Feb
25
2017

Heart Health Improves With Hormone Replacement

Dr. Pamela Smith gave a lecture in December 2016 showing that heart health improves with hormone replacement. Her talk was part of the 24th Annual World Congress on Anti-Aging Medicine (Dec. 9 to Dec. 11, 2016) in Las Vegas, which I attended. The title of the talk was: “Heart health: The Importance of Hormonal Balance for Men and Women”. Her keynote lecture contained 255 slides. I am only presenting a factual summary of the pertinent points here.

1. Estrogen

First of all, estrogens are the main female hormones in women that protects them from heart attacks.

Observations regarding risk of heart attacks

  1. Women have a lower risk of heart attacks before menopause compared to men of the same age.
  2. Heart attack rates go up significantly after menopause.
  3. Estrogen replacement therapy may reduce the risk of heart attacks by 50% for postmenopausal women.

Lipid profile after menopause

There is an elevation of LDL cholesterol, total cholesterol and triglycerides as well as lower HDL cholesterol levels. All of this causes a higher risk of heart attacks for postmenopausal women. Estrogen replacement therapy increases the large VLDL particles, decreases LDL levels and raises HDL-2. Postmenopausal women who do estrogen replacement therapy (ERT) are helping to reduce their heart attack rates.

Difference between oral and transdermal estrogen replacement

The liver metabolizes estrogen taken by mouth. This reduces the protective effect on the cardiovascular system. In contrast, transdermal estrogen (from commercial estrogen patches or from bioidentical estrogen creams) has a higher cardioprotective effect. The liver does not metabolize transdermal estrogen. Dr. Smith explained using many slides how estrogen prevents heart attacks. Apart from lipid lowering effects there are protective effects to the lining of the arteries. In addition there are metabolic processes in heart cells and mitochondria that benefit from estrogens. The end result is that postmenopausal women who replace estrogen will outlive men by about 10 years. The production of Premarin involved pregnant mares. In other words, it is not human estrogen and it does not fit the human estrogen receptors. Also the liver metabolizes estrogen taken as tablet form, which loses a lot of the beneficial effects that you get from transdermal estrogen. 

How can you document the beneficial effects of estrogen replacement?

  1. Carotid intima measurements in postmenopausal women on ERT show a consistent reduction in thickness compared to controls.
  2. Postmenopausal women on ERT reduce their physical and emotional stress response compared to postmenopausal women without ERT.
  3. Hormone replacement therapy in postmenopausal women reduces blood pressure. Measurements showed this effect to be due to a reduction of angiotensin converting enzyme (ACE) by 20%. This is the equivalent of treating a woman with an ACE inhibitor without the side effects of these pills.
  4. Coronary calcification scores were lower in postmenopausal women on ERT than a control group without ERT. These calcification scores correlate with the risk for heart attacks.
  5. Oral estrogen replacement leads to proinflammatory metabolites from the liver metabolism of estrogen. No proinflammatory metabolites occur in the blood of women using transdermal estrogen. The anti-inflammatory effect of transdermal estrogen is another mechanism that prevents heart attacks.
  6. Postmenopausal women on ERT had no increased risk of heart attacks or venous thromboembolism (clots in veins). Menopausal women without ERT have a risk of 40% of dying from a heart attack. Their risk of developing breast cancer is 5.5%, the risk of dying from breast cancer is about 1%. There was an increase of venous thromboembolism in women who took oral estrogen.
  7. Estrogen has antiarrhythmic effects stabilizing the heart rhythm. Dr. Smith said that in the future intravenous estrogen might be used to prevent serious arrhythmias following heart attacks.

Estrogen levels in males

Males require a small amount of estrogens to maintain their memory, for bone maturation and regulation of bone resorption. But they also need small amounts of estrogen for their normal lipid metabolism.

However, if the estrogen levels are too high as is the case in an obese, elderly man, there is an increased risk of heart disease. Factors that lead to increased estrogen levels in an older man are: increased aromatase activity in fatty tissue, overuse of alcohol and a change in liver metabolism, zinc deficiency, ingestion of estrogen-containing foods and environmental estrogens (also called xenoestrogens).

2. Progesterone

Furthermore, progesterone is the second most important female hormone, the importance of which has been neglected in the past. Progesterone is significantly different from the progestin medroxyprogesterone (MPA). MPA was the oral progestin that was responsible for heart attacks and blood clots in the Women’s Health Initiative. MPA increases smooth muscle cell proliferation. This in turn causes hardening of the coronary arteries. In contrast, progesterone inhibits smooth muscle cell proliferation, which prevents heart attacks. Progesterone also lowers blood pressure and elevates HDL cholesterol, but MPA does not.

Progesterone in males

In a small study Depo-Provera was given to males for 17 days. Blood tests showed a lowering of triglycerides, LDL cholesterol and Apo A-1.

3. Testosterone

Finally, testosterone is the third sex hormone that is present in women. In men it is the main hormone, but women benefit from just a small amounts of it for libido, clarity of thought and muscle endurance.

Testosterone replacement in women

Testosterone in women does not only increase their sex drive, but also relaxes the coronary arteries in women who were testosterone deficient. This allows more blood flow to the heart. In postmenopausal women testosterone replacement lowered lipoprotein (a) levels up to 65%. The physician replaces first with bioidentical estrogen; only then does he consider replacing missing testosterone in women. Otherwise testosterone alone can cause heart attacks in women.

Elevated testosterone in women with PCOS

Women with polycystic ovary syndrome (PCOS) can have increased testosterone levels when they go through premenopause or menopause.

Women with PCOS are at a higher risk to develop diabetes, heart disease and high blood pressure. 50% of women with PCOS have insulin resistance. 70% of women with PCOS in the US have lipid abnormalities in their blood.

Elevated testosterone levels in the blood can lower the protective HDL cholesterol and increase homocysteine levels. Both can cause heart attacks.

Women with PCOS have a 4-fold risk of developing high blood pressure.

Testosterone replacement in males

A 2010 study showed that low testosterone levels in males were predictive of higher mortality due to heart attacks and cancer. Low testosterone ca cause high blood pressure, heart failure and increased risk of cardiovascular deaths. There was a higher incidence of deaths from heart attacks when testosterone levels were low compared to men with normal testosterone levels.

Low testosterone can cause diabetes and metabolic syndrome, which in turn can cause heart attacks.

It is important that men with low testosterone get testosterone replacement therapy.

DHT (Dihydrotestosterone)

DHT is much more potent than testosterone. Conversion of testosterone leads to DHT via the enzyme 5-alpha-reductase. While testosterone can be aromatized into estrogen, DHT cannot. Some men have elevated levels of DHT. This leads to a risk of heart attacks, prostate enlargement and hair loss of the scalp.

Andropause treatment

Only about 5% of men in andropause with low testosterone levels receive testosterone replacement in the US. This may be due to rumors that testosterone may cause prostate cancer or liver cancer. The patient or the physician may be reluctant to treat with testosterone. Researchers sh0wed that bioidentical testosterone does not cause any harm. It is safe to use testosterone cream transdermally. It does not cause prostate cancer or benign prostatic hypertrophy.

An increase of 6-nmol/L-serum testosterone was associated with a 19% drop in all-cause mortality.

Testosterone helps build up new blood vessels after a heart attack. Testosterone replacement increases coronary blood flow in patients with coronary artery disease. Another effect of testosterone is the decrease of inflammation. Inflammation is an important component of cardiovascular disease.

Testosterone replacement improves exercise capacity, insulin resistance and muscle performance (including the heart muscle).

Apart from the beneficial effect of testosterone on the heart it is also beneficial for the brain. Testosterone treatment prevents Alzheimer’s disease in older men by preventing beta amyloid precursor protein production.

4. DHEA

The adrenal glands produce the hormone dehydroepiandrosterone (DHEA). It is a precursor for male and female sex hormones, but has actions on its own. It supports muscle strength. Postmenopausal women had a higher mortality from heart disease when their DHEA blood levels were low.

Similar studies in men showed the same results. Congestive heart failure patients of both sexes had more severe disease the lower the DHEA levels were. Other studies have used DHEA supplementation in heart patients, congestive heart failure patients and patients with diabetes to show that clinical symptoms improved.

5. Melatonin

Low levels of melatonin have been demonstrated in patients with heart disease. Melatonin inhibits platelet aggregation and suppresses nighttime sympathetic activity (epinephrine and norepinephrine). Sympathetic activity damages the lining of coronary arteries. Melatonin reduces hypoxia in patients with ischemic stroke or ischemic heart disease. Lower nocturnal melatonin levels are associated with higher adverse effects following a heart attack. Among these are recurrent heart attacks, congestive heart failure or death. Melatonin widens blood vessels, is a free radical scavenger and inhibits oxidation of LDL cholesterol. Melatonin reduces inflammation following a heart attack. This can be measured using the C-reactive protein.

In patients who had angioplasties done for blocked coronary arteries intravenous melatonin decreased CRP, reduced tissue damage, decreased various irregular heart beat patterns and allowed damaged heart tissue to recover.

6. Thyroid hormones

It has been known for more than 100 years that dysfunction of the thyroid leads to heart disease. Hypothyroidism can cause heart attacks, hardening of the coronary arteries and congestive heart failure. Lesser-known connections to hypothyroidism are congestive heart failure, depression, fibromyalgia, ankylosing spondylitis and insulin resistance. Some cases of attention deficit hyperactivity disorder (ADHD) with low thyroid levels may successfully respond to thyroid replacement.

Thyroid hormones improve lipids in the blood, improve arterial stiffness and improve cardiac remodeling following a heart attack. Thyroid hormones help with the repair of the injured heart muscle. They also work directly on the heart muscle helping it to contract more efficiently. Lower thyroid stimulating hormone (TSH) values and higher T3 and T4 thyroid hormone levels lead to improved insulin sensitivity, higher HDL values (= protective cholesterol) and overall better functioning of the lining of the arteries.

Dr. Smith said that thyroid replacement should achieve that

  • TSH is below 2.0, but above the lower limit of normal
  • Free T3 should be dead center of normal or slightly above
  • Free T4 should be dead center of normal or slightly above

Most patients with hypothyroidism require replacement of both T3 and T4 (like with the use of Armour thyroid pills).

7. Cortisol

Cortisol is the only human hormone that increases with age. All other hormones drop off to lower values with age. The adrenal glands manufacture cortisol. With stress cortisol is rising, but when stress is over, it is supposed to come down to normal levels. Many people today are constantly overstressed, so their adrenal glands are often chronically over stimulated. This can lead to a lack of progesterone. It also causes a lack of functional thyroid hormones as they get bound and are less active. When women have decreased estradiol in menopause there is a decline in norepinephrine production, production of serotonin, dopamine and acetylcholine. Women with this experience depression, lack of drive and slower thought processes.

Heart Health Improves With Hormone Replacement

Heart Health Improves With Hormone Replacement

Conclusion

Seven major hormones have been reviewed here that all have a bearing on the risk of developing a heart attack. It is important that these hormones are balanced, so they can work with each other. Hormones can be compared to a team that works together and is responsible for our health. If one or several of the team players are ineffective, our health will suffer. For this reason hormone replacement is crucial.

Hormone effects on heart muscle

Hormones have effects on mitochondria of the heart muscles cells. They stabilize the heart rhythm as in the case of estradiol. But they can also strengthen the heart muscle directly through DHEA and estrogens in women and DHEA and testosterone in men. Thyroid hormones are another supportive force for the heart. Physicians can  use them therapeutically in chronic heart failure patients. When people age, their hormone glands will produce less hormones, but blood tests will show this. Replacing hormones that are missing can add years of active life. Taking care of the symphony of hormones means you are taking care of your most important organ, the heart!

Feb
11
2017

Genetic Switches To Treat Obesity And Diabetes

Dr. Michael Nova gave a talk about the role of genetic switches to treat obesity and diabetes. He gave this talk as part of the 24th Annual World Congress on Anti-Aging Medicine (Dec. 9-11, 2016) in Las Vegas that I attended. The full title of the talk was “Nutritional Genetics and Epigenetics in Diabetes and Obesity Management”. Dr. Michael Nova is the Chief Innovation Officer at Pathway Genomics, San Diego, CA 92121.

Twin studies are a powerful tool to show that longevity is both genetically caused as well as environmentally.

In the light of these studies the results showed that 80% of a long life (longevity) is due to a healthy lifestyle and 20% comes from genetics. In addition, there are powerful epigenetic factors that can slow down aging and that can interfere with the inflammatory process that causes heart disease, obesity and diabetes. Also, there are specific inflammatory markers, which blood tests can determine. As a matter of fact, one of the first inflammatory markers detected was the C-reactive protein.

What diseases are caused from inflammation?

Dr. Nova showed a slide depicting MS and Alzheimer’s disease. In the heart area atherosclerosis was shown to cause heart attacks and strokes. Next diabetes, lupus, obesity and irritable bowel disease were depicted. Finally there is arthritis that interferes with joint movements. In other words, all of these conditions have inflammation at the core, which leads to worsening of the conditions, if the inflammation is not stopped through nutritional or medical means.

Age-related diseases also due to inflammation

Furthermore, inflammation is not only confined to these conditions. Research has shown that the following age-related diseases belong into the inflammatory category. These are: osteoporosis, depression, diabetes, cancer, neurodegenerative diseases (Parkinson’s disease, Alzheimer’s), asthma, central obesity, metabolic syndrome and cardiovascular disease. In these diseases the C-reactive protein is often up, so is the fasting insulin level. The rest of the talk concentrated on how various changes in food intake and supplements could lead to epigenetic changes that improve the patients’ conditions.

Human genetics are complicated

The speaker mentioned how complex the human genetics are, and he showed a number of slides that are too complicated to discuss here. There are unstable genes, which can become important in the development of illnesses, particularly when you don’t exercise and you eat a Standard North American diet. There are genes involved that cause diabetes, but they need environmental triggering to get expressed. Dr. Nova showed one slide that listed two genetic variants, which when activated by inflammation rendered the person positive for diabetes or heart disease. On the other hand, if inflammation is vigorously treated with a Mediterranean diet and Metformin, the hemoglobin A1C will decrease to less than 6.0% and diabetes will disappear.

Obesity and genetic factors

Obesity has a 40% to 60% hereditary rate. The fat mass and obesity-associated gene, FTO gene for short is the reason some people gain weight. When this gene is not present, the person has no problem maintaining a normal weight. The FTO gene is located on chromosome 16. Moreover, there are other genes with complicated names that can also increase weight.

It is important that there are many factors that work together in developing obesity. Dr. Nova called this the “epigenetic modulation”. He explained further that there are at least 12 factors working together that can reduce obesity. These are:

  1. Diet
  2. Diurnal/seasonal correlations
  3. Smoking and other toxic chemicals
  4. Street drug use
  5. Disease exposure
  6. Financial status
  7. Exercise status
  8. Microbiome healthy?
  9. Therapeutic drugs
  10. Alternative medicine
  11. Social interactions
  12. Psychological state

First, low carbohydrate diets and the ketogenic diet are helping to reduce weight. Second, financial stress leads to more cortisol production, which leads to weight gain. Third, an unhealthy bacteria composition in your gut causes you to gain weight, while a good composition of bacteria helps you lose weight. Furthermore, overcoming depression with cognitive therapy can help reduce your weight. Those are just a few examples in more detail from the list of 12 factors.

Extensive research has shown that genetic factors and environmental factors interact to lead to epigenetic marks or imprinting. It is important to realize that epigenetic factors have an influence on gene expression, but they don’t change the underlying DNA sequencing.

As can be seen, there are still gaps of knowledge how obesity develops, what percentage is due to genetic factors and how much is due to other factors including diets.

Diabetes and genetic factors

Nutrition can influence major metabolic processes in our body cells like phosphorylation, acetylation and methylation. This allows epigenetic mechanism of actions to interfere with the expression of inherited health problems like diabetes and other diseases. This has the potential to improve quality of life.

Useful supplements

Dr. Nora showed a slide with a number of useful supplements.

  • EGCG is the effective component of green tea. It supports the viability of the beta-islets of the pancreas that produce insulin. It leads to more secretion of insulin.
  • Naringin and Hesperidin decrease high blood sugar levels.
  • Anthocyanin decreases high blood sugar levels.
  • Quercetin increases cell proliferation in the liver and the pancreas.
  • Vitamin D3 reduces diabetes incidence and inflammation of the insulin-producing cells.
  • Biotin in combination with chromium increases insulin secretion and lowers blood sugars.
  • Vitamin B2, also known as riboflavin has anti-inflammatory effects.
  • Alpha-lipoic acid protects against diabetes by reducing blood sugar levels.

There are several genes responsible for the development of type 2 diabetes, one of them is the FTO gene that is also important in the development of obesity. But Dr. Nora projected a slide that showed 14 other genes that may lead to the development of diabetes. I have elected to not get into all of those details.

What Dr. Nora concluded is that healthy nutrition plays a vital role in preventing FTO gene expression. He talked about silencing genes, which good nutrition and supplements can do.

Silencing diabetes genes

A Mediterranean diet can stabilize the metabolism and fight inflammation. In like manner zinc and magnesium are important cofactors in enzymes necessary to prevent diabetes. In the same fashion Vitamin D3 and omega-3 intake are helping to control inflammation and preserve beta cells in the pancreas in diabetes patients.

Nutritional genetic modifiers

Foods that methylate DNA and silence genes are: citrus (hesperidin), apples (phloretin) and tomatoes (lycopene). The following foods do both DNA methylation and histone modifications: turmeric (curcumin), cinnamon (coumaric acid), green tea (EGCG), soybean (genistein), coffee (caffeic acid) and broccoli (isothiocyanates). These three foods only do histone modifications: garlic (allyl mercaptan), grapes, (resveratrol) and cashew nuts (anacardic acid).

Functional foods with regard to obesity and diabetes

Here are a few food items and their effects on your health.

  • The lignans of flaxseed lower LDL cholesterol and total cholesterol.
  • The catechins of green tea prevent obesity, but also obesity-induced type 2 diabetes.
  • Saponins of fenugreek lower lipid peroxidation and increase the antioxidant level.
  • Soy proteins contain phytoestrogen, genistein and daidzein; this lowers cholesterol levels in the blood, prevents lipid peroxidation and also has antioxidant activity.
  • Banaba leaves extract contains corosolic acid and ellagitannins. These substances are able to lower glucose levels in the blood. It also has an anti-obesity effect.
  • Grapes and related products contain anthocyanin, flavan-3-ols and flavonols. They have blood pressure lowering qualities, lower blood fat levels and prevent hardening of the arteries.
  • Dark chocolate contains flavanols that are the main type of flavonoid found in it. Flavanols decrease blood pressure and make platelets in the blood less sticky. This prevents heart attacks and strokes. In addition these flavanols also decrease LDL cholesterol, which prevents hardening of the arteries.

Here are more items that help your health

  • Red wine, berries, pears, and apples: proanthocyanidins are the active polyphenols that make all of these fruit valuable. Proanthocyanidins prevent LDL cholesterol from oxidizing through their antioxidant effects, which in turn slows down hardening of the arteries. It reduces the inflammation associated with narrowing of blood vessels and normalizes the lining of arteries.
  • Onions contain two active ingredients, allyl propyl disulfide (which makes you cry when you cut onions) and S-methyl-cysteine sulfoxide. These substances have anti-diabetic effects and lower blood fatty substances.
  • Turmeric contains curcumin, which possesses antidiabetic properties.
  • Fruit and vegetables contain fiber, which lowers blood sugars and hemoglobin A1C.
  • Stevia from the stevia plant reduces blood sugars following a meal in patients with type 2 diabetes.

In summary, all these substances are examples of triggering epigenetic mechanisms to interfere with the expression of negative health problems where inheritance may also play a role.

Genetic Switches To Treat Obesity And Diabetes

Genetic Switches To Treat Obesity And Diabetes

Conclusion

This was a whirlwind review of how a healthy diet, supplements, fruit and vegetables, exercise and other healthy lifestyles can overcome genetic and epigenetic traits. After reading about this huge line-up of substances that can contribute to your health, you may feel slightly overwhelmed. Are you going to get all these wonderful items from the health food store and live on a bunch of supplements? Of course this is not the fact! Some herbals can be extremely helpful to combat inflammation, such as curcumin.

The essential facts of treatment of obesity and diabetes

But the most essential fact remains very simple: to cut down sugar and too many starchy foods, as they will trigger repressed genes to cause diabetes, obesity, heart attacks and strokes. We need to inform ourselves and stay vigilant to the fact how toxic foods may be, and we have to cut them out in order to stay healthy. We can become much more resilient to health challenges than we may have thought possible.

Feb
04
2017

Benefits Of The Ketogenic Diet

Dr. Jeff Volek, PhD, RD gave a talk that clarified the benefits of the ketogenic diet. He is a professor at the Department of Human Sciences at The Ohio State University, Columbus, OH, and teaches in the Kinesiology Program. His lecture was part of the 24th Annual World Conference on Anti-Aging Medicine in Las Vegas, Dec. 9 to 11, 2016.

There were 58 slides, some of them very detailed. I will summarize as best as I can what the presentation was all about.

History of diets

Dr. Volek stated that there were unintended consequences when the low fat/ high carb diet was introduced in the 1970’s and 1980’s. Ancel Keys, a physiologist had proposed in his diet heart hypothesis that saturated fat was the culprit that caused heart attacks.

As a result all major health agencies recommended the low fat/high carb diet. Obesity, diabetes, heart attacks, and strokes were the consequences. Another offshoot later from this was the statin craze where everybody was put on statins as high cholesterol was symptomatically treated. Nothing changed the diabetes and obesity wave and heart attacks and strokes continued to kill the affected persons. Among performance athletes the hypothesis was formed that carb loading would increase muscle performance. Researchers showed evidence that carb loading would improve performance. But athletes were dissatisfied with prediabetes and metabolic problems. Both the average consumer as well as the performance athlete noted that they felt better on a low carb/high fat diet. This is what the ketogenic diet is all about.

Diet heart hypothesis

With the diet heart hypothesis the saturated fat was removed from the diet and replaced by vegetable oils rich in linoleic acid. Dr. Volek explained that blood tests and other investigations were done on people who ingested the low saturated fat/high carb diet. The question was whether this would reduce heart attack rates and deaths by lowering serum cholesterol.

The Minnesota Coronary Experiment was a double blind study, which answered this question.

Cholesterol was reduced in the experimental group. But there was no reduction of heart attacks or strokes compared to a control group. Of concern was the large amount of refined carbohydrate content with the low fat diet. This essentially was responsible for the obesity and diabetes wave. The excess sugar turned into fat deposits and to insulin resistance, which caused diabetes. The low saturated fat/high carb diet of the 1960’s to 1990’s did not reduce heart attacks and strokes. To the contrary: the obesity/type 2 diabetes wave it had caused increased mortality from strokes and heart attacks further.

Laboratory tests on low fat/high carb diet versus the ketogenic diet

Forget hypotheses for a moment. Let us review what the different diets do in terms of lab tests. In a study where physicians put 40 overweight people with metabolic syndrome on a low fat diet or a low carb/ketogenic diet, they received the following blood test results. There were 20 patients in each group.

  1. Low fat/high carb diet

Triglycerides in the blood went down by 20%, saturated fatty acids by 22%. LDL (the bad cholesterol) rose by 4%. Insulin levels went down by 17% and leptin levels also down by 17%. Glucose levels were down by 1%.

  1. Low carb/ketogenic diet

Triglycerides went down by 52%, saturated fatty acids by 57%. LDL (the bad cholesterol) went down by 18%. Insulin levels went down by 49% and leptin levels by 42%. Glucose levels were down by 11%.

In this group of 20 subjects for each group the body mass index went down by 5% for the low fat diet and by 10% for the ketogenic diet after 3 months. The abdominal fat went down in that time by 12% for the low fat diet and by 20% for the ketogenic diet. The conclusion from these laboratory results and from the body measurements is that the low fat diet is showing some results of weight loss, but the ketogenic diet has superior results. The same is true for the blood tests. Only the ketogenic diet showed reduction of 7 key anti-inflammatory markers. In contrast, the low fat diet did not trigger the production of a single anti-inflammatory marker.

Anti-inflammatory benefits of the ketogenic diet

A 2008 study showed that several anti-inflammatory markers were greatly reduced from the ketogenic diet while a low fat diet did not show such a reduction.

As this 2009 study showed the LDL particles were getting bigger under the influence of a ketogenic diet, but they were getting smaller with a low fat diet.

Large LDL particles are also called pattern A particles, while small LDL particles are also called pattern B particles.

As this link shows there is good evidence that small LDL particles oxidize easier and are more atherogenic (causing hardening of the arteries). This means they lead to hardening of the arteries easier translating into heart attacks and strokes down the road. It is one thing that a ketogenic diet leads to larger LDL particles, which are more resistant to oxygenation. But it is another good thing that this diet is also anti-inflammatory. Overall this means that a ketogenic diet is counteracting the development of heart attacks and strokes.

Are saturated fatty acids in the diet causing heart attacks or strokes?

Dr. Volek discussed several large studies that have investigated this question. One of these studies discussed was a metaanalysis from 2010. Like all the other studies it showed that saturated fatty acids do not cause heart attacks and strokes. This is the secret behind the Inuit and the Eskimo diet. It is a high fat and meat diet. There is lots of seafood on the menu as well, which provides omega-3 fatty acids.

Dr. Volek pointed out that if you replace a certain percentage, let’s say 5% of saturated fatty acids with carbohydrates, this would cause 7% more heart attacks. He showed literature evidence to back this up. What causes increased heart attacks and strokes is more refined carbs in your diet (sugar and starchy foods!).

Do saturated fatty acids in your blood increase the risk for disease?

Dr. Volek showed several slides with references to various publications. Elevated saturated fatty acids in the blood cause a higher risk of getting a heart attack, heart failure, metabolic syndrome and diabetes. But this does not happen with a ketogenic diet. The values of the saturated fatty acids in the blood are 4% lower with the start of a ketogenic diet. With a low carb diet the calories derived from carbs are 12%. In comparison a low fat diet has 56% of carbs. Protein content in the low fat diet is 20%, in the ketogenic diet 28%. Saturated fat content in the low fat diet is 24%, in the ketogenic diet it is 59%.

Comparison of saturated fatty acid diet with the ketogenic diet

Let’s assume that both diets remain at 1500 Cal. per day. Then the saturated fat content for the low fat diet is 12 grams and the carbohydrate content is 208 grams. For the ketogenic diet these values are as follows: 36 grams of saturated fat and 45 grams of carbohydrates. Although there was a threefold higher saturated fatty acid intake, measurements of the circulating level of saturated fatty acids were 4% lower.

You are what you eat, but go easy on carbs

Dr. Volek pointed out that what makes you healthy or sick is how many carbs you include in your diet. If you follow a ketogenic diet with only 12% carbs you are much better off than when you follow a diet like the low fat diet with 56% of carbs. The higher the carb percentage in your food, the higher the production of saturated fatty acids in your system and the higher the storage of saturated fatty acids in your body fat. Conversely, the lower the carb percentage in your food is the higher the oxidation of saturated fatty acids will be.

Low fat diet compared to ketogenic diet

In other words the saturated fatty acids disappear from your blood. Also, with a ketogenic diet the storage of saturated fatty acids is lower in your body fat. With a low fat diet your insulin resistance increases, while with a ketogenic diet insulin resistance decreases. The difference in calories in these two diets (56% derived from carbs in a low fat diet versus 12% derived from carbs in a ketogenic diet) explains why the obesity/type 2 diabetes wave has developed and why heart attacks and strokes still top the mortality figures today.

Endurance athletes win medals on a ketogenic diet

Dr. Volek shared a few cases of world-class athletes that are on a ketogenic diet. They did well for themselves winning medals. Tim Olsen won the Western States 100-mile endurance run from Squaw Valley to Auburn, CA in 2012. Zach Bitter was the 100-mile track record holder in 2015. Mike Morton won the American 24-hour distance running record for 172 miles. Two Tour De France bicyclists made first and second place, Chris Froome (first place) and Romain Bardet (second place).

Sports teams also have been successful on a ketogenic diet: the Columbus Crew soccer team; New Zealand national rugby union team, commonly called the All Blacks; the Los Angeles Lakers basketball team are all on ketogenic diets.

Dr. Volek also pointed out that the military has tested the ketogenic diet. A ketogenic diet restores metabolic health, gives the soldiers more endurance, more stress resistance and decreased fatigue.

Benefits Of The Ketogenic Diet

Benefits Of The Ketogenic Diet

Conclusion

A ketogenic diet is on the one end of the carb spectrum with only 10 to 12% of calories derived from carbs. At the other end is the low fat/high carb diet that caused the obesity/diabetes wave. The Mediterranean diet is in the center. The more you are able to cut down the carb percentage in your diet by cutting out sugar and starchy foods, the more your metabolism stabilizes and blood tests can be measure this. The ketogenic diet makes you lose weight down to your ideal weight and makes you gain more muscle strength and physical endurance. Sophisticated blood tests have shown that inflammatory markers go down on a ketogenic diet and factors that lead to hardening of arteries also go down.

The end result of being on a ketogenic diet

The end result on the ketogenic diet is that the rate of heart attacks and strokes goes down, something which was the original goal of Ancel Keys. It did not work, but it promoted a wave of diabetes and heart disease! Ironically adding saturated fat and other healthy fats while cutting down carbs will achieve disease prevention. This is the opposite of what Ancel Keys had recommended to do and what the processed food industry has mimicked. The ketogenic diet lowers mortality by cutting down heart attacks and strokes. With this knowledge it will finally be possible to get people on a path to better health.

More information about ketogenic diet: https://www.dietdoctor.com/low-carb/keto

Jan
28
2017

Cardiovascular Disease And Inflammation

Dr. Mark Houston talked about cardiovascular disease and inflammation – “the evil twins”. He presented this lecture at the 24th Annual World Congress on Anti-Aging Medicine (Dec. 9-11, 2016) in Las Vegas. Dr. Houston is an associate clinical professor of medicine at the Vanderbilt University Medical School in Nashville, TN 37232.

New thinking about cardiovascular disease and inflammation

Dr. Houston pointed out that the old thinking about cardiovascular disease is defunct, needs replacing and, of course, that the new thinking needs to take its place. Specifically, here are a number of points regarding the new thinking.

  1. Coronary heart disease and congestive heart failure are diseases of inflammation. In the same fashion, oxidative stress, vascular immune dysfunction and dysfunction of the mitochondria are also part of them.
  2. Moreover, in the past it was difficult to reduce these cardiovascular diseases. In contrast, with the new thinking there are now new treatment approaches that help cure cardiovascular disease.
  3. On the whole, the development of heart disease has a long history. First, endothelial dysfunction predates coronary artery disease by many years. Second, the next step is vascular smooth muscle dysfunction. Finally, inflammation develops and structural changes occur in the small and larger blood vessels with atheromatous deposits (plaques) and final occlusion, at which point you get a heart attack.

New approach to the old problem of plugged coronary arteries

Canadian physician Sir William Osler has already stated more than 100 years ago “A man is as old as his blood vessels”. In the first place, the old thesis was that cholesterol would lead to deposits that close coronary blood vessels and cause heart attacks. Dr. Houston called this the “cholesterol-centric “ approach. In reality, the truth is that with conventional blood tests you are missing 50% of all the high-risk patients that are going to develop heart attacks. They are missing the ones that have chronic inflammation, but normal cholesterol levels.

Coronary artery damage from cholesterol elevation versus inflammation

What was not common knowledge in the past was that oxidative stress associated with normal aging can also lead to chronic low-grade inflammation. This oxidative stress leads to mitochondrial DNA changes. Associated with it are biochemical changes that cause chronic inflammation, which in turn will affect the lining of the arteries. The literature describes a metabolic change that known as metabolic syndrome. It leads to high blood pressure, hardening of the arteries and eventually heart attacks and strokes. Accordingly, the key today is to include in screening tests all parameters that will predict who is at risk to develop a heart attack or not.

Blood tests to screen for cardiovascular disease and inflammation

The physician should check blood tests and health history for dyslipidemia, high blood pressure (hypertension), hyperglycemia, smoking, diabetes, homocysteinemia, obesity etc. Also, patients with high GGTP (gamma-glutamyl transferase) levels in the blood are more at risk to develop diabetes. This in turn leads to inflammation of the arterial wall and heart attacks. There are 25 top risk factors that account for all causes of heart attacks.

Briefly, apart from the 7 factors already mentioned above the physician wants to check for high uric acid levels (hyperuricemia), kidney disease, high clotting factors (fibrinogen levels), elevated iron levels, trans fatty acid levels, omega-3 fatty acid levels and omega-6 to omega-3 ratio, low dietary potassium and magnesium intake with high sodium intake, increased high sensitivity C reactive protein level (hs CRP measuring inflammation).

Further high risk factors for coronary artery disease

The list to test for cardiovascular disease risk continues with blood tests for vascular immune dysfunction and increased oxidative stress, lack of sleep, lack of exercise, subclinical low thyroid levels, hormonal imbalances for both genders, chronic infections, low vitamin D and K levels, high heavy metals and environmental pollutants.

The speaker stated that he includes a hormone profile and vitamin D levels. He does biochemical tests to check for mitochondrial defects. Micronutrients are also checked as cardiovascular patients often have many nutritional deficiencies coupled with cardiovascular factors. Inflammation is monitored through testing the levels of C-reactive protein (CRP).

The Rasmussen score

In order to assess the risk of a patient Dr. Cohen, a cardiologist has developed the Rasmussen score, which is more accurate than the Framingham score.

The following tests are performed on the patient: computerized arterial pulse waveform analysis (medical imaging), blood pressure at rest and following exercise and left ventricular wall of the heart by echocardiography. Further tests include urine test for microalbuminuria, B-type natriuretic peptide (BNP, a measure of congestive heart failure), retinal score based on fundoscopy, intima-media thickness (IMT, measured by ultrasound on the carotid artery) and electrocardiogram recording (EKG).

Here is what the Rasmussen score means:

  • With a disease score of 0 to 2: likely no heart attack in the next 6 years
  • The disease score is 3 to 5: 5% likely cardiovascular events in the next 6 years
  • Disease score > 6: 15% likely cardiovascular events in the next 6 years

Non-intervention tests to measure cardiovascular health

1. The ENDOPAT test

With this test the brachial artery is occluded with a blood pressure cuff for 5 minutes. Endothelial dysfunction is measured as increased signal amplitude. A pre- and post occlusion index is calculated based on flow-mediated dilatation. The values are interpreted as follows: an index of 1.67 has a sensitivity of 82% and specificity of 77% to predict coronary endothelial dysfunction correctly. It also correlates to a future risk for coronary heart disease, congestive heart disease and high blood pressure.

2. The VC Profile

This test measures the elasticity of the arteries. There is a C1 index that measures the elasticity of the medium and smaller vessels and the C1 index, which measures elasticity of the larger arteries and the aorta. The smaller the numbers are, the less elastic the arterial walls.

3.The Corus CAD score

This is a genetically based blood test. The score can be between 0 and 40. If the score is 40, there is a risk of 68% that there is a major blockage in one or more coronary arteries.

4. Coronary artery calcification

The CAC score correlates very well with major event like a heart attack. There is a risk of between 6- and 35-fold depending how high the CAC score is. The key is not to wait until you have calcification in your coronary arteries, but work on prevention.

Treatment of cardiovascular disease and inflammation

When the doctor treats heart disease, all of the underlying problems require treatment as well. It starts with good nutrition like a DASH diet or the Mediterranean diet.

Next anti-inflammatory and other supplements are added: curcumin 500 mg to 1000 mg twice a day, pomegranate juice ¼ cup twice per day, chelated magnesium 500 mg twice per day, aged garlic 1200 mg once daily, taurine 3 grams twice per day, CoQ-10 300 mg twice per day and D-ribose 5 grams three times per day. This type of supplementation helps for chest pain associated with angina. On top of this metabolic cardiology program the regular cardiac medicines are also used.

Additional supplements used in the metabolic cardiology program may be resveratrol 500 mg twice per day, quercetin 500 mg twice per day, omega-3 fatty acid 5 grams per day, vitamin K2 (MK 7) 100-500 micrograms per day and MK4 1000 micrograms per day. In addition he gives 1000 mg of vitamin C twice per day. This program helps in plaque stabilization and reversal and reduction of coronary artery calcification.

Case study showing the effect of metabolic cardiology program

Here is a case study where Dr. Houston treated a heart patient. He was a white male, first treated for congestive heart failure as a result of a heart attack in June 2005. Initially his ejection fraction was 15-20%. His medications were: digoxin 0.25 mg once daily, metoprolol 50 mg twice per day, ramipril 10 mg twice per day, spironolactone 25 mg twice per day and torsemide 20 mg once daily. These medications remained in place, but the patients followed the metabolic cardiology program in addition. Here are the results of his ejection fraction (EF) values after he was started on the metabolic program:

  • Initial measurement: EF15-20%. Marked shortness of breath on exertion.
  • 3 months: EF 20-25%. He reported improved symptoms.
  • 6 months: EF 25-30%. He said that he had now minimal symptoms.
  • 12 months: EF 40%. He had no more symptoms.
  • 24 months: EF 50%. He reported: “I feel normal and great”.
  • 5 years: EF 55%. He said” I feel the best in years”.

A normal value for an ejection fraction is 55% to 70%.

Cardiovascular Disease And Inflammation

Cardiovascular Disease And Inflammation

Conclusion

Testing for heart disease risk has become a lot more sophisticated than in the past, and the tests have opened up a window to early intervention. Metabolic cardiology is a new faculty of cardiology that assists in the reversal and stabilization of heart disease. It will help high blood pressure patients and stabilizes diabetes, which would otherwise have deleterious effects on heart disease. Metabolic cardiology improves angina patients. It also prevents restenosis of stented coronary arteries. As shown in one clinical example reduced ejection fractions with congestive heart failure will improve. The metabolic cardiology program achieved all of these improvements.

As usual, prevention is more powerful than conventional treatment later. To give your cardiac health a good start, don’t forget to cut out sugar, exercise regularly and follow a sensible diet.

Jan
14
2017

How To Avoid Being Hungry

Dr. Ludwig gave a lecture about how to avoid being hungry at a conference in Las Vegas. The actual topic was “Always Hungry?” I attended the 24th Annual World Congress on Anti-Aging Medicine (Dec. 9-11, 2016) in Las Vegas where this lecture was given. Dr. Ludwig is a Harvard-based endocrinologist who has been researching weight loss methods and obesity for over 20 years. Here is a list of his major publications.

Dr. Ludwig stated that the low fat/high carb diet popular in the1980’s until the early 2000’s was misguided and probably even harmful. The theory at that time was that obesity was caused by too much saturated fat. This has since been proven to be wrong. Instead it has been proven that increased sugar intake is responsible for the obesity wave.

General information about weight gain

The carbohydrate-insulin model states that without insulin you cannot gain weight, because in order to store fat in fatty tissue you need insulin to transport fatty acids across the cell membrane of fat cells.

In this context it is important to note that high glycemic index food increases the blood sugar. This leads to stimulated insulin production, and the liver converts the extra sugar into fatty acids that get deposited as fat in fatty tissue.

The glycemic load from a person’s diet is the single best predictor for a rising blood sugar level. After food intake the blood sugar goes up, glucagon goes up, epinephrine goes up within 4 hours. It is the epinephrine, which after 4 hours makes you hungry again.

The nucleus accumbens is the addiction center. At 4 hours after a high glycemic index milk shake the nucleus accumbens was stimulated in 12 subjects of a double blind trial.

The nucleus accumbens does not work in isolation. It is not only involved in food satisfaction, but also in sexual satisfaction and even plays a role in satisfaction that some people get from playing video games.

Low-carbohydrate, Mediterranean or low-fat diet

In an Israeli study from the New England Journal of Medicine in 2008 investigators were interested to find out which diet was helping people to lose most weight.

322 moderately obese subjects that were aged 52 years on average were randomized to one of the following diet groups.

They compared

  1. a low fat diet (Atkins type, restricted calorie) with a
  2. Mediterranean diet (low carb, restricted-calorie) and a
  3. Low fat/high carb diet (low fat, non-restricted-calorie)

What was the result? The mean weight losses were: 2.9 kg (low fat group), 4.4 kg (Mediterranean diet group), and 4.7 kg (low fat/high carb group). Of the 272 participants who had completed the intervention after two years of the study the weight loss was 3.3 kg, 4.6 kg, and 5.5 kg in the same sequence as above.

Next the researchers examined the ratio of total cholesterol to high-density lipoprotein cholesterol, which is a measure for the heart attack risk. It was 20% lower from the baseline in group 2 (Mediterranean diet group). The low fat groups (group 1 and 3) were 12% lower from the baseline.

36 subjects had diabetes. There was a clear winner with respect to lower fasting blood sugar and insulin levels, namely the Mediterranean diet (group 2).

The authors concluded that the Mediterranean diet is preferable to low fat diets as they have shown an improvement in lipid profiles and in control of diabetes.

The “POUNDS LOST” study

This was a 2-year study that investigated 4 different lower calorie diets to help people lose weight. Despite the significant difference in diet composition, these 811 free-living overweight or obese adults ages 30-70 from Boston, MA and Baton Rouge, LA lost 16 pounds at 6 months and 9 pounds at the end of two years. The diets were 1) low fat (20%) or 2) high fat (40%) 3) average protein (15%) or 4) high protein (25% of total calories).

The authors concluded that any reduced, calorie-controlled diet would help obese or overweight people to achieve weight loss that lasts. It is interesting that it did not matter whether the diet was low or high in fat, or had low or high protein content. What did matter was that all diets were low in sugar.

Sugar is the driving force

Dr. Ludwig pointed out that without insulin you couldn’t gain weight. High glycemic index food increases blood sugar. The glycemic load is the single best predictor to indicate whether a person will gain weight or lose weight when you consume food. It is an irony that in the 1980’s and 1990’s the wrong assumption that a low fat/high carb diet would be heart healthy created the obesity wave. We have abundant data available that show otherwise: high sugar content of food brings the calorie count up as everybody can read on the food labels.

Sugar stimulates the food addiction center

This will lead to weight increase, which has been abundantly proven. Sugar also stimulates your nucleus accumbens, the food addiction center. As you probably know it is extremely difficult to get out of this food addiction cycle unless you cut out sugar. You even need to go one step further and include many starchy foods that will within 30 minutes of digesting them turn into sugar. Your system makes no difference whether you eat a few teaspoons of sugar or two slices of white bread. The response of your pancreas is insulin, which gladly stores the fatty substances your liver made as fat.

How to get out of the vicious food cycle

As the quoted publications and many other ones have shown, it only matters that you limit your refined carb intake. You can vary the fat content and you can vary the protein content and still lose weight provided you watch the low carb intake. You also need portion control, which is a given! Study glycemic index and glycemic load sites on the Internet. The links I provided are just some examples. The more you educate yourself about carbs, the better for you. Note that many fruit and vegetables belong to the low-glycemic load/index foods. Avoid the high glycemic index foods like dates and cornflakes. Stick to low-glycemic index foods, which are less than 55. With regard to low-glycemic load food the values should be below 10.

The Mediterranean diet is a very desirable diet, which has been proven to be anti-inflammatory.

The zone diet of Barry Sears is also an anti-inflammatory diet and he summarizes this in this link.

How To Avoid Being Hungry

How To Avoid Being Hungry

Conclusion

I have summarized the content of a talk given by Dr. Ludwig. We learnt from this that sugar and refined carbs are the driving force that leads to “feeling hungry”. This stimulates your nucleus accumbens, the food addiction center. Let’s assume that a person is obese or overweight and wants to lose some weight. You need to start by being strict with yourself. Cut out sugar and high-glycemic foods. This will remove the food addiction factor that keeps you going back to the wrong, high calorie foods. You will also consume more low calorie vegetables and fruit, which have more fiber that fills you up.

Monitor your body mass index

Once you are used to the new way of eating, there is no need to count calories. I recommend that you weigh yourself daily on body composition scales and record the results. This allows you to monitor your body mass index (BMI), your weight, your fat percentage, and your muscle percentage. Typically you will lose 2 to 3 pounds per week on such a low-calorie diet. Later the weight loss will slow down to 1 to 2 weeks per week until you reach your goal. Don’t go lower than a BMI of 21.0 to 22.0 and discuss your goal with your doctor.

Dec
17
2016

Magnesium Is Essential To Life

Magnesium is an important co-factor in many biochemical reactions, so magnesium is essential to life.

Many diverse diseases and cancers can develop from magnesium deficiency. The key is to supplement with magnesium regularly to get more than the government recommended daily allowance (RDA). The RDA for magnesium is 420 mg a day for males and 320 mg a day for females.

In the following I will review the diseases that occur without enough magnesium on board.

A lack of magnesium can cause heart disease

In this 2014 study 7216 men and women aged 55-80 with at high risk for heart attacks were followed for 4.8 years. The risk of death from a heart attack was found to be 34% lower in the high tertile magnesium group when compared to the lower magnesium tertile group.

The protective mechanism of magnesium was found to be as follows. Magnesium counteracts calcium and stabilizes heart rhythms. Magnesium helps to maintain regular heart beats and prevents irregular heart beats (arrhythmias). It also prevents the accumulation of calcium in the coronary artery walls. This in turn is known to lower the risk of heart attacks and strokes.

Another study, which was part of the Framingham Heart Study, examined calcification of the heart vessels and the aorta as a function of magnesium intake.

There were 2,695 participants in this study. For each increase of 50 mg of magnesium per day there was a 22% decrease in calcification of the coronary arteries. For the same increase of magnesium the calcification of the body’s main artery, the aorta, fell by 12%. Those with the highest magnesium intake were 58% less likely to have calcifications in their coronary arteries. At the same time they were 34% less likely to have calcifications of the aorta.

In a Korean study a group with low magnesium levels was at a 2.1-fold higher risk of developing coronary artery calcifications compared to a group with normal magnesium levels.

Low magnesium increases your stroke risk

In a 2015 study 4443 subjects, men and women aged 40-75 were followed along.

928 stroke cases developed. The researchers compared the group with the highest 30% of magnesium intake with the lowest 10% of magnesium intake. They had significantly lower blood pressure (7 mm mercury) and lower total cholesterol levels. They also had 41% less strokes than those with low magnesium intake.

In a 2015 study that lasted 24 years the authors investigated 43,000 men.

Those with the highest magnesium supplement had a 26% lower stroke risk. Those with the lowest magnesium intake served as a control.

Among women low magnesium levels were shown to cause 34% more ischemic strokes than in controls.

This study included 32,826 participants in the Nurses’ Health Study. Examiners followed them for 11 years.

It is clear from all these studies that supplementation with magnesium can prevent strokes.

Magnesium protects kidney function

This study examined 13,000 adults for 20 years to see how kidney function was dependent on magnesium levels. Those with the lowest magnesium levels had a 58% higher risk of developing chronic kidney disease. It makes sense when you consider that magnesium is necessary to keep arteries healthy, blood pressure low, and blood sugars stable. When diabetics do not control their blood sugars optimally their kidneys develop kidney disease. The term for this is diabetic nephropathy. In the presence of magnesium supplementation and a low sugar diet people are less likely to develop diabetes or kidney disease.

Magnesium helps blood sugar control

A metaanalysis showed that magnesium supplementation was able to improve blood sugar control. This occurred in both diabetics and borderline non-diabetics within 4 months of supplementing with magnesium.

An important factor in helping control blood sugar is magnesium. Here is an article as an example.

Magnesium good for bones and teeth

Magnesium is important for calcium metabolism and this is helping your bones and teeth to stay strong. The bones store half of the body’s magnesium. Another location for magnesium are in our teeth.

Low levels of magnesium lead to osteoporosis, because one of the two structural components of bone (calcium and magnesium) is missing. In addition low magnesium causes inflammatory cytokines to increase. These break down bones. The Women’s Health Initiative showed that when daily magnesium intake exceeded 422.5 mg their hip and whole-body bone mineral density was significantly greater than in those who consumed less than 206.6 mg daily.

With regard to healthy teeth magnesium is important as it prevents periodontal disease.

This study found that there was less tooth loss and there were healthier periodontal tissues in 4290 subjects between 20 and 80.

Those who took magnesium supplements had healthier teeth.

Migraine sufferers improve with magnesium

A double blind randomized study showed that magnesium supplementation can reduce migraines. The researchers in this trial used 600 mg of magnesium supplementation for 4 weeks.

This reduced migraines by 41.6% in the magnesium group compared to the non-supplemented control group.

Another study showed that both intravenous and oral magnesium are effective in reducing migraine headaches.

Intravenous magnesium showed effects on improving migraines within 15 – 45 minutes. The authors concluded that one could supplement other migraine treatments with both oral and intravenous magnesium.

Too little magnesium can cause cancer

It may surprise you to hear that magnesium can even prevent some cancers. Two cancers have been studied in detail. I will limit my discussion to these two.

Pancreatic cancer

One study found that pancreatic cancer was reduced. Researchers recruited 142,203 men and 334,999 women between 1992 and 2000 and included them in the study. After 11.3 years on average 396 men and 469 women came down with pancreatic cancer. On the male side they found that when the body mass index (BMI) was greater than 25.0 there was a 21% reduction of pancreatic cancer for every 100 mg of added magnesium per day. There were a lot of smokers on the female side, which interfered with the study as confounding factors undermined statistical validity.

In another study, the US male Health Professionals Follow-up Study was examined after 20 years of follow-up. Those with a BMI of above 25.0 on magnesium supplementation had a reduced risk of pancreatic cancer. The pancreatic cancer rate in the higher magnesium group was 33% lower than in the lower magnesium group. The higher group consumed 423 mg of magnesium daily, the lower group 281 mg per day. It is significant that in both studies it was the heavier patients who came down with pancreatic cancer. It is common knowledge that obesity is a pancreatic risk factor.

Colorectal cancer

A study done on Japanese men showed that magnesium could protect them significantly from colon cancer.

Men who consumed the highest amount of magnesium developed 52% less colon cancer over 7.9 years. Researchers compared them to the group with the lowest 20% intake of magnesium. The women in this study did not reach statistical significance.

A study from the Netherlands examined colon cancer in patients. They found that only in patients with a BMI of greater than 25.0 magnesium did have protective effects. For every 100 mg of magnesium per day increase there was a 19% reduction of colon polyps. And there was also a 12% reduction of colorectal cancer for every 100 mg increase of magnesium per day.

Magnesium plays an important role in genome stability, DNA maintenance and repair. It also prevents chronic inflammation and reduces insulin resistance, all factors contributing to cancer reduction.

Live longer with magnesium

Consider that magnesium is the fourth most common mineral in the body. Add to this that magnesium is a co-factor of more than 300 enzymes in the body. Magnesium is an important co-factor in the conversion of chemical energy from food that we ingest. Magnesium is regulating blood sugar, blood vessel health and our brain electrical activity. 50% of our stored magnesium is located in our bones, which helps the strength and integrity of them.

Because of the distribution of the enzymes to which magnesium is a co-factor, virtually every cell in the body depends on our regular intake of magnesium.

Magnesium deficiency develops in older age

Since the 1950’s soils have lost magnesium where farmers grow vegetables and raise fruit trees. We simply do not get enough magnesium from food.

But chelated magnesium is freely available in health food stores. Take 250 mg twice per day, and you will have enough.

Because our metabolism slows down, there is a critical age where magnesium deficiency becomes more obvious than when we are younger. By the age of 70 there are 80% of men and 70% of women who do not get the minimum of magnesium-required amount they should get (350 mg for men and 265 mg for women).

Proton pump inhibitors lowering magnesium levels

At this age many people are on multiple drugs. For many proton pump inhibitors (PPI) are used to suppress acid production in the stomach. PPI’s have been associated with low magnesium blood levels. This link explains that when a patient takes PPI’s the total time of taking the medication should not exceed 1 year.

Low magnesium levels accelerate the aging process on a cellular level. Low magnesium levels increase senescent cells that can no longer multiply. Some of them could cause the development of cancer. These senescent cells also can no longer contribute to the immune system. This causes more infections with an adverse outcome.

Remember to take chelated magnesium capsules or tablets 250 mg twice per day and you will be protected from low magnesium levels in your body.

Here is why we live longer with magnesium supplementation

Our blood vessels will not calcify as early; they keep elastic for longer, preventing high blood pressure. Our kidneys will function longer with magnesium, preventing end-stage kidney disease. We need our kidneys to detoxify our system! More than 300 enzymatic reactions all over our body help that we have more energy and also help to prevent cancer. When there are fewer strokes and less heart attacks this helps reduce mortality. Magnesium supplementation helps to lessen the risk for Alzheimer’s disease and also reduces insulin resistance. Researchers have shown that this prevents Alzheimer’s disease.

The bottom line is we live longer and healthier; that is the meaning of longevity.

Magnesium Is Essential To Life

Magnesium Is Essential To Life

Conclusion

Magnesium is a key essential mineral. It balances calcium in the body and participates in many enzymatic reactions in the body as a cofactor. As long as we have enough of this mineral we won’t notice anything. It is with magnesium deficiency that things go haywire. Heart disease or a stroke could affect you . You could get kidney disease. And you could even get pancreatic cancer or colorectal cancer. If this is not enough, magnesium deficiency can cause diabetes, osteoporosis and bad teeth. You may suddenly die with no obvious cause. But, if balance your your magnesium blood level by taking regular supplements, you will carry on living and eliminate a lot of health problems.

Nov
12
2016

Stress Drives Our Lives

Every year the American Psychological Association (APA) monitors the American public how stress drives our lives. This yearly report has been compiled since 2007. About 75% of the people questioned reported that they have experienced moderate to high stress over the past month.

Symptoms when stress drives our lives

What kind of symptoms can stress cause? It can cause sleep deprivation, anxiety, headaches and depression. But there can be more symptoms from any disease that stress may cause. The “Stress in America” report from February 2016 shows on page 5 that unhealthy life habits are used by low-income Americans to cope with stress. A bar graph shows that watching television or movies for more than 2 hours per day is common. Another way of coping is to surf the Internet more often, take more naps or sleep longer. Eating more, drinking alcoholic beverages and smoking more are other unhealthy ways to cope with stress.

As the stressed person gains extra weight and eventually becomes obese, there is a higher rate of diabetes that can develop with all of its complications.

Causes of stress in our lives

The “Stress in America” survey was based on 3,068 adults in the US who completed the survey during August 2015. 72% were stressed out about financial issues. 22% of these said that they were extremely stressed in the past month as a result of money concerns. Other common concerns were work, the economy, family responsibilities and concerns about personal health. Average stress levels among Americans decreased when compared to 2007. On a 10-point stress score respondents rated their stress at 4.9 in 2016 compared to 6.2 in 2007. But according to the American Psychological Association this is much higher than a stress rating of 3.7 considered to be a healthy level.

Stress affects people from all walks of life, workers, women, young adults, students and those with lower incomes.

“Stress is caused by the loss or threat of loss of the personal, social and material resources that are primary to us” Stevan Hobfoll, PhD, a clinical psychologist from Rush University Medical Center said. “So, threat to self, threat to self-esteem, threat to income, threat to employment and threat to our family or our health…” is what causes stress.

Stress drives our lives causing disease

When stress is too much for our system, we are starting to see pathology develop. “Stress is seldom the root cause of disease, but rather interacts with our genetics and our state of our bodies in ways that accelerate disease” professor Hobfoll says. The following are common diseases that can result from chronic stress.

Heart attacks and strokes

In a 2015 Lancet study 603,838 men and women who worked long hours were followed for a mean of about 8 years with respect to heart disease or strokes. All of the subjects were free of heart attacks and strokes when they entered into the study. There were a total of 13% more heart attacks in those who worked extra hours in comparison to those who worked 40 hours per week or less. With respect to strokes there were 33% more strokes in those who worked long hours. Researchers noted a dose-response curve for strokes in groups with various workloads. Compared to standard working hours there were 10% additional strokes for 41-48 working hours, 27% for 49-54 working hours and 33% for 55 or more working hours per week.

Stress drives our lives and causes substance abuse

In order to cope with stress many of us treat daily stress with alcohol. It makes you feel good subjectively, but it can raise your blood pressure causing heart attacks and strokes down the road. A low dose of alcohol may be healthy, but medium and high doses are detrimental to your health.

Next many people still smoke, although scientists have proven long time ago that it is bad for your health. It can cause heart attacks, various cancers and circulatory problems leading to leg amputations.

Overeating is another common problem. Comfort food relieves stress, but it puts on extra pounds. As you know it is easier to put weight on than get it off. Being overweight or being obese has its own problems: arthritis in the hips and knees makes walking more difficult. The metabolic syndrome sets in, which is a characteristic metabolic change causing diabetes, high blood pressure, heart attacks, strokes and certain cancers. The more weight you carry, the less likely you are to exercise. This deteriorates your health outlook.

Diabetes

Stress causes too much cortisol secretion from the adrenal glands. This raises blood sugar, and when chronic can cause diabetes. In addition unhealthy eating habits associated with stress can cause weight gain and high blood sugars leading to diabetes.

In a 2012 California study 148 adult Korean immigrants were examined. They all had elevated blood sugars confirming the diagnosis of type 2 diabetes. They had a  elevated waist/hip ratio.

A high percentage of the study subjects had risk factors for type 2 diabetes. This included being overweight or obese and having high blood glucose readings. 66% of them said that they were feeling stressed, 51% reported feeling anxious, 38% said they were feeling restless, 30% felt nervous and 3% said they were feeling hopeless.

An Australian long-term follow-up study computed risk factors for developing type 2 diabetes. Stress was a major contributor to diabetes.

A 30-day episode of any anxiety disorder had a 1.53-fold risk to cause diabetes. A depressive disorder had a 1.37-fold risk to cause diabetes and posttraumatic stress disorder had a risk of 1.42-fold to cause diabetes.

Infertility

Stress changes hormones in women causing ovulation problems and infertility. 1 in 8 couples in America have problems getting pregnant. Physicians identified stress as at least a contributing factor. But in men stress can also reduce sperm count and semen quality as this study describes.

Alzheimer’s disease

A 2010 study from Gothenburg University, Sweden examined 1462 woman aged 38-60 and followed them for 35 years.

Psychologists assessed the stress score in 1968,1974 and 1980. 161 females developed dementia (105 Alzheimer’s disease, 40 vascular dementia and 16 other dementias). The risk of dementia was higher in those women who had frequent/constant stress in the past. Women who had stress on one, two or three examinations suffered from higher dementia rates later in life. Researchers compared this to women did not have any significant stress. Specifically, dementia rates were 10% higher after one stressful episode, 73% higher after two stressful episodes and 151% higher after three stressful episodes.

Remedies for stress

Before you can attempt to remedy stress, you must first detect that you are under stress. You can recognize this when you have problems sleeping, you suffer from fatigue, when overeating or undereating is a problem, and if you feel depressed. Others may feel angry or are irritable. Some bad lifestyle habits may also make you aware that you are under stress. You may smoke or drink more in an attempt to manage stress. Some people abuse drugs.

Here are some suggestions how to remedy stress:

  1. Seek support from family, friends or religious organizations. If you engage in drugs or alcohol overuse or you feel suicidal, it is best to seek the advice from a psychiatrist or psychologist.
  2. Engage in regular exercise. This produces endorphins, the natural “feel-good” brain hormone. This reduces symptoms of depression and improves sleep quality.
  3. Do something that increases pleasure, such as having a meal with friends, starting a hobby or watching a good movie.
  4. Positive self-talk: avoid negative thoughts like “I can’t do this”. Instead say to yourself “I will do the best I can”. Psychologists have developed a technique where they teach patients how to turn negatives into positives. Psychologists call this therapy “cognitive therapy”. You may want to seek the advice of a psychologist to have a few cognitive therapy sessions.
  5. Daily relaxation: you may want to use self-hypnosis, tai-chi exercises or meditation to reduce your stress levels.
Stress Drives Our Lives

Stress Drives Our Lives

Conclusion

Stress is very common. Diverse diseases like heart attacks, strokes, diabetes and Alzheimer’s disease can all be caused by stress. It is important to minimize the impact of stress by seeking family support and support from friends. Engaging in regular exercise will release endorphins and make you feel better. Relaxation exercises and seeking counselling can all help you to manage stress. You cannot ignore or simply tolerate this force in your life. Stress is indeed there, but we can make a difference by managing it to avoid that stress manages us.

Oct
01
2016

Sugar Can Cause Heart Attacks

Recently an online medical journal article from JAMA has revealed that sugar can cause heart attacks. As the Guardian reports, this analysis of influence peddling of the sugar industry going back 60 years has had far-reaching effects by confusing the public and policy makers in the US and around the world. At the same time the interference of the sugar industry was protecting its own interests. It increased sugar sales, but made people sick with obesity, diabetes and cardiovascular disease. This story is similar to the tobacco industry that was able for years to cover up that cigarette smoke is causing heart attacks and lung cancer.

Denying that sugar can cause heart attacks

The English physiologist John Yudkin noted in the 1960’s that sugar was elevating cholesterol and triglycerides. The sugar industry panicked. They wanted to do something to stop this new type of research. As we can read online the Sugar Research Foundation (SRF) had 319 correspondences (1551 pages) with Roger Adams. He was a professor serving on the SRF’s scientific advisory board (SAB) from 1959 to 1971. Another piece of evidence of influence peddling came from a review of correspondence between the SRF and D. Mark Hegsted. He was professor of nutrition at the Harvard School of Public Health. At the same time he was co director of the SRF’s first coronary heart disease research project. This took place from 1965 to 1966.

Historic falsification of research findings by John Yudkin

There are 27 documents totalling 31 pages in the Harvard medical Library. It is clear from this correspondence that the SRF was looking for a way to undermine the new research findings of negative effects of sugar. The SRF was looking for a way to confirm that fat reduction would be beneficial for patients. This way physicians would put many people on a low fat diet. This in turn would ensure continuing and rising sales of sugar.

New evidence that sugar can cause heart attacks

New research came out by D. Mark Hegsted in the Annals of Internal Medicine in June 1965. It linked sugar consumption to cardiovascular disease. It noted that blood sugar levels were a better predictor of hardening of arteries than cholesterol levels or high blood pressure. Another paper stated that it was sugar rather than starches causing high triglycerides in the blood. He hypothesized that “perhaps fructose, a constituent of sucrose but not of starch, was the agent mainly responsible.” An editorial in the same publication noted that these new findings corroborated Dr. Yudkin’s previous research that sugar could cause heart attacks.

The sugar industry was very concerned about these studies. If publicized widely, it would have the capacity to lower sugar sales.

Sugar can cause heart attacks, but review paper ignores this

On July 1, 1965, the SRF’s Hickson visited D. Mark Hegsted to discuss his publication. He wanted him to be part of an extensive literature review that would show that it was too much saturated fat that was the cause of high cholesterol and triglycerides, not sugar. It also should state that a lowering of fat content from 40% to 20% was necessary and that polyunsaturated fatty acids should be used to replace much of the fat. The fact that the food industry would quietly increase sugar content in processed foods was not mentioned. The review paper was called “Project 226”. It resulted in a 2-part literature review by McGandy, Hegsted, and Stare. It was entitled “Dietary Fats, Carbohydrates and Atherosclerotic Disease,” and was published in the New England Journal of Medicine (NEJM) in 1967. Industry and non-industry funding of the review authors’ experimental research was disclosed.

Falsified study from 1967 in the New England Journal of Medicine

However, the funding by the Sugar Research Foundation was omitted. The authors of the study received handsome amounts of money from the SRF for their efforts. The story that was told is all too well known, but false. There was the claim that the medical literature would have shown that a reduction of saturated fat intake lowered cholesterol. Triglyceride levels did not matter. Only cholesterol levels counted with respect to coronary artery hardening. There was also the statement that replacement of saturated fat with polyunsaturated fatty acids like corn oil would be beneficial in reducing heart attack rates.

Effect of the literature review on heart attack rates

Sadly the NEJM literature review has resulted in a government policy that lasted for decades. The gospel was that a low fat diet would prevent heart attacks. The food industry prepared foods that were low in fats and high in sugar and supposedly healthy. But the extra sugar made people fat, it did not decrease heart attack rates, but made them more frequent. Strokes were also on the rise and diabetes has become rampant. The reliance on corn oil has introduced another problem: omega-6 fatty acids are now consumed at an alarming rate. Corn oil has a 1:59 ratio for omega-3 to omega-6 fatty acids.

Corn oil causes inflammation

This means that corn oil contributes to the lack of omega-3 fatty acids in our food. When the ratio of omega-3 to omega-6 fatty acids falls below 1:3 or 1:4 the metabolism changes towards inflammation as the arachidonic acid system switches toward inflammation. Cardiologists have pinpointed inflammation as an important cause of hardening of arteries. Fish oil, a rich source of omega-3 fatty acids helps to prevent hard attacks and strokes.

The end result of the confusion regarding fat, sugar and heart attacks caused by the biased literature review meant misery, suffering and death for many for decades. But recently there has been a renaissance of Dr. John Yadkin’s research: Now it is clear what sugar is doing and how it affects our health.

How sugar can cause heart attacks and more

It is clear that sugary soda has detrimental effects on us: as little as one or two cans of sugary soda drinks per day lead to

  • 26% greater risk of developing type 2 diabetes
  • A 35% greater risk of heart attack or fatal heart disease
  • A 16% increased risk of stroke

Dr. Frank Hu’s study

Dr. Frank Hu has participated in a study that spanned over 24 to 30 years and examined the replacement of saturated fat with polyunsaturated fatty acids (PUFA), monounsaturated fatty acids and whole grain carbohydrates. The study involved 84,628 women (Nurses’ Health Study, 1980 to 2010), and 42,908 men (Health Professionals Follow-up Study, 1986 to 2010). The researchers did detailed diet assessments every 4 years. 7,667 cases of cardiovascular disease (CHD) occurred during the study. Compared to controls that did not change their diet with respect to saturated fatty acid intake, those who replaced with PUFA had 25% less CHD, those who replaced with monounsaturated fatty acids had 15% less CHD and those who replaced saturated fatty acid intake with whole grains had 9% less CHD. In contrast, a subgroup that had replaced saturated fatty acid intake with carbohydrates from refined starches/added sugars ended up with a 10% increase of CHD.

Effect of sugar

We know now that sugar can increase cholesterol and triglycerides as Dr. John Yudkin has said in the 1960’s.

We also know that sugar can cause arthritis when combined with low omega-3 fatty acids and high omega-6 fatty acids. In the 1950’s Dan Dale Alexander wrote a book called “Arthritis and common sense”. The medical establishment did not accept that simple remedy and Dan Dale Alexander was classified as a “quack”. However, Dr. Mirkin describes a study from Berlin that later confirmed that Dan Dale Alexander’s observation was correct: an emulsion made by shaking orange juice with cod liver oil and taken three times per day on an empty stomach would indeed improve osteoarthritis.

High glycemic foods and starchy foods cause cancer

High glycemic foods (sugar, starchy foods) caused breast cancer, colorectal cancer and endometrial cancer. The majority of trials showed this association although not all. The more obese patients were, the more pronounced the insulin resistance was and the more the relationship to these cancers became apparent. A diet that is high in starchy foods like potatoes, rice and bread is causing pancreatic cancer as was shown by researchers at the Dana-Faber Cancer Institute, Brigham and Women’s Hospital and Harvard School of Public Health.

Sugar Can Cause Heart Attacks

Sugar Can Cause Heart Attacks

Conclusion

The low fat/ high glycemic diet was a fad-diet based on fictitious science, sponsored by the sugar industry. It became a human experiment and resulted in 60 years of suffering. During that time it became apparent that this diet did not work. It caused the obesity wave, a wave of heart attacks, strokes and cancer. This was all caused by too much sugar in the diet. Associated with this are the consumption of processed foods. There is too much sugar and an abundance of omega-6 fatty acids in processed food. This causes inflammation and hardening of the arteries.

What sugar does

We finally know that sugar raises cholesterol (LDL cholesterol in particular) and triglycerides. This leads to fat deposits and hardening of the arteries resulting in strokes and heart attacks. Remove refined sugar, limit your starchy food intake and eat fish as a source of omega-3 fatty acids. Feast on vegetables, salads and have some nuts as another source of omega-3 fatty acids. You are well on your way to preventing heart attacks, strokes and many cancers. After reading all the facts, there is no need to be a victim of the sugar industry. This also helps you to stay away from sugar’s associated health risks.

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Sep
17
2016

Seven Steps To Live Over 100 Years

Forbes invited me to publish a blog I wrote for Quora, “Seven steps to live over 100 years”.

The topic of habits by people who live more than a hundred years has been reviewed many times in the media. It continues to be popular. Here are seven things you can do to stay healthy followed by an explanation why.

Seven steps to live over 100 years – step1: Stay active

You want to stay active every day, even if you retire. You want to move and keep your mind busy. Part of that is to do a daily formal exercise routine to keep those muscles toned, which will prevent falls in the future.

Explanation: when you keep your muscles toned and you move about, your balance organ and coordination remains sharp, you are less likely to fall and break a hip. 50% of those who sustain a hip fracture die.

Seven steps to live over 100 years – step 2: Eat a healthy diet

Eat a Mediterranean type diet or follow the Okinawan diet. These diets contain less meat (or no meat as in the Seventh Day Adventist diet), but lots of vegetables and fiber. This keeps your cholesterol down, your arteries open and your metabolism controlled, preventing diabetes. If you are not obese and you have no diabetes, you are going to be OK with your cardiovascular system for decades to come.

Explanation: Heart attacks are still on top of the mortality list. Avoid them and you got it made, if you want to make it to 100 and beyond. But we need to stay away from the poor fats and the obsession about eating beef. Red meat, if eaten too often gives you a higher risk of getting cancer and heart disease. So eat it only once a week at the most, the rest would be chicken, turkey meat or fish. Nothing wrong with a vegetarian meal, let’s say kidney beans or lentils on a day in between. This still gives you protein for your muscles, but spares you a heart attack.

Seven steps to live over 100 years – step 3: Take care of your teeth

Brush your teeth and floss every day. This will control the bacteria in your mouth and prevent leakage into your blood affecting your heart valves. Studies have shown that this prevents heart attacks.

Explanation: When I heard this first about 20 years ago, I found it strange. But the literature is clear: chronic gingivitis is associated with bacteria that grow on the gums and spread into your blood. They can then colonize your heart valves and even the lining of the arteries, particularly where there is already hardening of the arteries (arterial plaque). This can lead to heart valve disease like mitral valve disease or heart attacks.

Seven steps to live over 100 years – step 4: prevention of disease

See your physician right away if there is a new skin lesion or anything that is different on your body. Removal of early cancer and treatment of any early medical condition is always easier to treat than waiting until it is out of control. Particularly with cancer treatment at an early stage, which usually involves only a small surgical procedure, this will reward you with a ripe old age.

Explanation: I learnt this point in general practice. Patients who waited until small problems become big problems were always much worse off than patients who saw me for small problems that we could remedy at an early stage. As mentioned above this is particularly important in cancer cases, as usually stage 1 and 2 of a cancer is curable with surgery. Once you get lymph node metastases and distant metastases, the cancer is much more difficult to treat, if at all. This is a principle that is pretty much true for any disease. The prevention factor is huge. Make use of it!

Seven steps to live over 100 years – step 5: Lifestyle matters

Watch excesses like smoking (cut it out!), alcohol intake, and recreational drugs. Smoking causes heart attacks, strokes, and cancers, which shorten your life. Recreational drugs just interfere with your body chemistry and have side effects. Cut them out, if you cherish growing older than 100. Alcohol needs to be kept at a very low consumption, if you want to preserve your liver, which is your central metabolic organ. If you can’t handle moderation with alcohol consumption, cut it out. No one has died from not consuming alcohol.

Explanation: I have already explained why lifestyle choices matter. The alcohol question is one that will be discussed back and forth for centuries. There are cardiologists who tell you that men should drink 1 to 2 drinks per day and women 1 drink per day and we all live longer, because of prevention of heart disease. The wine industry makes sure that you will hear this cardiology rule. It is true that centenarians often drink one glass of red wine per day. But there are plenty of centenarians who never drank in their life. It is a matter of personal choice.

Seven steps to live over 100 years – step 6: Avoid obesity and diabetes

I did mention to avoid obesity under point 2 above, which is associated with metabolic syndrome and diabetes. Your ideal body mass index should be in the 21 to 22 range. You can achieve this by following the diets I mentioned above. You should cut out sugar and starchy foods.

Explanation: I have followed such a diet since 2001 and my body mass index is between 21 and 22. I grew up in Germany where an emphasis was put on sweets and starchy foods. Needless to say my modified Mediterranean diet deviates from the good old German diet significantly. I find healthy food very tasty.

Seven steps to live over 100 years – step 7: Sleep and hormones

Getting sleep regularly, having an optimistic outlook on life, and having good relationships help to keep the immune system strong and keep your hormones balanced. This in turn will keep you healthy emotionally and physically.

Explanation:

There are two comments I like to make. One is that when you have calm nerves, and your emotions are in balance, your stress hormones are under control. We know that people who are content and easy going live longer. The type A personality is the one who gets a heart attack.

The other point is that hormones have running times. When they start missing, we get menopause or andropause. When we are in our 50’s it is time to have your hormones checked by a knowledgeable health practitioner (naturopath, anti-aging physician). At this point regular physicians are mostly lack education about bioidentical hormone replacement. I mention this as in European studies it has been shown that replacement of missing hormones with bioidentical hormones resulted in more youthful lives. You can extend your life expectancy by 15 years using bioidentical hormones according to Dr. Hertoghe, an endocrinologist in Belgium.

Seven Steps To Live Over 100 Years

Seven Steps To Live Over 100 Years

Conclusion

People have had a long time fascination about the factors that lead to a healthy age above 100 years. I am suggesting that you concentrate on enjoying your life and keeping toxins out. Engage in some form of exercise or stay active all the time. Adopt a healthy diet. This is where perhaps most people go wrong. They think they can go on pouring junk foods and alcohol down their throats and never get heart disease or cancer. The truth is not quite like that. We do need to adopt a healthy diet like the Mediterranean diet. We also need to limit drinking to a healthy level. Replacing missing hormones with bioidentical ones will prolong your life as well. Given these recommendations, happy journey to 100 and beyond!

Aug
20
2016

New FDA Food Guidelines

A recent news release describes 2016 new FDA food guidelines. In it the FDA recommends to double the amount of seafood (fish and shellfish) as well as to cut down saturated fat and sugar. Coffee, which was labeled a culprit in the past is now recommended to a total of 400 mg of caffeine per day as it is heart protective. Cholesterol is no longer considered an enemy, but sugar, saturated fats and trans fats are.

Here is a breakdown of what each of these recommendations means.

New FDA food guidelines regarding increasing fish and shellfish

The anti-inflammatory effects of omega-3 fatty acids have finally entered the recommended diet plan of the FDA. This reflects the nutritional research over the last few decades that noticed a longer life expectancy for people who eat more seafood and less red meat.

The only problem with seafood can be its mercury contamination. The higher predator fish are in the food chain, the more contaminated fish meat is. The FDA recommends to avoid tuna fish as a food source, as it is very high in mercury. An exception is canned tuna as it has been washed and some of the mercury got lost in the food processing. Wild salmon, sardines and oysters are low in mercury and good sources of omega-3 oils.

New FDA food guidelines regarding reduction of saturated fat

The FDA now recommend to reduce saturated fat to 10% of the total daily caloric intake. This is not undisputed as some studies show that saturated fat may not be involved in the production of hardening of the arteries. Other studies have shown that breast cancer is more common when more saturated fat is consumed.

When the news came out in the 1980’s that saturated fats would be bad for arteries, there was a switch to polyunsaturated acids: safflower oil, canola oil, sunflower seed oil, corn oil and soybean oil or grape-seed oil.

However, the irony is that these vegetable oils were highly unstable and led to oxidation causing heart disease and cancer.

In contrast olive oil is a much more stable oil. In the Mediterranean olive oil associates with longer lives.

New FDA food guidelines regarding protective effect of coffee

In the past few years many studies have shown the coffee consumption prolongs life. The FDA has now officially recognized these studies and recommends that consumption of up to 400 mg caffeine will help promote health. On the other hand the FDA also recommends that those who do not drink coffee, should not change their lifestyle just because of these recommendations.

New FDA food guidelines regarding sugar reduction

An entirely new recommendation of the FDA says to reduce sugar in anybody’s diet. The FDA explains that too many processed foods contain sugar. Food merchants  add sugar in drinks like coffee, fruit juices, food items like muffins and cakes.

In the past decades it has become clear that sugar much more so than fat is the culprit. It is sugar and starchy food that causes hardening of arteries. The liver metabolizes sugar into triglycerides and LDL cholesterol. Elevated triglycerides and LDL cholesterol levels lead to deposited into arteries and fatty tissue. In this context it makes sense that the FDA now recommends a reduction of sugar intake.

 New FDA food guidelines regarding cholesterol

In the past scientists thought that cholesterol in meat would be the cause of high cholesterol in the blood. This was an oversimplification. We now know that only a small portion of the blood cholesterol comes from food sources.  Cholesterol from food sources is no longer of importance with regard to risks for heart attacks and strokes. It is sugar and too many starchy foods (bread, pasta, pizza, muffins, cakes cookies) that the body digests into sugar. This accounts for high cholesterol, as the liver metabolizes sugar into LDL cholesterol and triglycerides.

New FDA Food Guidelines

New FDA Food Guidelines

Conclusion

The new food guide by the FDA has fundamentally changed the previous recommendations based on newer nutritional studies. Now the FDA says to double fish and shellfish in comparison to previous recommendations. Coffee is no longer the enemy, but your friend. You need to avoid sugar and starch over consumption, as this can raise cholesterol and triglyceride levels. Eat more vegetables and fruit. These recommendations closely resemble a Mediterranean diet, which several studies tell us prolong life. Abandon the American Standard diet with hamburgers, processed foods and sugary drinks. Pay attention to the FDA food recommendations!