Tag Archives: heart disease

Glycemic Index and Chronic Disease Risk (Mostly in Women)

Posted on May 26, 2012 | 3 comments

I’ve written about glycemic index (GI), glycemic load (GL), and glycemic diets in preparation for today’s post.

The concept of glycemic index was introduced by Jenkins et al in 1981 at the University of Toronto.

Studies investigating the association between disease risk and GI/GL have been inconsistent. By “inconsistent,” I mean some studies have made an association in one direction or the other, and other studies have not. Diseases possibly associated with high-glycemic diets have included diabetes, cardiovascular disease, cancer, gallbladder disease, and eye disease.

“Diet” in this post refers to a habitual way of eating, not a weight loss program.

Researchers with the University of Sydney (Sydney, Australia) identified the best-designed published research reports investigating the relationship between certain chronic diseases and glycemic index and load. The studied diseases were type 2 diabetes, coronary heart disease, stroke, breast cancer, colorectal cancer, pancreatic cancer, endometrial cancer, ovarian cancer, gallbladder disease, and eye disease.

Methodology

Literature databases were searched for articles published between 1981 and March, 2007. The researchers found 37 studies that enrolled 1,950,198 participants ranging in age from 24 to 76, with BMI’s averaging 23.5 to 29. These were human prospective cohort studies with a final outcome being occurrence of a chronic disease (not its risk factors). Twenty-five of the studies were conducted in the U.S., five in Canada, five Europe, and two in Australia. Ninety percent of participants were women [for reasons not discussed]. Food frequency questionnaires were used in nearly all the studies. Individual studies generated between 4 to 20 years of follow-up, and 40,129 new cases of target diseases were identified.

Associations between GI, GL, and risk of developing a chronic disease were measured as rate ratios comparing the highest with the lowest quantiles. For example, GI and GL were measured in the study population. The population was then divided into four groups (quartiles), reflecting lowest GI/GL to medium to highest GI/GL diets. The lowest GI/GL quartile was compared with the highest quartile to see if disease occurrence was different between the groups. Some studies broke the populations into tertiles, quintiles, deciles, etc.

Findings

Comparing the highest with the lowest quantiles, studies with a high GI or GL independently

  • increased the risk of type 2 diabetes by 27 (GL) or 40% (GI)
  • increased the risk of coronary heart disease by 25% (GI)
  • increased the risk of gallbladder disease by 26% (GI) or 41% (GL) (gallstones and biliary colic, I assume, but the authors don’t specify)
  • increased the risk of breast cancer by 8% (GI)
  • increased risk of all studied diseases (11) combined by 14% (GI) or 9% (GL)

Overall, high GI was more strongly associated with chronic disease than was high GL

So low-GI diets may offer greater protection against disease than low-GL diets.

Comments from the Researchers

They speculate that low-GI diets may be more protective than low-GL because the latter can include low-carb foods such as cheese and meat, and low-GI, high-carb foods. Both eating styles will reduce glucose levels after meals while having very different effects in other areas such as pancreas beta cell function, free fatty acid levels, triglyceride levels, and effects on satiety.

High GI and high GL diets, independently of known confounders, modestly increase the risk of chronic lifestyle-related diseases, with more pronounced effects for type 2 diabetes, coronary heart disease, and gallbladder disease.

Direct quotes:

. . . 90% of participants were female; therefore, the findings may not be generalizable to men.

There are plausible mechanism linking the development of certain chronic diseases with high-GI diets. Specifically, 2 major pathways have been proposed to explain the association with type 2 diabetes risk. First the same amount of carbohydrate from high-GI food produces higher blood glucose concentrations and a greater demand for insulin. The chronically increased insulin demand may eventually result in pancreatic beta cell failure, and, as a consequence, impaired glucose tolerance. Second, there is evidence that high-GI diets may directly increase insulin resistance through their effect on glycemia, free fatty acids, and counter-regulatory hormone secretion. High glucose and insulin concentrations are associated with increased risk profiles for cardiovascular disease, including decreased concentrations of HDL cholesterol, increased glycosylated protein, oxidative status, hemostatic variables, and poor endothelial function

Low-GI and/or low-GL diets are independently associated with a reduced risk of certain chronic diseases. In diabetes and heart disease, the protection is comparable with that seen for whole grain and high fiber intakes. The findings support the hypothesis that higher postprandial glycemia is a universal mechanism for disease progression.

My Comments

Studies like this tend to accentuate the differences in eating styles since they compare the highest with the lowest post-prandial (after meal) glucose levels. Most people are closer to the middle of the pack, so a person there has potentially less to gain by moving to a low-GI diet. But still some to gain, on average, particularly in regards to avoiding type 2 diabetes and coronary heart disease.

(To be fair, many population-based studies use this same quantile technique. It increases the odds of finding a statistically significant difference.)

Only two of the 37 studies examined coronary heart disease, the cause of heart attacks. One study was the massive Nurses’ Health Study database with 75,521 women. The other was the Zutphen (Netherlands) Elderly Study which examined men 64 and older. Here’s the primary conclusion of the Zutphen authors verbatim:

Our findings do not support the hypothesis that a high-glycemic index diet unfavorably affects metabolic risk factors or increases risk for CHD [coronary heart disease] in elderly men without a history of diabetes or CHD.

So there’s nothing in the meta-analysis at hand to suggest that high-GI/GL diets promote heart disease in males in the general population.

However, the recent Canadian study in Archives of Internal Medicine found strong evidence linking CHD with high-glycemic index diets. Although not mentioned in the text of that article, Table 3 on page 664 shows that the association is much stonger in women than in men. Relative risk for women on a high-glycemic index/load diet was 1.5 (95% confidence interval = 1.29-1.71), and for men the relative risk was 1.06 (95% confidence interval = 0.91-1.20). See reference below.

Nine of the 37 studies examined the occurrence of type 2 diabetes. Only one of these studied men only – 42,759 men: the abstract is not available online and the Sydney group does not mention if high-GI or high-GL was positively associated with onset of diabetes in this cohort. Two of the diabetes studies included both men and women, but the abstracts don’t break down the findings by sex. (I’m trying to deduce if the major overall findings of this meta-analysis apply to men or not.)

I don’t know anybody willing to change their diet just to avoid the risk of gallstones. It’s only after they develop symptomatic gallstones that they ask me what they can do about them. The usual answer is surgery.

The report is well-done and seems free of commercial bias, even though several of the researchers are authors or co-authors of popular books on low-GI eating.

Steve Parker, M.D.

References:

Barclay, Alan W.; Petocz, Peter; McMillan-Price, Joanna; Flood, Victoria M.; Prvan, Tania; Mitchell, Paul; and Brand-Miller, Jennie C. Glycemic index, glycemic load, and chronic disease risk – a meta-analysis of observational studies [of mostly women]. American Journal of Clinical Nutrition, 87 (2008): 627-637.

Brand-Miller, Jennie, et al. “The New Glucose Revolution: The Authoritative Guide to the Glycemic Index – The Dietary Solution for Lifelong Health.” Da Capo Press, 2006.

Mente, Andrew, et al. A Systematic Review of the Evidence Supporting a Causal Link Between Dietary Factors and Coronary Heart Disease. Archives of Internal Medicine, 169 (2009): 659-669.

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Posted in Coronary Heart Disease, Diabetes, Glycemic Index

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High-Carbohydrate Eating Promotes Heart Disease in Women

Posted on April 29, 2012 | Comments Off on High-Carbohydrate Eating Promotes Heart Disease in Women

Women double their risk of developing coronary heart disease if they have high consumption of carbohydrates, according to research published in the Archives of Internal Medicine.

Men’s hearts, however, didn’t seem to be affected by carb consumption. I mention this crucial sex difference because many experts believe that replacing saturated fat with carbohydrates is a major cause of heart disease. If true, it seems to apply only to women.

(Another nutrition science trend to keep an eye on is the thought that excessive consumption of omega-6 fats contributes to hardening of the arteries, including coronary heart disease. I’m talking about soy oil, safflower oil, corn oil, among others. No doubt, we’re eating a lot more omega-6 now than at the start of the 20th century.)

We’ve known for a while that high-glycemic-index eating was linked to heart disease in women but not men. Glycemic index is a measure of how much effect a carbohydrate-containing food has on blood glucose levels. High-glycemic-index foods raise blood sugar higher and for longer duration in the bloodstream.

High-glycemic-index foods include potatoes and white bread, for example.

The study at hand included over 47,000 Italians who were interrogated via questionnaire as to their food intake, then onset of coronary heart disease—the cause of heart attacks—was measured over the next eight years.

Among the 32,500 women, 158 new cases of coronary heart disease were found.

Researchers doing this sort of study typically compare the people eating the least carbs with those eating the most. The highest quartile of carb consumers and glycemic load had twice the rate of heart disease compared to the lowest quartile.

The Cleave-Yudkin theory of the mid-20th century proposed that excessive amounts of refined carbohydrates cause heart disease and certain other chronic systemic diseases. Gary Taubes has also written extensively about this. The research results at hand support that theory in women, but not in men.

Practical Applications

Do these research results apply to non-Italian women and men? Probably to some, but not all. More research is needed.

Women with a family history coronary heart disease—or other CHD risk factors—might be well-advised to put a limit on total carbs, high-glycemic-index foods, and glycemic load. I’d stay out of that “highest quartile.” Don’t forget: heart disease is the No. 1 killer of women.

See NutritionData’s Glycemic Index page for information you can apply today.

FYI, the Low-Carb Mediterranean Diet and Ketogenic Mediterranean Diet are also low in glycemic index.

Steve Parker, M.D.

Disclaimer: All matters regarding your health require supervision by a personal physician or other appropriate health professional familiar with your current health status. Always consult your personal physician before making any dietary or exercise changes.

Addendum: Alert reader Nadia Hassan brought to my attention that I had originally written that pasta has a high glycemic index. Citing appropriate references, Nadia convinced me that pasta has a low-to-moderate glycemic index, from around 30 to 60. Its GI also is higher if over-cooked. I corrected my original post.

References:

Sieri, Sabina, et al. Dietary glycemic load and index and risk of coronary heart disease in a large Italian cohort. The EPICOR study. Archives of Internal Medicine, 170 (2010): 640-647.

Barclay, Alan, et al. Glycemic index, glycemic load, and chronic disease risk – a meta-analysis of observational studies [of mostly women]. American Journal of Clinical Nutrition, 87 (2008): 627-637.

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Alcohol Consumption Linked to Lower Rates of Death and Heart Attack

Posted on April 10, 2012 | Comments Off on Alcohol Consumption Linked to Lower Rates of Death and Heart Attack

Canadian and U.S. researchers report that moderate alcohol consumption seems to reduce 1) the incidence of coronary heart disease, 2) deaths from coronary heart disease, and 3) deaths from all causes. Reduction of death from all causes is a good counter-argument to those who say alcohol is too dangerous because of deaths from drunk driving, alcoholic cirrhosis, and alcohol-related cancers such as many in the esophagus.

Remember, we’re talking here about low to moderate consumption: one drink a day or less for women, two drinks or less a day for men. That’s a max of 12.5 alcohol for women, 25 g for men. No doubt, alcohol can be extremely dangerous, even lethal. I deal with that in my patients almost every day. Some people should never drink alcohol.

The recent meta-analysis in the British Medical Journal, which the authors say is the most comprehensive ever done, reviewed all pertinent studies done between 1950 and 2009, finally including 84 of the best studies on this issue. Thirty-one of these looked at deaths from all causes.

Compared with non-drinkers, drinkers had a 25% lower risk of developing coronary heart disease (CHD) and death from CHD. CHD is the leading cause of death in develop societies.

Stroke is also considered a cardiovascular disease. Overall, alcohol is not linked to stroke incidence or death from stroke. The researchers did see strong trends toward fewer ischemic strokes and more hemorrhagic strokes (bleeding in the brain) in the drinkers. So the net effect was zero.

Compared with non-drinkers, the lowest risk of death from any cause was seen in those consuming 2.5 to 14.9 g per day (one drink or less per day), whose risk was 17% lower. On the other hand, heavy drinkers (>60 g/day) had 30% higher risk of death.

In case you’re wondering, the authors didn’t try to compare the effects of beer versus wine versus distilled spirits.

On a related note, scientists at the Medical University of South Carolina found that middle-aged people who took up the alcohol habit had a lower risk of stroke and heart attack. Wine seemed to be more effective than other alcohol types. They found no differences in overall death rates between new drinkers persistent non-drinkers, perhaps because the study lasted only four years and they were following only 442 new drinkers.

This doesn’t prove that judicious alcohol consumption prevents heart attacks, cardiac deaths, and overall deaths. But it’s kinda lookin’ that way.

Steve Parker, M.D.

Reference: Ronksley PE, Brien SE, Turner BJ, Mukamal KJ, & Ghali WA (2011). Association of alcohol consumption with selected cardiovascular disease outcomes: a systematic review and meta-analysis. BMJ (Clinical research ed.), 342 PMID: 21343207

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Posted in Alcohol, Coronary Heart Disease, Heart Disease, Longevity

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Spanish Ketogenic Mediterranean Diet Cures Metabolic Syndrome

Posted on April 5, 2012 | Comments Off on Spanish Ketogenic Mediterranean Diet Cures Metabolic Syndrome

The very-low-carb Spanish Ketogenic Mediterranean Diet cures metabolic syndrome, according to investigators at the University of Córdoba in Spain. The metabolic syndrome is a collection of clinical factors that are linked to high risk of developing type 2 diabetes and heart disease. Individual components of the syndrome include elevated blood sugar, high trigylcerides, low HDL cholesterol, high blood pressure, and abdominal fat accumulation.

Spanish researchers put 26 people with metabolic syndrome on the Spanish Ketogenic Mediterranean Diet for twelve weeks and monitored what happened. At baseline, average age was 41 and average body mass index was 36.6. Investigators didn’t say how many diabetics or prediabetics were included. No participant was taking medication.

What’s the Spanish Ketogenic Mediterranean Diet?

Calories are unlimited, but dieters are encouraged to keep carbohydrate consumption under 30 grams day. They eat fish, lean meat, eggs, chicken, cheese, green vegetables and salad, at least 30 ml (2 tbsp) daily of virgin olive oil, and 200-400 ml of red wine daily ( a cup or 8 fluid ounces equals 240 ml). On at least four days of the week, the primary protein food is fish. On those four days, you don’t eat meat, chicken, eggs, or cheese. On up to three days a week, you could eat non-fish protein foods but no fish on those days.

How’s this different from my Ketogenic Mediterranean Diet? The major differences are that mine includes one ounce (28 g) of nuts daily, less fish overall, and you can mix fish and non-fish protein foods every day.

Regular exercisers were excluded from participation, and my sense is that exercise during the diet trial was discouraged.

What Were the Results?

Metabolic syndrome resolved in all participants.

Three of the original 26 participants were dropped from analysis because they weren’t compliant with the diet. Another one was lost to follow-up. Final analysis was based on the 22 who completed the study.

Eight of the 22 participants had adverse effects. These were considered slight and mostly appeared and disappeared during the first week. Effects included weakness, headache, constipation, “sickness”, diarrhea, and insomnia.

Average weight dropped from 106 kg (233 lb) to 92 kg (202 lb).

Body mass index fell from 36.6 to 32.

Average fasting blood sugar fell from 119 mg/dl (6.6 mmol/l) to 92 mg/dl (5.1 mmol/l).

Triglycerides fell from 225 mg/dl to 110 mg/dl.

Average systolic blood pressure fell from 142 mmHg to 124.

Average diastolic blood pressure fell from 89 to 76.

So What?

A majority of people labeled with metabolic sydrome continue in metabolic sydrome for years. That’s because they don’t do anything effective to counteract it. These researchers show that it can be cured in 12 weeks, at least temporarily, with the Spanish Ketogenic Mediterranean Diet.

Very-low-carb diets are especially good at lowering trigylcerides, lowering blood sugar, and raising HDL cholesterol. Overweight dieters tend to lose more weight, and more quickly, than on other diets. Very-low-carb diets, therefore, should be particularly effective as an approach to metabolic syndrome. It’s quite possible that other very-low-carb diets, such as Atkins Induction Phase, would have performed just as well as the Spanish Ketogenic Mediterranean Diet. In fact, most effective reduced-calorie weight-loss diets would tend to improve metabolic syndrome, even curing some cases, regardless of carb content.

Most physicians recommend that people with metabolic syndrome either start or intensify an exercise program. The program at hand worked without exercise. I recommend regular exercise for postponing death and other reasons.

Will the dieters of this study still be cured of metabolic syndrome a year later? Unlikely. Most will go back to their old ways of eating, regaining the weight, and moving their blood sugars, triglycerides, and HDL cholesterols in the wrong direction.

Steve Parker, M.D.

Reference: Pérez-Guisado J, & Muñoz-Serrano A (2011). A Pilot Study of the Spanish Ketogenic Mediterranean Diet: An Effective Therapy for the Metabolic Syndrome. Journal of medicinal food PMID: 21612461

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Waist-Hip Ratio: What Is It, and What’s Yours?

Posted on April 4, 2012 | 2 comments

A comment left under my recent Diabetic Mediterranean Diet blog post on healthy weight ranges reminded me about the waist-hip ratio.

The risk of heart and vascular disease is more closely linked to distribution of excess fat than with degree of obesity as measured by overall weight or body mass index. Waist-hip ratio (WHR) is a measure of abdominal or central obesity, the type of fat distribution associated with coronary artery disease. A high ratio indicates the android body habitus. To determine your waist-hip ratio:

  1. While standing, relax your stomach—don’t pull it in. Measure around your waist mid-way between the bottom of the rib cage and the top of your pelvis bone. Usually this is at the level of your belly button, or an inch higher. Don’t go above the rib cage. Keep themeasuring tape horizontal to the ground and don’t compress your skin.
  2. Then measure around your hips at the widest part of your buttocks. Keep the tape horizontal to the ground and don’t compress your skin.
  3. Divide the waist by the hip measurement.The result is your waist-hip ratio.

For example, if your waist is 44 inches (112 cm) and hips are 48 inches (122 cm): 44 divided by 48 is 0.92, which is your waist-hip ratio.

Scientists haven’t yet determined the ideal WHR, but it is probably around 0.85 or less for women, and 0.95 or less for men. Ratios above 1.0 are clearly associated with risk of cardiovascular disease such as heart attacks. The higher the ratio, the higher the risk. Compared with body mass index, WHR is a much stronger predictor of coronary artery disease. Several of the other obesity-related illnesses are also correlated with WHR, but the relationship between WHR and cardiovascular disease is particularly strong.

Steve Parker, M.D.

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Posted in Heart Disease, High Blood Pressure, Overweight & Obesity

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Why Is the Mediterranean Diet So Healthy?

Posted on April 2, 2012 | Comments Off on Why Is the Mediterranean Diet So Healthy?

I’ve found that nearly everbody’s eyes glaze over if I try to explain how, physiologically, the Mediterranean diet promotes health and longevity. Below are some of the boring details, for posterity’s sake, from my 2007 book, The Advanced Mediterranean Diet: Lose Weight, Feel Better, Live Longer.

Many of the nutrient-disease associations I mention below are just that: associations, linkages, not hard proof of a benefit. Available studies are often contradictory. For instance, there may be 10 observational studies linking whole grain consumption with reduced deaths from heart disease, while three other studies find no association, or even suggest higher death rates. (I’m making these numbers up.) If you want hard proof, you’ll have to wait. A long time. Such is nutrition science. Take it all with a grain of salt.

Also note that the studies supporting my claims below are nearly all done in non-diabetic populations.

Coronary Heart Disease

Coronary heart disease, also known as coronary artery disease, is the No.1 cause of death in the world. It’s responsible for 40% of deaths in the United States and other industrialized Western countries. The Mediterranean diet is particularly suited to mitigating the ravages of coronary heart disease. Mediterranean diet cardiac benefits may be related to its high content of monounsaturated fat (in olive oil), folate, and antioxidants.

The predominant source of fat in the traditional Mediterranean diet is olive oil, which is rich in monounsaturated fatty acids. High intake of olive oil reduces blood levels of triglycerides, total cholesterol, and LDL (“bad”) cholesterol. HDL or “good” cho-lesterol is unaffected. Olive oil tends to lower blood pressure in hypertensive people. Monounsaturated fatty acids reduce cardiovascular risk substantially, particularly when they replace simple sugars and easily digestible starches. Monounsaturated fatty acids and olive oil may also reduce breast cancer risk. The cardioprotective (good for the heart) and cancer-reducing effects of olive oil may be partially explained by the oil’s polyphenolic compounds.

Nuts are another good source of monounsaturated fatty acids and polyunsaturated fatty acids, including some omega-3 polyunsaturated fatty acids. Nuts have been proven to be cardioprotective. They lower LDL and total cholesterol levels, while providing substantial fiber and numerous micronutrients, such as vitamin E, potassium, magnesium, and folic acid. Compared with those who never or rarely eat nuts, people who eat nuts five or more times per week have 30 to 50% less risk of a fatal heart attack. Lesser amounts of nuts are also cardioprotective, perhaps by reducing lethal heart rhythm dis-turbances.

Another key component of the Mediterranean diet is fish. Fish are excellent sources of protein and are low in cholesterol. Fatty, cold-water fish are particularly good for us because of their omega-3 polyunsaturated fatty acids: eicosapentaenoic acid (EPA) and docosahexanaenoic acid (DHA). The other important omega-3 polyunsaturated fatty acid is alpha-linolenic acid (ALA), available in certain plants. Our bodies can convert ALA into EPA and DHA, but not very efficiently. Fish oil supplements, which are rich in EPA, lead to lower total cholesterol and triglyce-ride levels. Fish oil supplements have several properties that fight atherosclerosis (hardening of the arteries). In people who have already had a heart attack, the omega-3 polyunsaturated fatty acids have proven to dramatically reduce cardiac deaths, especially sudden death, and nonfatal heart attacks. So omega-3 polyunsaturated fatty acids are “cardioprotective.”

The first sign of underlying coronary heart disease in many people is simply sudden death from a heart attack (myocardial infarction) or heart rhythm disturbance. These unfortunate souls had hearts that were ticking time bombs. I have little doubt that a significant number of such deaths can be prevented by adequate intake of cold-water fatty fish. As a substitute for fish, fish oil supplements might be just at beneficial. The American Heart Association also recommends fish twice weekly for the general population, or fish oil supplements if whole fish isn’t feasible. Compared with fish oil capsules, whole fish are loaded with vitamins, minerals, and protein. The richest fish sources of omega-3 polyunsaturated fatty acids are albacore (white) tuna, salmon, sar-dines, trout, sea bass, sword-fish, herring, mackerel, anchovy, halibut, and pompano.

Cardioprotective omega-3 polyunsaturated fatty acids (mainly ALA) are also provided by plants, such as nuts and seeds, legumes, and vegetables. Rich sources of ALA include walnuts, butternuts, soy-beans, flaxseed, almonds, leeks, purslane, pinto beans, and wheat germ. Purslane is also one of the few plant sources of EPA. Several oils are also very high in ALA: flaxseed, canola, and soybean. Look for them in salad dressings, or try cooking with them.

Macular Degeneration

Omega-3 fatty acid and fish consumption may also be “eye-protective.” Eating fish one to three times per week apparently helps prevent age-related macular degeneration (AMD), the leading cause of blindness in people over 50 in the United States. While AMD has a significant hereditary component, onset and progression of AMD are affected by diet and lifestyle choices. For instance, smoking cigarettes definitely increases your risk of developing AMD. Other foods associated with lower risk of AMD are dark green leafy vegetables, orange and yellow vegetables and fruits: spinach, kale, collard greens, yellow corn, broccoli, sweet potatoes, squash, orange bell peppers, oranges, mangoes, apricots, peaches, honeydew melon, and papaya. Two unifying phytochemicals in this food list are lutein and zeaxanthin, which are also found in red grapes, kiwi fruit, lima beans, green beans, and green bell peppers. Increasing your intake of these foods as part of the Advanced Mediterranean Diet may well help preserve your vision as you age.

Alzheimer’s Dementia

Another exciting potential benefit of fish consumption is prevention or delay of Alzheimer’s dementia. Several recent epidemiologic studies have suggested that intake of fish once or twice per week significantly reduces the risk of Alzheimer’s. Types of fish eaten were not specified. No one knows if fish oil capsules are equivalent. For now, I’m sticking with fatty cold-water fish, which I call my “brain food.”

Vitamin E supplements may slow the progression of established Alzheimer’s disease; clinical studies show either modest slowing of progression or no benefit. As a way to prevent Alzheimer’s, however, vitamin E supplements have been disappointing. On the other hand, high dietary vitamin E is associated with reduced risk of developing Alzheimer’s. Good sources of vitamin E include vegetable oils (especially sunflower and soybean), sunflower seeds, nuts, shrimp, fruits, and certain vegetables: sweet potatoes, asparagus, beans, broccoli, Brussels sprouts, carrots, okra, green peas, sweet peppers, spinach, and tomatoes. All of these are on your new diet.

Wine

For centuries, the healthier populations in the Mediterranean region have enjoyed wine in light to moderate amounts, usually with meals. Epidemiologic studies there and in other parts of the world have associated reasonable alcohol consumption with prolonged lifespan, reduced coronary artery disease, diminished Alzheimer’s and other dementias, and possibly fewer strokes. Alcohol tends to increase HDL cholesterol, have an antiplatelet effect, and may reduce C-reactive protein, a marker of arterial inflammation. These effects would tend to reduce cardiovascular disease. Wine taken with meals provides antioxidant phytochemicals (polyphenols, procyanidins) which may protect against atherosclerosis and some cancers.

What’s a “reasonable” amount of alcohol? An old medical school joke is that a “heavy drinker” is anyone who drinks more than the doctor does. Light to moderate alcohol consumption is generally consi-dered to be one or fewer drinks per day for a woman, two or fewer drinks per day for a man. One drink is 5 ounces of wine, 12 ounces of beer, or 1.5 ounces of 80 proof distilled spirits (e.g., vodka, whiskey, gin). The optimal health-promoting type of alcohol is unclear. I tend to favor wine, a time-honored component of the Mediterranean diet. Red wine in particular is a rich source of resveratrol, which is thought to be a major contributor to the cardioprotective benefits associated with light to moderate alcohol consumption. Grape juice may be just as good—it’s too soon to tell.

I have no intention of overselling the benefits of alcohol. If you are considering habitual alcohol as a food, be aware that the health benefits are still somewhat debatable. Consumption of three or more alcoholic drinks per day is clearly associated with a higher risk of breast cancer in women. Even one or two drinks daily may slightly increase the risk. Folic acid supplementation might mitigate the risk. If you are a woman and breast cancer runs in your family, strongly consider abstinence. Be cautious if there are alcoholics in your family; you may have inherited the predisposition. If you take any medications or have chronic medical conditions, check with your personal physician first. For those drinking above light to mod-erate levels, alcohol is clearly perilous. Higher dosages can cause hypertension, liver disease, heart failure, certain cancers, and other medical problems. And psychosocial problems. And legal problems. And death. Heavy drinkers have higher rates of violent and accidental death. Alcoholism is often fatal. You should not drink alcohol if you:

■ have a history of alcohol abuseor alcoholism
■ have liver or pancreas disease
■ are pregnant or trying to become pregnant
■ may have the need to operatedangerous equipment or machinery, such as an automobile, while under the influence of alcohol
■ have a demonstrated inability tolimit yourself to acceptable intake levels
■ have personal prohibitions due to religious, ethical, or other reasons.

Cancer

Do you ever worry about cancer? You should. It’s the second leading cause of death. Over 500,000 people die from cancer each year in the United States. One third of people in the United States will develop cancer. Twenty percent of us will die from cancer. About half the deaths are from cancer of the lung, breast, and colon/rectum. Are you worried yet?

According to the American Cancer Society, one third of all cancer deaths can be attributed to diet and inadequate physical activity. So we have some control over our risk of developing cancer. High consumption of fruits and vegetables seems to protect against cancer of the lung, stomach, colon, rectum, oral cavity, and esophagus, although other studies dispute the protective linkage. Data on other cancers is limited or inconsistent. If you typically eat little or no fruits and vegetables, you can start today to cut your cancer risk by up to one half. Five servings of fresh fruits and vegetables a day seems to be the protective dose against cancer. Make it a life-long habit. The benefits accrue over time. Fruits and vegetables contain numerous phytochemicals thought to improve or maintain health, such as carotenoids (e.g., lycopene), lignans, phytosterols, sulfides, isothyocyanates, phenolic compounds (including flavonoids, resveratrol, phytoestrogens, antho-cyanins, and tannins), protease inhibitors, capsaicin, vitamins, and minerals.

In addition to cancer prevention properties, fruits and vegetables provide fiber, which is the part of plants resistant to digestion by our enzymes. The other source of fiber is grain products, especially whole grains. Liberal intake of fiber helps prevent constipation, diverticular disease, hemorrhoids, irritable bowel syndrome, and perhaps colon polyps. Soluble fiber helps control blood sugar levels in diabetics. It also reduces LDL cholesterol levels, thereby reducing risks of coronary heart disease. Whether or not related to fiber, high fruit and vegetable intake may reduce the risks of coronary heart disease and stroke. Legume consumption in particular has been associated with a 10 to 20% lower risk of coronary heart disease, with the effective dose being around four servings per week.

Fiber and Whole Grains

Processed, refined grain products have much less fiber than do whole grains. For instance, white all-purpose enriched flour has only about one fourth the fiber of whole wheat flour. The milling process removes the bran, germ, and husk (chaff), leaving only the endosperm as the refined product, flour. Endosperm is mostly starch and 10–15% protein. Many nutrients are lost during processing. The germ is particularly rich in vitamins (especially B vitamins), polyunsaturated fatty acids, antioxidants, trace minerals, and phytochemicals. Phytochemicals protect us against certain chronic diseases. Bran is high in fiber and nutrients: B vitamins, iron, magnesium, copper, and zinc, to name a few. Enriched grain products are refined grains that have had some, but certainly not all, nutrients added back, typically iron, thiamin, niacin, riboflavin, and folate. Why not just eat the whole grain? Whole grain products retain nearly all the nutrients found in the original grain. Hence, they are more nutritious than refined and enriched grain products.

Liberal intake of high-fiber whole grain foods, as contrasted with refined grains, is linked to lower risk of death and lower incidence of coronary heart disease and type 2 diabetes mellitus. For existing diabetics, whole grain consumption can help im-prove blood sugar levels. Three servings of whole grains per day cut the risk of coronary heart disease by about 25 percent compared with those who rarely eat whole grains. Regular consumption of whole grains may also substantially reduce the risk of sev-eral forms of cancer.

Average adult fiber intake in the United States is 12 to 15 grams daily. Expert nutrition panels and the American Heart Association recommend 25 to 30 grams daily from whole grains, fruits, and vegetables.

The health benefits of the Mediterranean diet likely spring from synergy among multiple Mediteranean diet components, rather than from a single food group or one or a few food items.

Steve Parker, M.D.

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April is Fitness Month: My Motivation

Posted on April 1, 2012 | 3 comments

My wife, Sunny, decrees April to be Fitness Month.  No joke.

But it’s more than just fitness.  It’s about eating right, plus exercise.  No dining out for the entire month.  No junk food.  Renewed commitment to physical activity.

In the spirit of Fitness Month, I’m restarting my exercise efforts, which have been on hold for the last month.  I’ve simply been lazy.

I’m trying a new program based on resistance exercise and high-intensity interval training.  All in less than an hour a week.  To help me judge effectiveness, I’ve measured and recorded my baseline fitness.  I’ll re-measure every couple weeks or so.  After six or eight weeks, I’ll switch to a different program.

Exercise isn’t fun.  You need good reasons to do it.  Here are mine:

  • it keeps you young (fountain of youth)
  • longevity
  • less low back aching
  • injury resistance
  • keep my supraspinatous tendonitis (rotator cuff) in remission
  • prevention dementia, heart disease, and cancer
  • I’m a sheepdog, not a sheep
  • weight management
  • emergency preparedness (e.g., carry out an injured Boy Scout from a wilderness area)
  • more energy to enjoy life (hiking, camping, horseback riding, horse stall mucking, horse grooming, hay bale wrangling, long walks with others, etc.)

If you hope to exercise regularly, you’ll need your own list of reasons.  You’ll have days, weeks, or months when you just don’t want to exercise.  Review your list then.

Steve Parker, M.D.

PS:  This is my first post done on my new MacBook Pro.  Woo hoo!  I haven’t given any thought to sources of royalty-free photos to accompany posts.  Any ideas?  I’m used to MS Clip Organizer, which isn’t on this machine.

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Posted in Cancer, Coronary Heart Disease, Exercise, Longevity, My Fitness

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