vitamin D with sun exposure, or young people, should seasonally adjust their vitamin D dose, e.g., 6000 units winter, 3000 units summer, or some other regimen that maintains desirable blood levels. You can see that monitoring blood levels (we check levels every 6 months for the first 2 years) is crucial: You cannot know what your vitamin D needs are unless you assess 25-hydroxy vitamin D levels.

"I drink plenty of milk. I don't think I need to take vitamin D."
Oh, boy. This is so wrong on so many levels.

First of all, no adult should be drinking plenty of cow's milk. (A discussion for another day.) Second of all, cow's milk averages 70 units of vitamin D, often the D2 form (ergocalciferol), per 8 oz. Even if the FDA-mandated 100 units per day were present, an average adult dose of 6000 units would require 60 glasses of milk per day. Can you say "diarrhea"?

Likewise, other food sources of vitamin D, such as fish (300-400 units per serving) and egg yolks (20 units per yolk), are inadequate. This makes sense: Humans are not meant to obtain vitamin D from food, but from sun exposure over a large body surface area. And this is a phenomenon that is meant to occur only in the youthful, ensuring that nature takes its course and us older folks get old and make way for the young (i.e., unless we intervene by taking vitamin D supplements).

"My doctor said that my vitamin D blood level was fine. It was 32 ng/ml."
Let's face it: By necessity, your overworked primary care physician, who manages gout, hip arthritis, migraine headaches, stomach aches, prostate enlargement, H1N1, depression, etc., is an amateur at nearly everything, expert in nothing. Nobody can do it all and get it right. Likewise vitamin D. The uncertain primary care physician will simply follow the dictates of the laboratory form that specifies "30-100 ng/ml" as the "normal" or "reference range." Unfortunately, the laboratory often quotes population distributions of a lab measure, not an ideal or desirable level.

To illustrate the folly of population distributions of a measure, imagine you and I want to know what women weigh. We go to a local mall and weigh several thousand women. We tally up the results and find that women weigh 172 lbs +/- 25 lbs (the mean +/- 2 standard deviations). (That's true, by the way.) Is that desirable? Of course it isn't. Population average or population distribution does not necessarily mean ideal or desirable.

"My husband's doctor said he should take 4000 units per day. So I just take the same dose."
That would be fine if all adults required the same dose. However, individual needs can vary enormously. A dose that is grossly insufficient for one person may be excessive for another. Once again, vitamin D dose needs can be individualized by assessing 25-hydroxy vitamin levels in the blood.

"I don't need to take vitamin D. I already take fish oil."
I suspect this mistaken belief occurs either because people confuse fish oil with cod liver oil, which does contain some vitamin D. (Cod liver oil is not the best source of vitamin D, mostly because of the vitamin A content; also a discussion for another time), or because they've heard that eating fish provides vitamin D. However, fish oil capsules do not contain vitamin D unless it is added, in which case it should be prominently and explicitly stated on the label.

"I don't have to take vitamin D. It's summer."
For most people I know, if it's a bright, sunny July day, where are they likely to be? In an office, store, or home--NOT lying in the sun with a large body surface area exposed. Also, most people expose no more than 5-10% of surface area in public. I doubt you cut the grass in a bathing suit. Because of modern indoor lifestyles and fashion, the majority of adults need vitamin D supplementation year-round.

I advise everyone that gelcap vitamin D is preferable. Some, though not all, liquid drop forms have also worked. Take a dose that yields desirable blood levels. And blood levels of 25-hydroxy vitamin D are ideally checked every 6 months: in summer and in winter to provide feedback on how much sun activation of D you obtain.

If your doctor is unwilling or unable to perform vitamin D testing, fingerstick vitamin D test kits can be obtained from Track Your Plaque.

My friend, Jimmy Moore of Living La Vida Low Carb, describes his thyroid experience here.

As Jimmy points out, he was looking for a way to jump-start a 50-lb weight loss. In my experience, low thyroid hormone levels ("hypothyroidism") are an exceptionally common cause for weight gain. Correcting even marginal hypothyroidism can facilitate weight loss, often resulting in 10 or more pounds of weight loss within the first month.

Unfortunately, Jimmy's thyroid hormone panel proved normal: TSH 1.3, thyroid hormones free T3 and free T4 in the mid- to upper-half of the reference range.

I say "unfortunately" because it is really an easy, inexpensive, and benign solution for losing weight. (I don't, of course, wish that Jimmy or anyone else develops a thyroid condition. But it really can provide gratifying weight loss results when thyroid function is low.) Jimmy might consider taking his oral temperature first thing in the morning as another means of assessing the adequacy of thyroid function.

Perhaps you will be luckier than Jimmy and have thyroid dysfunction that can be corrected and jump-start your weight loss program. Fingerstick thyroid test kits like the one Jimmy used are available here from Track Your Plaque.

Fat = triglycerides

In other words, eat fat, whether it's saturated, hydrogenated, polyunsaturated, or monounsaturated, and blood levels of triglycerides will go up over the next 6 hours. This remains true if there are carbohydrates in the meal, or if there are NO carbohydrates in the meal. It also remains true if you chronically consume fats.

While fats are the primary determinant of postprandial (after-eating) triglycerides, carbohydrates are the primary determinant of fasting triglycerides.

So, if your triglycerides are high on a fasting cholesterol (lipid) panel, it's most likely because you overconsume carbohydrates.

Thanks to cartoonist Eli Stein, who has generously allowed me to reprint his artwork on these pages. Mr. Stein has published his work in dozens of magazines and newspapers, including the Wall Street Journal, Barron's, and Good Housekeeping. More of his work can be found at Eli Stein Cartoons.

Humans have limited capacity to store carbohydrates. Beyond the glucose and glycogen in our blood and tissues, we have relatively little carbohydrate to draw from in time of energy need. That's why long-distance runners and triathletes have to carry sugar sources to keep blood sugar from plummeting.

Fat, of course, is different. We have virtually unlimited capacity to store energy as fat.

Because we have limited carbohydrate storage capacity, what can the body do with the excessive quantities of carbohydrates that Americans ingest? What becomes of a bagel for breakfast, wheat crackers for snacks, a whole wheat sandwich for lunch, pretzels, and whole wheat pasta that many people eat every day, not to mention the chips, soft drinks, and juices?

Excess carbohydrates are diverted to an interesting metabolic pathway called de novo lipogenesis (DNL). This refers to the liver's ability to make triglycerides from excessive carbohydrates in the diet. Triglycerides are packaged for release into the blood as VLDL. VLDL, in turn, interacts with other lipoproteins, creating small LDL particles, reduced HDL and smaller, less protective HDL. High VLDL will be measured on a standard cholesterol panel as higher triglycerides.

A University of California (Berkeley, San Francisco) group has done much of the work describing DNL.

A diet weighed towards carbohydrates, especially if 50% or greater calories are carbohydrate, is sufficient to provoke plenty of DNL, even in slender people. DNL is a big part of the reason why low-fat (and, thereby, high-carbohydrate) diets result in higher triglycerides. DNL really gets turned on many-fold if the carbohydrates are "simple," rather than "complex."

Overweight people, however, can demonstrate five-fold greater DNL even with lesser quantities of carbohydrate intake (e.g., 40% fat, 46% carbohydrate, 14% protein):

From Schwarz et al 2003. Mean (± SEM) fractional de novo lipogenesis in lean normoinsulinemic (NI), obese NI, and obese hyperinsulinemic (HI) subjects after 5 d of consuming a high-fat, low-carbohydrate diet and in different lean NI and obese HI subjects after 5 d of consuming a low-fat, high-carbohydrate diet. Values with different superscript letters are significantly different.

Excessive carbohydrates, a la standard low-fat diets, are good for nobody. The concept of de novo lipogenesis fills in a theoretical hole that now explains why people who eat carbohydrates have higher triglycerides, VLDL, and, eventually, insulin resistance and diabetes.

I previously posted Gretchen's postprandial diet experiment, in which she consumed a low-fat diet for a day, followed by a low-carbohydrate diet for a day. Grethen monitored blood glucose and triglycerides with fingerstick checks. (Blood glucose can be checked on any widely available glucose monitor; triglycerides can be monitored with the Cardiochek device.)

Let's now discuss what happened.

On the low-carb, high-fat day, there was an initial surge in triglycerides to 250 mg/dl late morning, followed by a secondary peak several hours following dinner. Because fat is mostly triglycerides, Gretchen's high-fat (sausage, bacon, butter, whole-fat yogurt) breakfast provided a large quantity of triglycerides that needed to be absorbed. This generally occurs over approximately 6 hours, varying depending on body weight, how accustomed you are to fat, activity level during the day, the kind of fat in the meal. The high content of saturated fat in Gretchen's high-fat breakfast likely caused the somewhat slower drop in triglycerides over approximately 7 1/2 hours.

As Gretchen herself had noted, triglycerides the following day were lower, a typical low-carb response. Blood sugar throughout showed only minor variation, with only small postprandial increases.

Thus, Gretchen experienced what we'd expect with a low-carb, high-fat diet: an initial high surge in triglycerides, followed by a decline in fasting levels, while blood sugar shows a normal contour.

Now, the more confusing low-fat experience:

Blood glucose makes a striking peak at 200 mg/dl after the low-fat breakfast of pasta and rice, in contrast to the low-carb breakfast. Triglycerides behaved very differently from the low-carb experiment: While there was no initial postprandial surge, there was a late surge developing 6-24 hours later. The late surge continued into the next day, with fasting levels the following morning (210 mg/dl) exceeding the starting triglyceride level (60 mg/dl).

The one potentially confusing aspect of all this is Gretchen's late rise in triglycerides on the low-fat diet. This phenomenon is due to something called de novo lipogenesis, or the liver's conversion of carbohydrates to triglycerides that occurs when an excessive carbohydrate load comes through diet. Because the human body cannot store anything beyond a minor quantity of carbohydrates (as glucose and glycogen), carbohydrates are converted to fats.

Another factor causing the late triglyceride increase is insulin resistance, given the high blood sugar response. When insulin resistance is present, the activity of the enzyme, lipoprotein lipase, is reduced. Less lipoprotein lipase activity allows slower VLDL degradation, allowing VLDL (and thereby triglycerides contained in VLDL) to "stack up" in the blood. Thus, the higher triglycerides late after eating and into the next morning.

One issue to be aware of: Acute responses can differ from chronic responses. In other words, had Gretchen had the luxury (and time and money) to conduct the experiment over, say, 4 weeks, rather than a single day, there would be somewhat different responses. The best data on this come from Dr. Jeff Volek of the University of Connecticut, in which 4 weeks of low-carbohydrate eating modify fasting and postprandial responses over time.

Several conclusions can be made from Gretchen's experience:

1) Low-carb, high-fat acutely generates extravagant postprandial triglyceride responses.
2) Low-fat causes a late triglyceride surge and higher fasting triglycerides.
3) Low-fat leads to high blood sugars and, by implication, diabetes.

Both the low-carb and the low-fat responses are undesirable, both leading to increased risk for heart disease. Which is worse? I believe that low-fat is more destructive, since it leads over time to both high triglycerides and diabetes, while low-carb/high-fat only leads to postprandial triglyceride surges, at least acutely.

How to best balance the responses to reduce risk for heart disease? That's a discussion for future.

Again, my thanks to Gretchen and the substantial amount of effort that went into generating these numbers. More of Gretchens' own writing can be found on her blogs:
http://wildlyfluctuating.blogspot.com
http://www.healthcentral.com/diabetes/c/5068

A Heart Scan Blog reader sent this fascinating description of his wheat-free adventure.

Whenever I discuss this notion of going wheat-free and the incredible health effects that develop, I invariably receive comments or emails saying something like "I eat wheat and feel fine. That can't be true." The problem is that not everybody needs to go wheat-free. 20-30% of people can include wheat in their diet and suffer little more than weight gain, some not at all.

But stories like Michael's (below) are commonplace in my experience. I've had many patients who, at first, refused to believe that wheat exposure might be the underlying cause for health struggles. But they finally give it a try and find that rashes, arthritis, acid reflux, irritable bowel symptoms, mood swings, anger, etc. are miraculously improved or gone.

Anyway, hear what Michael has to tell us:

Dr. Davis,

I want to thank you. I was browsing the web a while back and happened to stumble upon your blog post about wheat belly. The first thing that caught my attention was that I thought you had somehow gotten a photograph of me. The young man you posted an image of looked exactly like me. So I read what you had to say. After reading, I thought "Four weeks isn’t so bad. I think I can handle this."

It has now been nine weeks and all I can say is that I am completely amazed. Let me say first that twice in the past twenty years I have been tested for allergies. The first time I was tested I showed a slight reaction to Timothy Grass, but not enough to cause me any problems. The second testing I did not show a reaction to anything. So, I have always assumed that my chronic sinus problem were due to sensitivities to environmental pollutions. Now I am not so sure. I would like to list for you everything that has happened to me since I eliminated wheat from my diet.

1. I have lost a total of 12 pounds in the last 9 weeks.
2. I have lost 1 ¼ inches of belly fat
3. I have lost a tremendous amount of fat from my neck.
4. My entire life I have had problems with oily hair. I could wash my hair and three hours later I looked as if I hadn’t washed in a week. Now my hair stays clean and soft for two to three days without shampoo.
5. My hair was always flat and stringy. Now it has lots of body.
6. I used to have thick layers of dry skin on my scalp. It would come loose in chunks as large as a fingernail. That dry scalp is gone.
7. I used to have dry flaky skin that seemed to secrete oil. That no longer happens. My skin is now soft and smooth.
8. I have lived with bad acne for at least 35 years. Now it is hard to find a pimple on my body.
9. I have always had to fight dehydration. That is no longer a problem.
10. I used to drink two large cups of coffee every morning just to be able to function. I now have enough energy that I have eliminated caffeine from my diet.
11. I sleep more soundly than ever before and my dreams are clear and vivid.
12. My thought processes are more active and clear than they have ever been.
13. My chronic sinus issue is now a thing of the past.
14. I used to have problems with getting the “shakes” if I had gone more than a couple of hours without eating. It was as if I was suffering from low blood sugar. I would even be afraid that I would pass out. Now all I feel is hunger. I can go all day without eating and never feel in danger of losing consciousness.

Today is Thursday. This past Monday my wife and I were eating out and I ordered a burger without a bun. What I didn’t realize was that the burger would arrive covered in onion rings. I knocked the mountain of onion rings onto the plate but there were still a couple that were embedded in the cheese. I decided, what the hell, a couple of onion rings shouldn’t make that much of a difference. I will not make that mistake again anytime soon. Within 30 minutes I felt like there was a steel spike going through my left eye socket. I don’t remember ever being in that much pain. My sinuses were exploding. This morning, as I write this, I still feel the vestiges of that pain. Just enough that I know it is there. But after two and a half days, I am at least able to function again.

I owe you a debt of gratitude. You may have just saved my life. In the very least you have given me the means to improve my life in ways that I never thought possible.

Thank you so much,
Michael B.

Now, if wheat exposure can do that in Michael, what damage can it do in other people?

Personally, I previously experienced many of the same symptoms that Michael suffered, all gone with wheat elimination.

My advice: If you have any inkling that you might have a wheat sensitivity, make a New Year's resolution to stay wheat-free for 4 weeks and see whether you can feel any difference. Not everybody will, but many will be telling us about the dramatic health turnarounds they experienced.

Lipoprotein lipase can make the difference between having heart disease and not having it. Having sky-high triglycerides or normal triglycerides. It can mean dinner hanging around for over 12 hours in the bloodstream, rather than the usual 4-6 hours.

We use a lot of niacin in the Track Your Plaque program.

Niacin:

--Increases HDL and shifts HDL towards the large, protective fraction

--Reduces small LDL--In fact, niacin is the best treatment we have to reduce small LDL after wheat elimination and carbohydrate reduction.

--Reduces fasting and postprandial (after-eating) triglycerides

--Reduces heart attack risk by 20-28%--even as a sole agent.

But . . . niacin also triggers higher blood sugar because it partially blocks the effects of insulin (insulin "resistance").

While the net effect of niacin remains positive, the provocation of insulin resistance is not such a good thing. Can it be minimized or eliminated?

Yes, through exercise. Here's one interesting observation in obese (BMI 34.0), sedentary men given placebo, exercise, niacin (1500 mg Niaspan, once per day), or niacin + exercise:

From Plaisance et al 2008.

Blood was drawn following a high-fat meal challenge. (Yes, a high-fat challenge, not a carbohydrate challenge. In this study, there were only 17 grams carbohydrates in the test meal, but 100 grams fat. More on this in future.) Exercise consisted of walking for 50 minutes at a moderate pace one hour prior to the meal challenge.

You can see from the graph that exercise partially corrected the increased insulin level provoked by niacin.

Judging from this and other studies, exercise can help minimize the insulin-blocking effects of niacin. It doesn't take much, just moderate exercise for at least 30 minutes.

Adequate sleep can also help, since sleep deprivation is a potent trigger for insulin resistance, only worsened in the presence of niacin. Vitamin D supplementation to achieve desirable blood levels (which I define as 60-70 ng/ml) is also an effective means to minimize this effect.

Niacin vs. low-carb weight loss

Explosive plaque growth

Dr. Cannell on "How much vitamin D?"

End-stage vitamin D deficiency

"Instant" reversal with fasting?

Study review: yet another Lipitor study

Dr. Cannell on vitamin D and cancer

"Yes, Johnnie, there really is an Easter bunny"

Diabetes: controlled or . . . cured?

Study review: cerivastatin

Family lessons

Look like Jimmy Stewart

Getting vitamin D right

Jimmy Moore's thyroid adventure

What's that in your mouth?

De Novo Lipo-what?

Gretchen's postprandial diet experiment II

A wheat-free 2010

Lipoprotein lipase and you

If you take niacin, you must exercise