Fat Head: Tom Naughton's manifesto for low-carb eating

12. March 2010 William Davis (16)
I just got back from Jimmy Moore's low-carb cruise to the Bahamas.

Among the many interesting people I met on the cruise was the creator of the documentary film, Fat Head, Tom Naughton.

Tom brings both creative insights into low-carbohydrate eating as well as humor. Low-carb eating can be a pretty contentious issue, but Tom made it fun. He will make you laugh about many of the odd notions we have about diet.

Among the best parts of Fat Head is Tom's portrayal of the effects of carbohydrates on insulin and fat metabolism:






Fat Head joins the ranks of films like Food, Inc, that make nutrition information entertaining. For anyone interested in a unvarnished look at diet, weight loss, along with a few laughs along the way, Tom Naughton's Fat Head is worth viewing.

Oatmeal: Good or bad?

11. March 2010 William Davis (67)

You've heard it before: oatmeal reduces cholesterol. Oatmeal producers have obtained permission from the FDA to use a cholesterol-reducing claim. The American Heart Association provides a (paid) endorsement of Quaker Oats.

I've lost count of the times I've asked someone whether they ate a healthy breakfast and the answer was "Sure. I had oatmeal."

Is this true? Is oatmeal heart healthy because it reduces LDL cholesterol?

I don't think so. Try this: Have a serving of slow-cooked (e.g., steel-cut, Irish, etc.) oatmeal. Most people will consume oatmeal with skim or 1% milk and some dried or fresh fruit. Wait an hour, then check your blood sugar.

If you are not diabetic and have a fasting blood sugar in the "normal" range (<100 mg/dl), you will typically have a 1-hour blood glucose of 150-180 mg/dl--very high. If you have mildly increased fasting blood sugars between 100 and 126 mg/dl, postprandial (after-eating) blood sugars will easily exceed 180 mg/dl. If you have diabetes, hold onto your hat because, even if you take medications, blood sugar one hour after oatmeal will usually be between 200 and 300 mg/dl.

This is because oatmeal is converted rapidly to sugar, and a lot of it. Even if you were to repeat the experiment with no dried or fresh fruit, you will still witness high blood sugars in these ranges. Do like some people and pile on the raisins, dried cranberries, or brown sugar, and you will see blood sugars go even higher.

Blood sugars this high, experienced repetitively, will damage the delicate insulin-producing beta cells of your pancreas (glucose toxicity). It also glycates proteins of the eyes and vascular walls. The blood glucose effects of oatmeal really don't differ much from a large Snickers bar or bowl of jelly beans.

If you are like most people, you too will show high blood sugars after oatmeal. It's easy to find out . . . check your postprandial blood sugar.

In past, I recommended oat products, specifically oat bran, to reduce LDL, especially small LDL. I've changed my mind: I now no longer recommend any oat product due to its blood sugar-increasing effects.

Better choices: eggs, ground flaxseed as a hot cereal, cheese (the one dairy product that does not excessively trigger insulin), raw nuts, salads, leftovers from last evening's dinner.

Mustard: Super health food?

6. March 2010 William Davis (32)
Could mustard--yes, the yellow condiment you smear on hot dogs--be a super heart healthy food in disguise?

Consider that mustard contains:

Vinegar

Turmeric

No appreciable sugar


The vinegar slows gastric emptying, resulting in slower absorption of any carbohydrates and a reduced glucose area-under-the-curve. Of the little fats contained (about 3 grams per 1/4 cup), most are desirable monounsaturates. Mustards are relatively rich in selenium, with 20 mcg per 1/4 cup, helpful for protection against cancer and thyroid disease, and magnesium, 31 mg per 1/4 cup.

Turmeric is added to most mustards. One of the constituents of turmeric, curcumin, the substance that confers the bright yellow color, has been a focus of interest for its anti-inflammatory effects. Curcumin has been documented to reduce activity of the inflammatory enzymes cyclooxygenase-2 (COX-2), lipoxygenase, and reduce activity of inflammatory signal molecules, tumor necrosis factor-alpha (TNF-a), interleukin (IL)-1,2,6,8, and 12, and monocyte chemoattractant protein (MCP). Curcumin also has been shown to reduce LDL oxidation, a potentially important step in atherosclerotic plaque formation. Turmeric is used as a tea by Okinawans. (Hmmmm . . . )

Turmeric content of mustard can vary, of course. Likewise, sugar content. Look for mustards that are not sweetened, so avoid honey mustard in particular. Look for hot, brown, horseradish, Dijon, etc. If there is a downside to mustard, it's sodium content, though the 709 mg per 1/4 cup should only be a problem for those who are sodium-sensitive (African Americans, in particular).

So perhaps mustard isn't exactly a super health food. But it may have some bona fide health effects and should be used generously especially if you are concerned about blood sugar and inflammatory phenomena.

Exercise and blood sugar

5. March 2010 William Davis (30)
There is no doubt that exercise yields benefits across a spectrum of health: reduced blood pressure,  reduced inflammation, reduced blood coagulation, better weight control, stronger bones, less depression, reduced risk for heart attack.

Exercise also influences blood sugar. Diabetics understand this best: Exercise reduces blood sugar 20, 30, 50 or more milligrams. A starting blood sugar, for instance, of 160 mg/dl can be reduced to 80 mg/dl by jogging or riding a bicycle. (I recently had brunch at an Indian restaurant with my family. Blood sugar one-hour postprandial: 134 mg/dl. I was sleepy and foggy. I got on my stationary bike and pedalled at a moderate clip for 60 minutes. Blood sugar: 90 mg/dl.)

Could the reduction of blood sugar with exercise be THE reason that exercise and physical activity provide such substantial benefits?

Think about it. Reduced blood sugar:

1) Reduces risk for future cardiovascular events.
2) Reduces glycation of proteins, i.e., reduced glucose binding to proteins like the ones in artery walls and the lenses of your eyes.
3) Reduces blood coagulation
4) Reduces endothelial dysfunction (abnormal artery constriction that leads to atherosclerosis)

This might explain why it doesn't require high levels of aerobic activity to derive benefit from exercise, since even modest efforts (e.g., a 15-minute walk after eating) reduce blood sugar substantially.

The incredible 33-year, 18,000-participant Whitehall study tells us that a postprandial (after-eating) blood sugar of an impossibly-difficult 83 mg/dl is required to erase the excess cardiovascular risk of blood sugar. Could this simply be telling us that physical activity or exercise is required to suppress blood sugars to these low levels?

It makes me wonder if an index of the adequacy of exercise is your post-exercise blood glucose.

The most important weight loss tool

4. March 2010 William Davis (15)

Question: What is the most effective tool available to help you lose weight? 


A pedometer (walk 10,000 steps, etc.)?

A treadmill? 




A bicycle?






No. None of the above. 

The most important tool you can use to achieve weight loss is your glucose monitor:



Timing of blood sugars

3. March 2010 William Davis (5)
Because different foods generate different blood sugar (glucose) responses, the timing of your blood sugar is an important factor to consider.

This question has come up a number of times. Commenters have asked whether the one-hour postprandial glucose is timed with the start of the meal or the conclusion of the meal.

In my view, if we simply ignored all aspects of meal composition, then blood glucose should be obtained one hour after the conclusion of a meal. This is because most mixed meals (i.e., mixed in composition among proteins, fats, and carbohydrates) yield peak blood glucose levels at 60-90 minutes after consumption. Timing blood glucose to 60 minutes after the conclusion of a meal puts the sample right about at the peak.

But this is an oversimplification. For instance, here is the blood glucose behavior after so-called "complex" carbohydrates wheat bread, rye bread, rye made with beta glucan, and whole wheat pasta (50 grams carbohydrates each) in slender, healthy volunteers, mean age 29 years:


From Juntunen et al 2002

Note that blood glucose peaks at 35 minutes postprandial. (To convert glucose in mmol/L to mg/dl, multiple by 18. Thus, whole wheat bread increased blood glucose from 94 mg/dl to 122 mg/dl. Also note the lower peak glucose for pasta, but sustained higher glucose levels hours later.)

In another study, older (mean age 64 years), overweight (BMI 27.9) females with diabetes were given 50 grams carbohydrate, 50 grams carbohydrate with olive oil, or 50 grams carbohydrate with butter:


From Thomsen et al 2003. Control meal of soup plus 50 g carbohydrates ({blacktriangledown}), the control meal plus 80 g olive oil ({circ}), and the control meal plus 100 g butter (•).

In this experience, note that postprandial glucose peaks 60-120 minutes after the meals (consumed within 10 minutes), delayed more when either oil is included. Blood glucose started at 144 mg/dl and peaked as high as 230 mg/dl with carbohydrates only; peaks were reduced (along with AUC) when oil was included. (Note the differential effect, olive oil vs. butter.)

These two sets of observations give you a range of blood glucose behavior. One side lesson: Carbohydrates should never consumed by themselves, else you will pay with a high blood sugar (not to mention the hypoglycemic response later for many).

Psssst . . . There's sugar in there

1. March 2010 William Davis (13)
You non-diabetics who check your postprandial blood sugars already know: There are hidden sources of sugar in so many foods.

By now, everybody should know that foods like breakfast cereals, breads, bagels, pretzels, and crackers cause blood sugar to skyrocket after you eat them. But sometimes you eat something you thought was safe only to find you're showing blood sugars of 120, 130, 150+ mg/dl.

Where can you find such "stealth" sources of sugars that can screw up your postprandial blood sugars, small LDL, inflammation, blood pressure, and cause you to grow visceral fat? Here's a few:

Balsamic vinaigrette
Many commercially-prepared balsamic vinaigrettes, especially the "light" varieties, have 3 or more grams carbohydrates per tablespoon. Generous use of a sugar-added vinaigrette can therefore provide 12+ grams carbs. (Some, like Emeril's and Wish Bone, also contain high-fructose corn syrup.)

Hamburgers
I learned this lesson the hard way by taking my blood sugar after having a hamburger, turkey burger, or vegetarian burger (without bun): blood sugar would go way up. The effect is due to bread crumbs added to the meat or soy.

Tomato soup
If it were just tomatoes, it would still be somewhat high in sugars. But commercially-prepared tomato soup often contains added high-fructose corn syrup, sucrose, and wheat flour, bringing sugar totals to 12 to 20+ grams per half-cup. A typical 2-cup bowl of tomato soup can have upwards of 80 grams of sugar.

Granola
Sure, granola contains a lot of fiber. But most granolas come packed with sugars in various forms. One cup of Kellogg's Low-fat Granola with Raisins contains an incredible 72 grams (net) carbohydrates, of which 25 grams are sugar.


Given modern appetites and serving sizes, you can see that it is very easy to get carried away and, before you know it, get exposed to extraordinary amounts of sugar and carbohydrates eating foods you thought were healthy.

And don't be fooled by claims of "natural" sugar. Sugar is sugar--Just check your blood sugar and you'll see. So raw cane sugar, beet sugar, and brown sugar have the same impact as white table sugar. Honey, maple syrup, and agave? They're worse (due to fructose).

How low should blood sugar be?

28. February 2010 William Davis (0)
What should your blood sugar (glucose) be after eating?

Take a look at the data from the Whitehall study reported in 2006. The Whitehall Study stands apart from other studies in that it was very large (over 18,000 participants) who were observed for an unusually long time (33 years). All participants were administered a 50 gram glucose "challenge" at the start with glucose levels checked after the glucose challenge.

Here's what they found:




From Brunner et al 2006.
Cureality | Real People Seeking Real Cures

The battle for natural hormones

18. April 2007 William Davis (0)
The battle for preservation of availability of compounded natural hormones goes on.

It started with pharmaceutical manufacturer, Wyeth, who petitioned the FDA to disallow the mixing of pharmaceuticals, especially natural human hormones, by specially trained pharmacists at what are called "compounding pharmacies." These are pharmacies that have special equipment and where trained pharmacists can mix up specific preparations for dispensing. These are available by prescription.

For instance, I have been prescribing natural human testosterone and progesterone for nearly 10 years. I have found service to be excellent, with lots of learning materials provided to patients by the pharmacy. The pharmacists I've spoken to have been courteous and knowledgeable. Compounded hormones are also shockingly less expensive. While a testosterone patch from a pharmaceutical company costs around $4.00 per day, the same quantity of testosterone cream formulated by a compouding pharmacy costs around $0.50 per day--87.5% less.

Wyeth hides behind a smoke screen of concern over quality. But the price differences tells the entire story: they want to eliminate the inexpensive competition and hold us all hostage to the far more expensive, often inferior products that they produce. They'd sooner force a woman to use horse-derived Premarin than to allow her access to human estrogens and progesterone.

To me, this is an outrageous affront to our freedom of choice, both as consumers as well as a physician. If you feel as strongly as I do about opposing the unfair and bullying ways of Wyeth Pharmaceuticals and the FDA, the P2C2 association of compounding pharmacists makes writing a letter to your Senator easy by going to

http://iacprx.convio.net/site/PageServer?pagename=P2C2

Just enter your info and personalize the comments, and the e-mails will be generated for you.

Lipitor and memory

17. April 2007 William Davis (2)
At first, I was skeptical. A book from a nutty author and physician named Duane Graveline kept on coming up in conversations with patients. His book, Lipitor: Thief of Memory , details his personal experience with dramatic changes in memory and thought while taking Lipitor.



Now this is a drug that I've seen used thousands of times. But I've now seen about a dozen people who have had distinct struggles with memory and clarity of thinking while taking Lipitor. Most took doses of 40 mg per day or more, though an occasional person takes as little as 10 mg. The association seems to be undeniable, since it improves after two weeks off the drug, recurs when resumed. Just today, I saw two people where this effect may be an issue.

Curiously, I've not seen it with any other statin agent. Unfortunately, uncovering any scientific data on the issue is a hopeless quest. Either it's very uncommon or, worse, the data has been suppressed.

Any way, I believe that Dr. Graveline was right: Lipitor, in a small number of people, does indeed seem to exert real detrimental effects on the mind.

If you take Lipitor, should you stop it in fear of long-term effects on your mental capacity? I think it's premature to toss the drug out based on this relatively uncommon relationship. This particular effect is likely to be idiosyncratic, i.e., peculiar to an occasional person but does not seem to apply to the majority, probably by some quirk of metabolism or penetrability of the barrier between the blood and nervous system tissue.

If, however, you feel that your thinking and memory have deteriorated on the drug, please speak to your doctor.

EKG's and heart disease

16. April 2007 William Davis (6)

How helpful are EKG's for detecting hidden heart disease?

I pose this question because several patients asked this question just this week. It's also a frequent point of confusion and misperception.

Your EKG is nothing more than an expression of the surface electrical activity emitted by heart muscle activity. Multiple (12) leads are attached to the body simply to provide various "views" of this electical activity. EKG, or sometimes "ECG", is short for "electrocardiogram".

What modifies this surface electrical activity? Anything that modifies the electrical activity within the heart itself, or interferes with the detection of the activity. An old heart attack modifies the patterns of electrical conduction in the heart and that can change your EKG. An ongoing heart heart attack likewise. High blood pressure commonly creates changes in the EKG, as does lung disease. A bellyache can change your EKG, as can a stroke. (These non-heart-related phenomena probably are often due to changes in autonomic, or "automatic," nervous system activity.) The heart generates electrical activity in a predictable sequence that generates the heart beat, or "rhythm". EKG's are useful for monitoring heart rhythm, also.

Does having plaque in your coronary arteries have any effect on the EKG? None whatsoever, unless plaque rupture caused heart attack or is about to cause heart attack. So, you can have a horrendous CT heart scan score of, say, 3000, yet maintain a perfectly normal EKG, as long as the heart muscle is normal.

Then why bother with these iffy tests? They are indeed useful to diagnose the cause of active symptoms. For instance, go to the ER with chest pain and an EKG could show changes suggesting that the chest pain is a heart attack. EKG's are also useful for future comparison. Any change in EKG can suggest certain things, like new heart rhythm disturbances unrelated to coronary plaque.

Think of your EKG as just like buying a used car. Say I'm trying to sell you my 1999 Buick Century. It looks pretty good from the outside and I tell you that it has 70,000 miles and runs well. You ask to open the hood, look in the interior and take it out for a drive. I tell you no, you can't do that.

Would you buy the car? Of course you wouldn't. You were permitted only a very superficial examination of the car. You have no idea what's going on inside. Just because the paint job looks brand new doesn't mean the engine and transmission are good.

The same with your EKG: It's a superficial look at one aspect of this used car called your heart. If the EKG is normal, that's good, just like a good exterior on the Buick. But you cannot assume that the heart is otherwise normal.

View the EKG as a simple, superficial test that can only provide minimal reassurance, no matter how often you have it done.

A new Track Your Plaque record

14. April 2007 William Davis (0)
Neal, a 40-year old school principal, and his young wife were terrified on learning of his CT heart scan score of 339, a concerningly high score for any age, particularly age 40.

To make matters worse, all of Neal's plaque was located in the critical left mainstem coronary artery, the shared stem of two of the three coronary arteries. A heart attack in this location is instantly fatal.

So, it was especially gratifying that Neal has set the Track Your Plaque record for largest magnitude of plaque reversal: 51% in his first year.

Studies that show a reduction in heart attack make the news. They talk about 1, 2, up to 6% regression, all achieved with high doses of statin drugs. Yet we are seeing huge, extraordinary quantities of heart disease reversal that haven't yet made headlines, amounts that far exceed those featured in the news. We should be encouraged by experiences like Neal's.

Watch for the upcoming Track Your Plaque newsletter for more details on Neal's story--how he came to the program, how he accomplished this huge effect, and why his experience was such a success. If you haven't yet subscribed, go to the www.cureality.com homepage and click on the upper right hand corner.

The Plavix Scam

12. April 2007 William Davis (3)
Periodically, I'll see a flurry of TV ads for Plavix. It comes with a polished computer-animated cartoon that shows how platelets clump and form a blood clot, causing heart attack.

Imagine there's a pile of oil-soaked rags in a corner of your garage. I come by and tell you to get a good fire extinguisher to keep next to the rag pile in case they spontaneously ignite.

Does that make sense to you?

Wouldn't it be better to get rid of the oily rags and forget about the fire extinguisher?

Plavix is the fire extinguisher. The oil rags are your coronary plaque. The solution is to gain control over plaque behavior. Unfortunately, the TV ads (intentionally, I suspect) give the impression that blood clots just form out of the blue for no reason. Of course that's not true. It requires active, growing, inflamed atheroslcerotic plaque that ruptures, uncovering the "angry" and platelet-adhering material underneath the thin covering or endothelial lining.

Urging everybody to take Plavix is absurd. The TV ads urge many people who have no business taking the drug to take it. There are, without a doubt, groups of people who are better off taking Plavix and aspirin: people who are in the midst of heart attack, people who have unstable plaque, people with recent stents or bypass. Perhaps people at high risk for plaque rupture, e.g., extensive coronary plaque that has continued to grow.

These tactics are consistent with the experiences I've had with the sales representatives from the company (when I used to actually talk to sales reps; my office is now barred from them). The reps very aggressively would urge me to consider having everyone take Plavix. No kidding.


For us, i.e., for people who just have a heart scan score but interested in engaging in a powerful program of prevention and reversal, Plavix rarely provides any advantage. The answer is, just like our oily rag analogy, control the plaque, not put out the fire.

Lipoprotein(a) and small LDL

11. April 2007 William Davis (0)
You won't find a lot of scientific validation for this, but it is my firm impression that small LDL, by some crazy means, has the capacity to "turn on" or "turn off" lipoprotein(a), Lp(a).

Recall that Lp(a) is a specific genetic trait, passed to us (if you have it) by mother or father. It falsely elevates LDL cholesterol and escalates heart disease risk more than just about any other known abnormality.

A frequent hint that Lp(a) might be present is a comment I hear often from patients: "My doctor said statin cholesterol drugs don't work for me. I tried them all and my cholesterol won't go down." Or, the result was substantially less than expected. That's because, when Lp(a) is lurking in your cholesterol value, it is unaffected by the statins.

It's been my in-the-trenches observation that, the more fully expressed the small LDL pattern becomes, the worse the Lp(a) behaves. In other words, if small LDL is suppressed effectively, Lp(a) doesn't seem to carry the same dangers as in someone who has plenty of small LDL. I don't know why this is. (I expect that the answer will come from someone like Dr. Marcovina at Stanford, who is at the forefront of Lp(a) structural research. Lp(a) is a complex molecule with several components. How and why it interacts with other particles remains a mystery.)

There are a little bit of data to confirm this. The Quebec Cardiovascular Study has presented some data to this effect, that the combination of small LDL particles and Lp(a) are a particularly lethal combination. We are trying to correlate our data from a CT heart score perspective to discern any statistical relationships.

This raises a very important therapeutic issue if you have Lp(a): the worst thing you can do if you have Lp(a) is become overweight. Excess abdominal fat is a huge trigger to create small LDL particles. Even though being overweight itself has no effect on the measured level of Lp(a), it activates small LDL which, in turn, throws gasoline on the Lp(a) fire.

If you have Lp(a), stay skinny.

Optimal medical therapy

9. April 2007 William Davis (6)
I was re-reading some of the details behind the recently announced COURAGE Trial comparing angioplasty/stent in 1100 people compared to "optimal" medical therapy in another 1100. You'll recall that no difference was found.

In particular, over approximately 5 years, 20% of participants in each group died, experienced heart attacks, or strokes. Of those treated with "timal" medical therapy, 32% ended up getting a procedure like stents or bypass anyway due to deteriorating symptoms.

What is "optimal" medical therapy? I bring this up again because the study investigators in COURAGE, as well as in similar trials, say this with a straight face. Optimal medical therapy means aspirin and/or Plavix (the anti-platelet, aspirin-like blood thinner); "aggressive" statin drug therapy to reduce LDL cholesterol to 60-85 mg/dl; and "anti-ischemic" therapy (that reduces angina and the phenomena of poor coronary blood flow) using nitroglycerin preparations, beta blockers, and other drugs.

I do give credit to the investigators for having the courage to perform this trial in a world hell bent on doing procedures and still reporting the neutral outcome. But the notion of "optimal" medical therapy begs for comment.

Indeed, this is regarded as optimal by most practitioners. Some would even argue excessive, based on the low LDL target achieved. Would you be satisfied with a 20% likelihood of heart attack, stroke, or death or 5 years, a 1 in 5 roll of the dice? I would not. Recall that we aim for near-total elimination of risk.

What could have been further "optimized"? Plenty. For instance:

--What is the real LDL, not the fabricated, calculated LDL? The two can be commonly 100 mg/dl different.

--How about raising HDL to 60 mgd/?

--What about reducing the proportion of small LDL particles? After all, small LDL is the number one cause of heart disease in the U.S., not high LDL.

--What is Lp(a)? If you treat LDL with a statin drug, Lp(a) is unaffected and continues to trigger huge plaque growth. You will fail if this is not identified and corrected.

--What is vitamin D3? One of the most powerful facilitators of plaque reversal I know of.

--What are triglycerides? Triglycerides create hidden particles in the blood like intermediate-density lipoprotein, potent triggers for coronary plaque growth. Speaking of intermediate-density lipoprotein, that's another very important pattern to identify, the after-eating persistence of dietary fats.

--Why aren't they taking fish oil? With a 28% reduction in heart attack and 45% reduction in sudden death from heart attack, this alone would have halved the number of "events" in the "optimal" medical treatment group.

Of course, there's more. But the idea that aspirin, statins, and anti-ischemic therapy is somehow optimal is silly and sad at the same time. But that's the bias. The COURAGE Trial does represent a step forward, a step away from the "stent everyone and everything" mentality that motivates my colleagues, aided and abetted by their co-conspirators, the hospitals. But you and I know better. "Optimal" medical therapy, in truth, can mean a far better approach that can dramatically reduce, perhaps eliminate, risks for events like heart attack. The conventional "optimal" medical therapy will suffice only if you're content with a 20% likelihood of heart attack, death or stroke, or a 32% likelihood of an urgent procedure in your future.

Niacin, postprandial patterns

9. April 2007 William Davis (0)
For a detailed report on the very important postprandial (after eating) patterns that contribute hugely to heart disease risk, read my recent article in Life Extension Magazine, available (no cost) at:

Uncovering a Hidden Source of Cardiovascular Disease Risk
at http://www.lef.org/magazine/mag2007/mar2007_report_heart_01.htm


For a report on using niacin to reduce risk of heart disease, see another report in the same issue of Life Extension:

Ask the Doctor: Using Niacin to Improve Cardiovascular Health
at
http://www.lef.org/magazine/mag2007/mar2007_atd_01.htm.

Also, keep your eyes open for a lengthy report focused exclusively on the Track Your Plaque program in an upcoming issue of Life Extension. I'll provide links in this Blog when it comes out.

What's better than fish oil?

9. April 2007 William Davis (1)
One of the recent questions on our Track Your Plaque Forum related to what to do about a triglyceride level of 101 mg/dl while on fish oil.

Recall that, contary to conventional thinking like that articulated in the ATP-III cholesterol treatment guidelines, we aim to reduce triglycerides to 60 mg/dl or less. This is important to suppress the formation of abnormal triglyceride-containing lipoprotein particles, especially small LDL, reduced HDL, lack of healthy large HDL, VLDL. ATP-III advises a level of 150 mg/dl or less. Unfortunately, triglyceride levels this high guarantee appearance of all these undesirable particles and an increasing heart scan score.

What's better than 4000 mg of fish oil for its 1200 mg of EPA and DHA (omega-3 fatty acids)? More fish oil. In other words, the 4000 mg fish oil providing 1200 mg EPA + DHA is our minimum. A simple increase to 6000 mg to provide 1800 mg EPA + DHA is usually all that is necessary to reduce triglycerides and put a halt to the cascade of abnormal lipoprotein particles that trigger plaque growth. Occasionally, a somewhat higher dose may be required. Doses are best divided into two, with meals (e.g., three capsules twice a day).

Another important issue: An over-reliance on wheat products can also increase triglycerides. This includes any flour product like breads (regardless of whether it's white, whole wheat, or whole grain--they all raise triglycerides), pretzels, bagels, breakfast cereals, and pasta. A dramatic reduction in wheat-containing products will reduce triglycerides substantially, help you reduce your abdominal fat, reduce blood pressure, raise HDL and reduce small LDL, clear your mind, provide more energy, avoid afternoon "fogginess" . . . Huge benefits.

Valve disease and vitamin D

8. April 2007 William Davis (1)
There are two common forms of heart valve disease: aortic valve stenosis (stiffness) and insufficiency (leakiness), and mitral anular calcification.

Both valve issues are regarded as evidence of senescence, or aging--the older you are, the more likely you will have one or both. Both conditions involve progressive calcium deposition and, to some degree, cholesterol deposition. They might be regarded as phenomena of "wear and tear" just like hip arthritis.

There are no known therapies to stall or stop the development of mitral anular calcification. However, several attempts have been made over the years to identify treatments that can slow or stop the progression of aortic valve disease, which is becoming increasingly common and is addressed by surgical valve replacement when severe. The most recent trials have examined whether high-dose Lipitor (80 mg) has any effect (it did not) and high dose Crestor (40 mg), which slowed but did not stop the deterioration of stiff valves.

It's been my suspicion that vitamins D and K2 may play a crucial factor in valve health. After all, vitamin D is the master controller of calcium deposition. Preliminary data also suggest that people who are intentionally made vitamin K deficient with the drug, Coumadin, develop twice the calcium deposition on aortic valves that non-Coumadin takers develop.

I saw a patient Friday, Marianne. In addition to a moderate heart scan score of 379 at age 71, Marianne had a leaky (insufficient) aortic valve. By an echocardiogram 18 months ago, the valve was moderately leaky. I put Marianne on vitamin D, 4000 units, to raise her blood level to 50 ng/ml.

Last week, I asked Marianne to have another echocardiogram. This time, no leakiness whatsoever--none. I have never seen this happen before. Although Marianne is only one example and we don't want to extrapolate too far from the experience of one person, it's hard not to attribute this phenomenal response to vitamin D supplementation.

I wonder what would have happened if we had added vitamin K2, as well?

Anyway, just another potential wonderful effect of vitamin D restoration.