The Framingham risk score is a risk-assessment tool that has become the basis for heart disease prediction used by practicing physicians.

The Framingham system determines that:

· 35% of the adult population in the U.S., or 70 million, is deemed “low-risk.” Low-risk is defined as the absence of standard risk factors for heart disease; low-risk persons have no more than a 1-in-20 chance (5%) of dying from heart disease in the next 10 years. Physicians are advised by the American Heart Association (AHA) and its experts that no specific effort at risk reduction is necessary.

· 25%, or approximately 50 million, U.S. adults are deemed “high-risk,” based on the presence of 2 or more risk factors. High-risk persons experience a 20%-30% likelihood of heart attack in the next 10 years. People at high-risk are candidates for preventive efforts according to the guidelines set by the Adult Treatment Panel-III (Expert Panel on Detection, Evaluation, and Treatment of High Blood Cholesterol in Adults; ATP-III) for cholesterol-reducing statin drug treatment and for “lifestyle-modifying” advice.

· The remaining 40% of the adult population, or 80 million people, are judged “intermediate-risk,” with the likelihood of heart attack between 5-20% over the next 10 years. This group should receive preventive advice and might be considered for statin drug treatment.

Let’s do some arithmetic. By the above scheme, the low-risk population will experience 3,500,000 heart attacks over the next decade, or 350,000 heart attacks per year.

The intermediate-risk population (without preventive treatment) will experience 8,000,000 heart attacks over the 10-year time period, or 800,000 per year.

The high-risk population, the group most likely to receive standard advice on diet, exercise, and be prescribed statin cholesterol drugs, will have their risk reduced by 35% by preventive efforts over the 10-year period. This means that heart attacks over 10 years will be reduced from 12,500,000 to 8,125,000 by standard prevention efforts, or reduced to 812,500 heart attacks per year.

These numbers are no secret. They are well known facts that have simply come to be accepted by the medical community. In other words, the standard approach to heart attack prediction makes the fact that two million people will succumb to cardiovascular events in the next year no mystery. This exercise in prediction is coldly accurate w Cureality | Real People Seeking Real Cures

For the sake of convenience: Commercial sources of prebiotic fibers

3. May 2015 William Davis (0)

Our efforts to obtain prebiotic fibers/resistant starches, as discussed in the Cureality Digestive Health Track, to cultivate healthy bowel flora means recreating the eating behavior of primitive humans who dug in the dirt with sticks and bone fragments for underground roots and tubers, behaviors you can still observe in extant hunter-gatherer groups, such as the Hadza and Yanomamo. But, because this practice is inconvenient for us modern folk accustomed to sleek grocery stores, because many of us live in climates where the ground is frozen much of the year, and because we lack the wisdom passed from generation to generation that helps identify which roots and tubers are safe to eat and which are not, we rely on modern equivalents of primitive sources. Thus, green, unripe bananas, raw potatoes and other such fiber sources in the Cureality lifestyle.

There is therefore no need to purchase prebiotic fibers outside of your daily effort at including an unripe green banana, say, or inulin and fructooligosaccharides (FOS), or small servings of legumes as a means of cultivating healthy bowel flora. These are powerful strategies that change the number and species of bowel flora over time, thereby leading to beneficial health effects that include reduced blood sugar and blood pressure, reduction in triglycerides, reduced anxiety and improved sleep, and reduced colon cancer risk.

HOWEVER, convenience can be a struggle. Traveling by plane, for example, makes lugging around green bananas or raw potatoes inconvenient. Inulin and FOS already come as powders or capsules and they are among the options for a convenient, portable prebiotic fiber strategy. But there are others that can be purchased. This is a more costly way to get your prebiotic fibers and you do not need to purchase these products in order to succeed in your bowel flora management program. These products are therefore listed strictly as a strategy for convenience.

Most perspectives on the quality of human bowel flora composition suggest that diversity is an important feature, i.e., the greater the number of species, the better the health of the host. There may therefore be advantage in varying your prebiotic routine, e.g., green banana on Monday, inulin on Tuesday, PGX (below) on Wednesday, etc. Beyond providing convenience, these p be no cleaner than tap water. Given some bottled water company's failure to adhere to the industry's own purity standards, Americans cannot take the quality of bottled water for granted. Indeed, test results like those presented in this study may give many Americans reason enough to reconsider their habit of purchasing bottled water and turn back to the tap."

For these reasons, as well as environmental reasons (plastic bottles filling up dumpsites), I think it is becoming clearer and clearer that bottled water is something we should only use in a pinch, not habitually.

Can CRP be reduced?

13. November 2008 William Davis (17)

The JUPITER study has sparked a lot of discussion about c-reactive protein, or CRP.

If we follow the line of reasoning that prompted this study, reducing CRP may correlate with reduction of cardiovascular events. Thus, in the JUPITER study, Crestor 20 mg per day reduced cardiovascular events by nearly half.

From a CRP perspective, starting values were 4.2 mg/dl in the Crestor group of the trial, 4.3 mg/dl in the placebo group. After 24 months, CRP in the Crestor group was 2.2 mg/dl, 3.5 mg/dl in the placebo group, representing a 37% reduction.

Now, in our Track Your Plaque program--an experience that has yielded the virtual ELIMINATION of cardiovascular events--we aim for a CRP level of 1.0 mg/dl or less, ideally 0.5 mg/dl or less. The majority of people achieve these ambitious levels. In fact, it is a rare person who does not.

How do we achieve dramatic reductions in CRP? We use:

--Weight loss through elimination of wheat and cornstarch--This yields impressive reductions.

--Vitamin D--I have no doubt whatsoever of vitamin D's capacity to exert potent anti-inflammatory effects. I am not entirely sure why this happens (enhanced sensitivity to insulin, reduced expression of tissue inflammatory proteins like matrix metalloproteinase and others, etc.), but the effect is profound.

--Elimination of junk foods--like candies, cookies, pretzels, rice cakes, potato chips, etc.

--Exercise--Amplifies the benefits of diet on CRP reduction.

--Not allowing saturated fats to dominate--Yes, yes, I know. The demonization of saturated fat conversation has been largely replaced by the Taubesian saturated fat has not been confidently linked to heart disease conversation. But controlled feeding studies, in which a single component of diet is manipulated (e.g., saturated vs. monounsaturated vs. polyunsaturated fat) have clearly shown that saturated fats do activate several factors in the inflammatory response.

--Fish oil--Though I am a firm believer in the huge benefits of omega-3 fatty acid supplementation/restoration, the anti-inflammatory effect is modest from a CRP perspective. However, there are anti-inflammatory benefits beyond that of simple CRP (via normalization of eicosanoid metabolism and other pathways).

--Weight loss--A BIG effect. Weight loss drops CRP like a stone. The CRP-reducing effect is especially large if achieved via carbohydrate reduction.

Of course, this is much more complicated than taking a pill. But it is effective to achieve health benefits outside of cardiovascular risk, is enormously useful as part of a weight loss effort, and doesn't cost $1400 per year like Crestor.

In short, if CRP reduction is the goal, it certainly does not have to involve Crestor.

CRP and Jupiter

11. November 2008 William Davis (15)

What is C-reactive protein (CRP)?

It is a blood-borne protein that originates in the liver and serves as an index of the body's inflammatory state. It is triggered by yet another inflammatory signal molecule, interleukin-6.

What triggers this cascade of inflammatory markers? Any inflammatory stimulus, such as being overweight, lack of exercise, vitamin D deficiency, viral illness no matter how trivial, any inflammatory disease like arthritis, small LDL, high triglycerides, poor diet rich in processed foods, resistance to insulin, any injury, incipient diabetes, hidden cancer, lack of education (no kidding), etc.

In other words, many, many conditions, from trivial to serious, trigger increased inflammatory markers like CRP.

A recent analysis (Genetically elevated C-reactive protein and ischemic vascular disease of persons with genetically elevated levels of CRP) suggests that CRP does not, by itself, cause atherosclerotic disease. CRP is therefore simply a marker for conditions that heighten inflammatory responses.

The AstraZeneca people sponsored the enormous JUPITER study of the statin drug, Crestor, that has been causing a stir, mostly glowing pronouncements of how the world would be a better place if everyone took Crestor.

In JUPITER, nealry 18,000 people (men 50 years and over, women 60 years and over) took 20 mg per day Crestor for two years. Participants all had starting LDL cholesterols in the "normal" range of no higher than 130 mg/dl and elevated CRP of 2 mg/dl or greater.

Crestor treatment resulted in 44% reduction in nonfatal heart attack, nonfatal stroke, hospitalization for unstable angina, revascularization (bypass surgery, stents) and death from cardiovascular causes. The reduction in nonfatal heart attack was most marked at 55%.

Admittedly, these are impressive results. Benefits held true for both males and females. At the very least, JUPITER should put to rest some of the fringe arguments that statins do not reduce cardiovascular events. They do. There is no sense in arguing against that. While we might argue about the value of statins in various subsets of people, there is no doubt that they do indeed exert a significant effect.

However, contrary to the hype and broad pronouncements of my colleagues, my concerns are:

1) Rather than shotgun the inflammatory response with a statin drug regardless of cause, doesn't it make more sense to ask why a specific individual has an increased CRP in the first place? For instance, if the answer is vitamin D deficiency, doesn't correction of the deficiency make more sense? (Vitamin D by itself reduces CRP around 60%--more than statin drugs.) Not to mention you obtain all the extraordinary benefits of vitamin D restoration, such as reduced cancer risk, increased bone density, relief from winter "blues," rise in HDL, etc. How about junk foods, obesity, and unrelated inflammatory conditions? Would we therefore indirectly be treating obesity with Crestor?

2) Crestor 20 mg per day, contrary to the study and to many statin studies, will not be tolerated for long by the majority. Muscles aches are not common--they are inevitable, sometimes incapacitating. While JUPITER showed 15% of both treatment and placebo groups experienced muscle effects--no different--this is wildly contrary to real life.

3) While there was a 55% reduction in the number of heart attacks, there continued to be a substantial number of heart attacks in the Crestor treatment arm. Clearly, reduction of CRP with Crestor, while helpful, is not a cure.

I view studies like JUPITER as simply an interesting piece of semi-scientific evidence, tainted to an unknown degree by commercial interests (including those of Dr. Paul Ridker, one of the principal investigators). It is not a mandate to use Crestor carte blanche in people with elevations of CRP.

My interpretation of these data in a practical sense is that Crestor 20 mg per day as sole therapy is useful in a disinterested, non-compliant patient who is unwilling to make substantial changes in lifestyle and nutrition. Helpful? Yes, but hardly an invitation for the world to take Crestor.

I believe that doesn't include any of the readers of this blog.

Nutritional approaches: Large vs. small LDL

11. November 2008 William Davis (13)

It is now a rare person who does not have at least some proportion of their LDL cholesterol as small particles. I estimate that, of the people who come to the office or report their data on the Track Your Plaque website, 90% have at least 40-50% small LDL particles. Some people have 100% small LDL particles. The sample NMR lipoprotein report shows the result for someone with a severe small LDL pattern (the tallest red bar labeled 1354 nmol/L, compared to the 74 nmol/L of the tiny red bar of large LDL.)

The nutritional approach for small vs. large LDL differs. Small LDL particles are most sensitive to carbohydrate intake; large LDL particles are more sensitive to saturated fats.

The conventional "heart healthy" diet that restricts saturated fat reduces large LDL but exerts no effect on small LDL. Thus, a diet that is restricted in saturated fat and weighed more heavily with "healthy whole grains" triggers small LDL particles. Followers of the conversations here recognize that small LDL particles are flagrant triggers for coronary plaque; they have, in fact, become the number one most common cause for heart disease in the U.S.

When you have lipoproteins tested, you can therefore gauge the likely result obtained when specific dietary changes are made. Follow the low saturated fat advice, large LDL will drop modestly, but small LDL skyrockets.

(Image courtesy Liposcience, Inc.)

Eliminate sugars, wheat, and cornstarch and you will see small LDL plummet (along with total LDL).

As an aside, my personal observation is that the "need" for statin cholesterol drugs can be reduced dramatically by paying attention to this important LDL size distinction.

Factory hospitals

8. November 2008 William Davis (8)

Twenty years ago, the American farming industry experienced a dilemma: How to grow more soybeans, corn, or wheat from a limited amount of farmland, raise more cattle and hogs in a shorter period of time, fatter and ready for slaughter within months rather than years?

(Image courtesy Wikipedia)

The solution: Synthetically fertilize farmland for greater crop yield; “factory farms” for livestock in which chickens or pigs are crammed into tiny cages that leave no room to turn, cattle packed tightly into manure-filled paddocks. As author Michael Pollan put it in his candid look at American health and eating, The Omnivore’s Dilemma:

“To visit a modern Concentrated Animal Feeding Operation (CAFO) is to enter a world that for all its technological sophistication is still designed on seventeenth-century Cartesian principles: Animals are treated as machines—“production units”—incapable of feeling pain. Since no thinking person can possibly believe this anymore, industrial animal agriculture depends on a suspension of disbelief on the part of the people who operate it and a willingness to avert one’s eyes on the part of everyone else. . .”

Pollan goes on to argue that the cultural distance inserted between the brutal factory farm existence of livestock and your dinner table permits this to continue:

“. . .the life of the pig has moved out of view; when’s the last time you saw a pig in person? Meat comes from the grocery store, where it is cut and packaged to look as little like parts of animals as possible. The disappearance of animals from our lives has opened a space in which there’s no reality check on the sentiment or the brutality . . .”

The same disconnect has occurred in healthcare for the heart. The emotional distance thrust between the hospital-employed primary care physician, the procedure-driven cardiologist, the crammed-into-a-niche electrophysiologist (heart rhythm specialist) or cardiothoracic surgeon whose principal concerns are procedures—with an eye always towards litigation risk—mimics factory farms that now litter the landscape of the Midwest. The hospitals and doctors who deliver the process see us less as human beings and more as the next profit opportunity.

The “factory hospital” has allowed the subjugation of humans into the service of procedural volume, all in the name of fattening revenues. Never mind that people are not (usually) killed outright but subjected to a succession of life-disrupting procedures over many years. But whether livestock in a factory farm or humans in a factory hospital, the net result to the people controlling the process is identical: increased profits.

The system doesn’t grow to meet market demand, but to grow profits. The myth that allows this growth is perpetuated by the participants who stand to gain from that growth.

See hospitals for what they are: businesses. Despite most hospitals retaining "Saint" in their name, there is no longer anything saintly or charitable about these commercial operations. They are ever bit as profit-seeking as GE, Enron, or Mobil.

Medicare and The Law of Unintended Consequences

5. November 2008 William Davis (6)

This post carries on the line of conversation begun in The Origins of Heart Catheterization: Part I and Part II.

While Dr. Sones labored in the relative obscurity of his catheterization laboratory, the American public was experiencing a crisis in healthcare availability, particularly among the over-65 age group. The population of elderly in the U.S. was growing rapidly. Between 1950 and 1963, their ranks grew from 12 million to 17.5 million. The cost of hospital care was also increasing 6.7% annually, several times the rate of increase in the cost of living of the time. From 1950 to the day of Dr. Sones’ discovery, the average cost for a day in the hospital jumped from $29 to $40. As a result, private health insurance carriers were forced to increase rates, driving premiums higher and farther out of reach for many. Half of all elderly were uninsured. Many feared that, while the sophistication of medical services advanced, healthcare was becoming increasingly unavailable to many, perhaps most, Americans.

The pivotal contribution that ignited wide dissemination of healthcare technology didn’t come from a physician, nor someone in healthcare. It was spurred by a nearly-forgotten bureaucrat. Without the behind-the-scenes laboring of this one man, the present healthcare system might be quite different.

It was largely the work of Nelson H. Cruikshank, an ordained Methodist minister with a Master of Divinity degree and veteran of battling for rights of the elderly and poor deprived of health care. For 10 years, Cruikshank served as director of the AFL-CIO's Social Security Department and had been instrumental in getting the Social Security Disability act passed. Working on the side of organized labor but maintaining the public demeanor of a church pastor, Cruikshank gained a reputation as a fighter for the working man, one who didn’t back down from a political brawl. In an interview regarding the question of corporate-retained earnings for capital investment, he blasted the practice, calling it "taxation by corporation without representation. Through prices paid for consumer goods, buyers are providing capital for industries over which they have no control and from which they receive no dividends” (Time Magazine, Dec. 20, 1948).

For years, Cruikshank lobbied tirelessly on behalf of American unions to bring the new national healthcare bill, known as Medicare, to a vote on the floor of Congress. Numerous efforts at a national program had languished for a decade before Medicare was drafted, and the Medicare legislation remained bottlenecked for years in committees. Cruikshank’s relentless and forceful persuasion was instrumental in finally bringing the bill to a vote. Among the most vocal opponents Cruikshank parried was the American Medical Association (AMA), terrified that the new program would lead to loss of control over healthcare delivery and reimbursement. The AMA labeled Medicare "the most deadly challenge ever faced by the medical profession."

Cruikshank proved how tough he was when he faced off with Dr Morris Fishbein, then president of the AMA, in a radio debate. Oscar R. Ewing, attorney and Democratic political organizer under the Truman administration, offered these reminiscences of the debate:

“Dr. Fishbein described the horrible confusion that existed in the [government-run] British Health Service that had recently been established in Britain. He told of the utter confusion that he found existed when he was in England a few weeks previously; that there were long queues in every doctor's office, that doctors were overburdened with paper work; that a mother who wanted an extra allowance of milk for her sick child had to get a doctor's prescription for it and then go to the Health Department for permission to buy the milk. Dr. Fishbein painted a picture of complete confusion.

“After Dr. Fishbein had described all these horrible details he found existing when in England a few weeks earlier, Mr. Cruikshank pulled out this particular diary [published in a nationally-syndicated column called “Dr. Fishbein's Diary” ] of Dr. Fishbein in which he described his last visit to London. He had arrived in London Friday morning and that afternoon had gone out to spend the weekend with Lord and Lady so-and-so at their country place; that he'd come back to London Monday morning, had stopped by the Health Department to pick up some papers, and had gone on to catch the noon plane for Paris. So the questioner then asked, "Well, is your appraisal of the British Health Service based on those few hours in London?" The question was a stinger and pretty much discredited Dr. Fishbein.”

(Interview by Mr. J.R. Fuchs, April 29, 1969; Harry S. Truman Library Archives)

Cruikshank went on to point out that Dr. Fishbein had indeed never visited the offices of British general practitioners and had spent his brief stay in the company of British aristocracy, attending the Olympics, then making the rounds of Parisian night clubs. Fishbein stumbled through the remainder of the interview, trying unsuccessfully to cover up his gaff. Dr. Fishbein was forced out of his post as AMA president by his peers shortly following the humiliating episode.

Largely due to the years of behind-the-scenes maneuvering by Mr. Cruikshank, on July 30, 1965, President Lyndon Johnson signed the Social Security Amendment that enacted the Medicare program. The legislation that survived into law included Medicare Part A, the portion of the program providing payment for hospital-based diagnostic and treatment services, and Medicare Part B, allowing payment for office-based services and outpatient diagnostic tests.

Finally, after decades of political battles, a national healthcare bill had been passed. Although benefits were restricted to only those eligible for Social Security benefits, it represented a start, a first step toward greater access to healthcare for the broader American public.

At first, the full implications of the Medicare program were not apparent. But as healthcare technology advanced, including that sparked by Sones’ innovation in coronary imaging, Medicare, much as engineered in large part by Nelson Cruikshank, proved a bonanza of payment for heart procedures. Medicare also set the pace for the payment for procedures by non-government, private health insurance.

Thus the stage was set. Thanks to Medicare, over the next 40 years cardiovascular healthcare services, yielding generous revenue for practitioners and hospitals, exploded on the scene, much to the surprise of many, including the AMA. When then president of the American College of Cardiology, Dr. Charles Fisch, was asked how the passage of Medicare affected cardiology, he replied, “It made cardiologists rich, as simple as that” (American Cardiology: The History of a Specialty and Its College, W. Bruce Fye, MD). Indeed, from its introduction in 1965 to 1980, Medicare payments for health claims ballooned 10-fold from $9.6 billion to $105.7 billion, a substantial portion of which went to pay for cardiology claims.

Little did Nelson Cruikshank, ministerial defender of the working man, anticipate that the Medicare he helped engineer would prove to be the catalyst for explosive growth of the modern cardiovascular healthcare system. Ironically, the program of healthcare-for-all that Cruikshank envisioned has, over the last 40 years, soured into a self-serving system that has been corrupted by the profit motive.

In too many instances, it’s a system that uses the working man as its victim, rather than its beneficiary.

pe for weight gain. By swapping out high carbohydrate grain foods that cause spikes in insulin with much lower carbohydrate foods, insulin release is subdued and allows the body to release fat.

1. Swap wheat-based flour with almond flour/meal

One of the most dubious grain offenders is modern wheat. Replace wheat flour with naturally wheat-free, lower carbohydrate almond flour.
Almond flour contains a mere 12 net carbs per cup (carbohydrate minus the fiber) with 50% more filling protein than all-purpose flour.
Almond flour and almond meal also offer vitamin E, an important antioxidant to support immune function.

2. Swap potatoes and rice for cauliflower

Replace high carb potatoes and pasta with vitamin C packed cauliflower, which has an inconsequential 3 carbs per cup.
Try this food swap: blend raw cauliflower in food processor to make “rice”. (A hand held grater can also be used). Sautee the “riced” cauliflower in olive or coconut oil for 5 minutes with seasoning to taste.
Another food swap: enjoy mashed cauliflower in place of potatoes. Cook cauliflower. Place in food processor with ½ a stick organic, grass-fed butter, ½ a package full-fat cream cheese and blend until smooth. Add optional minced garlic, chives or other herbs such as rosemary.

3. Swap pasta for shirataki noodles and zucchini

Swap out carb-rich white pasta containing 43 carbs per cup with Shirataki noodles that contain a few carbs per package. Shirataki noodles are made from konjac or yam root and are found in refrigerated section of supermarkets.
Another swap: zucchini contains about 4 carbs per cup. Make your own grain free, low-carb noodles from zucchini using a julienne peeler, mandolin or one of the various noodle tools on the market.

Lisa Grudzielanek, MS,RDN,CD,CDE
Cureality Nutrition Specialist

The Framingham Crap Shoot

For the sake of convenience: Commercial sources of prebiotic fibers

Can CRP be reduced?

CRP and Jupiter

Nutritional approaches: Large vs. small LDL

Factory hospitals

Medicare and The Law of Unintended Consequences

Not so fast. Don’t make this mistake when going gluten free!

3 Foods to Add to Your Next Grocery List

3 Band Exercises for Great Glutes