Jun
20
2015

Seventeen Causes Of Blood Vessel Disease

By | Fitness, heart attack, Heart Disease, High Blood Pressure, Hormones, Inflammation, kidney disease, lifestyle, Nutrition, Prevention, Stroke, Vitamins and supplements

This article is about seventeen causes of blood vessel disease. We tend to ask the question: “What is the cause of blood vessel disease”? Would you have expected that at this point there are not just one cause, but seventeen causes of blood vessel disease identified that can all be treated? In the May 2015 issue of the Life Extension Magazine one of the causes, high homocysteine has been stressed as being an important risk factor that not every health professional has yet appreciated.

In the following overview I will briefly address all of the risk factors for cardiovascular disease and then summarize what can be done to prevent heart attacks and strokes.

17 risk factors of blood vessel disease

1. Excess cholesterol: Too much cholesterol can lead to clogged arteries. When we eat too much red meat too often, this extra dietary cholesterol can elevate your total blood cholesterol.

2. High LDL cholesterol: The LDL cholesterol is often labeled the “bad cholesterol”. In reality it is the cholesterol that is being transported from the liver to all of the body cells, which utilize it to replace the aging membranes that envelop the cells. What is important to know is that sugar and starchy foods (pasta, cakes, cookies, noodles, white rice, potatoes, pizza, muffins etc.) lead to a surge of blood sugar, which stimulates the liver to produce more LDL cholesterol. Any excess sugar in the blood will oxidize the LDL cholesterol, which leads to accelerated hardening of the arteries.

Low HDL cholesterol

3. Low HDL cholesterol: HDL is the type of cholesterol that is transported from the cells back to the liver. Any oxidized LDL cholesterol is also mopped up by HDL cholesterol. HDL cholesterol has been dubbed the “good cholesterol”. It is important that LDL and HDL cholesterol are balanced. It is noteworthy that HDL cholesterol is much higher in athletes and those who exercise on a regular basis (like 5 to 7 times per week). This means that there is a surplus of the protective HDL cholesterol, which prevents hardening of the arteries.

4. Oxidized LDL: As explained above sugar and starchy foods oxidize cholesterol, so does radiation. A Mediterranean diet including olive oil will stabilize your metabolism and protect LDL from being oxidized.

High blood sugar

5. High blood sugar: In pre-diabetes and diabetes, the blood sugars are high, but they are normal in people with a normal metabolism. As explained before it is this scenario, which leads to oxidation of LDL cholesterol and accelerated hardening of arteries. This is the reason why diabetics have severe blood vessel disease with closure of major arteries like the one going to the legs. If arterial by-pass surgery is not feasible because of the severity, often a physician has no other choice but to amputate a lower leg.

6. Excess triglycerides: People with excessive weight have a change in metabolism called metabolic syndrome, where triglycerides are high. But diabetics also often have high triglyceride levels in their blood. This is an independent risk factor to develop hardening of the arteries.

Chronic inflammation

7. Elevated C-reactive protein: Dr. Paul Ridker published a landmark study in 2002 where he concluded that the blood test C-reactive protein was a reliable indicator to identify people who were at risk of developing a heart attack. It measures inflammation in the body. What is inflamed here is the lining of the arteries from oxidized LDL cholesterol. You can see a pattern. Some of these points are actually connected.

8. Low blood EPA/DHA: Essential fatty acids are not contained in processed foods. Instead the food industry puts omega-6-fatty acids into processed foods, as this is much cheaper and leads to a longer shelf life of the processed food products. Omega-6 fatty acids are the precursor for arachidonic acid, which causes inflammation, hardening of the arteries and arthritis. By introducing fish oil or wild salmon two or three times per week you can achieve a counter balance to omega-6-fatty acids. Our bodies want us to balance omega-6 fatty acids with omega-3.

Excess insulin

9. Insulin is too high: with type 2 diabetes there is a high fasting insulin level. This leads to inflammation of the blood vessel wall and triggers accelerated hardening of the arteries. It also causes narrowing of the brain arteries, and as a result the brain develops Alzheimer’s and dementia. Alzheimer’s now also has the name “type 3 diabetes”. An overweight or obese person who cuts out sugar in the diet and exercises can often control excessive weight, lower insulin and normalize cognitive deficits.

10. Excess fibrinogen: Your liver produces blood clotting factors and fibrinolytic factors that circulate in the blood balance this. In certain conditions like diabetes, or the metabolic syndrome there is too much fibrinogen production. This can lead to blood clots.

Excess homocysteine

11. Homocysteine blood level too high: Some people are born with gene defects that program our cells to run abnormal biochemical reactions in our cells. Correct methylation pathways are important for normal cell function. However, if there is a methylation defect, abnormalities set in and homocysteine accumulates. As we age, there is also a weakening of certain enzymes that facilitate the methylation pathway. With any of these enzyme defects you need to use appropriate supplements to normalize this metabolic defect. Vitamin B2, B6 and B12 supplementation will often stabilize methylation defects and homocysteine levels return to normal. Methyl folate 1 mg per day is also very useful. Some people in older age cannot metabolize folate very well. This is important as severe, familial cardiovascular disease, where people often suffer heart attacks during the best years in their lives, can be postponed this way by several years or decades.

High blood pressure

12. High blood pressure: Many people are not aware that high blood pressure is a disease where inflammation of the lining of the arteries leads to a lack of production of nitric oxide. Nitric oxide is a signaling substance contained in many vegetables, particularly in red beets. Nitric oxide is the body’s tool to keep blood pressure normal by widening the diameter of arteries. High blood pressure leads to accelerated hardening of the arteries, because the oxidized LDL cholesterol deposits itself right under the diseased lining of the arteries. Just lowering the blood pressure with medications will not remove the other risk factors; the physician will tell the patient that they have to address them separately. Nutritional researchers developed the DASH diet as a tool to lower elevated blood pressure.

Low nitric oxide

13. Low nitric oxide: Too much sugar and starch in one’s diet cause oxidation of LDL cholesterol as explained and this causes a dysfunction of the lining of the arteries resulting in less production of NO (nitric oxide). The lack of nitric oxide causes constriction in the arteries throughout the body, which will in turn elevate the blood pressure. Exercise will also lead to more nitric oxide production, but the right diet is the other factor. There is a supplement you can buy, called NEO40. The dosage is one or two Neo40 per day as a supplement, available on Amazon in the US, in health food stores in Canada. But make no mistake: it’s not about supplements; it is about the proper diet and lifestyle!

Low vitamin D3 intake and low vitamin K2 consumption

14. Vitamin D3 deficiency: I have blogged about the importance of vitamin D3 before. Researchers now consider vitamin D3 as a hormone, as all cells have receptors for this molecule. It has anti-inflammatory qualities. It helps in the prevention of heart attacks and strokes.

15. Low vitamin K2: In this blog I have explained that vitamin K2 and vitamin D3 co-operate in removing calcium from the blood and transporting it into the bone. This way they both help in the prevention of osteoporosis. A co-factor in the prevention of osteoporosis is estrogen in women and testosterone in men.

Low testosterone

16. Low free testosterone: Researchers established low free testosterone as an independent risk factor for heart attacks and strokes. In the man there are a lot of testosterone receptors located in the heart and in the brain; this explains why with a lack of testosterone there is not only erectile dysfunction, but also the risk of developing a heart attack or a stroke.

High estrogen

17. Excess estrogen: When a woman approaches menopause, her menstrual cycles can become irregular due to the fact that there are anovulatory cycles, and the progesterone production is starting to slow down. Dr. John Lee gave this hormonal state the name “estrogen dominance“, because estrogen dominates over progesterone. In other words, the ratio of progesterone over estrogen is less than 200 to 1 (progesterone/estrogen ratio) when the physician measures saliva hormone levels. This is a risk factor for hardening of the arteries. In males with a “beer belly” there is too much estrogen floating around due to an enzyme in fatty tissue, called aromatase. This enzyme manufactures estrogen out of testosterone and contributes along with other factors to causing heart attacks in that scenario.

How can we protect ourselves from these factors?

As already indicated above, there are lifestyle issues that need to be addressed as follows.

  1. First adopt a healthy diet, such as the Mediterranean diet, which includes olive oil. No sugar, no bread, pasta, potatoes, and go extremely easy on certain fruit that is high in sugar, such as dried fruit, mango, bananas and grapes, because we do not want to oxidize our LDL cholesterol for reasons explained already.
  2. Exercise regularly. If you like, go to a gym (my wife and I do this regularly). If you are insecure, ask a trainer initially to guide you through the exercise equipment. It really is not that difficult to do. You develop a routine that is good for you. Alternatively, you may want to go for a brisk walk, run or participate in dancing. If you find a particular activity boring, rotate the activities, but do not skip days, let alone weeks! Remember that your heart works 24/7!
  3. Take some vitamins and supplements: I mentioned the importance of vitamin B2, B6, B12 and methyl folate before. Take vitamin D3 in a good dose like 5000 IU per day or more and vitamin K2 200 micrograms per day. Omega-3 supplements (EPA/DHA) are very useful to keep inflammation under control. For more on vitamins and supplements follow this link.
  1. Have your hormones checked. Some doctors do not feel comfortable about this; maybe you want to see a naturopath about it instead. Your body needs the hormone receptors satisfied by adequate bioidentical hormone levels; otherwise you age prematurely and give up body functions that you would rather keep. Normal hormone levels prevent osteoporosis, premature hardening of the arteries, Alzheimer’s, erectile dysfunction and premature wrinkles.
Seventeen Causes Of Blood Vessel Disease

Seventeen Causes Of Blood Vessel Disease

Conclusion

All of these 17 factors explained above are independent risk factors for developing hardening of the arteries, which affect mainly the heart, brain and kidneys. All you need is one of these factors, and you could develop a heart attack, stroke or kidney failure. You have no problem accepting a preventative maintenance program for your car. Think of having appropriate tests at least once a year done through your doctor. There are blood tests available to monitor hormone and vitamin levels, as well as C-reactive protein and homocysteine levels. Here are also three tests that will assess your heart function.

Your doctor may not order the tests spontaneously. Ask for it!

More info about heart attack prevention: http://nethealthbook.com/cardiovascular-disease/heart-disease/heart-attack-myocardial-infarction-or-mi/prevention-heart-attack/

More info about stroke prevention: http://nethealthbook.com/cardiovascular-disease/stroke-and-brain-aneurysm/stroke-prevention/

More on arteriosclerosis (blood vessel disease):http://nethealthbook.com/cardiovascular-disease/heart-disease/atherosclerosis-the-missing-link-between-strokes-and-heart-attacks/

Jun
13
2015

Preserving Our Energy

By | alcohol, andropause, Anti-aging medicine, Cancer, Fitness, Health, heart attack, Heart Disease, High Blood Pressure, Hormones, Inflammation, Insomnia, Menopause, mitochondria, Mortality, Nutrition, Obesity, Prevention, Stress management, Stroke, Vitamins and supplements

We are all aging, and as we do we are gradually losing energy until we reach our last breath. Here I like to review where our energy comes from and what we can do to preserve our energy. When we preserve our energy we are in fact also slowing down the aging process and this in essence is the approach to anti-aging.

Mitochondria are power packs of energy

Each of our body cells has many mitochondria to give us energy. Some organs are more demanding. They are the main players in our body like the brain, the heart, the liver or the kidneys. Their cells have thousands of these energy packages. Without the mitochondria there would be no energy available to these key organs to perform all the work they do. They allow us to think and produce brain hormones, to contract our heart muscle and pump the blood through our arteries. They are organs like the liver that are in charge of all of the major metabolic reactions or the kidneys that filter our blood for impurities and eliminate them in urine. Mitochondria can be likened to our power bundles that give our organs and us energy to get through life.

Get enough sleep

Sleep is an energy rebuilder. But it has to be deep enough and long enough, and there has to be enough REM sleep to give us the feeling that we had a refreshing sleep. As we age some of our hormone production slows down. One of those substances is melatonin. It is crucial for good and restful sleep. If our body is not producing enough, we can supplement with small dosages like 3 mg orally to help our body to initiate sleep. It is not an addictive substance. It is the body’s own hormone. Should you wake up later in the night, you could take another 3 mg of melatonin. There is no risk either to feel tired or “hung over” after taking melatonin.

Exercise regularly

The cheapest energy you can get is by exercising regularly. When you exercise on a treadmill, go jogging or go for a brisk walk you condition your heart, improve your lungs; in short you develop cardiovascular fitness. At the same time your muscles are strengthened with isometric exercises. You are optimizing your energy flow. In the process of exercising you create a stimulus for your mitochondria to multiply in the affected tissues. This applies as much to your muscles as it does to your heart and to your lungs. You will find that your muscle strength increases. With exercise you spend energy, but you feel more energetic from it because your body is being tuned up.

Manage stress

Self-hypnosis is a simple way to allow your whole body to relax. However, the various forms of yoga will do the same thing for you. Meditation is another way of finding peace and tranquility. All of these methods will re-energize you. They calm your brain, help you to cope with stress and rebalance your hormones at the same time.

Lifestyle

You need a lifestyle that is conducive to keeping your energies. Listed here are several factors that interfere with energy production.

  1. Smoking: If you smoke, you burn up energy with every cigarette you consume. You interfere with the oxygen transport through your lungs, but the chemicals that poison your system also poison the mitochondria of the cells. By smoking you are destroying your power packs. Pollution damages your lungs in a similar fashion as smoking does, but it is a slower process. There are a number of big cities with severe air pollution and they may not be worthwhile visiting.
  2. Sugar and starchy foods: Back in the 1970’s based on the Framingham Heart Study it was thought that hardening of arteries would be due to an accumulation of cholesterol from fat in the diet. Saturated fatty acids were accused to be the culprit. A low fat diet was supposed to be the solution. But the end result was the obesity and diabetes wave that we still see now. There had to be another explanation of where hardening of the arteries came from. Banning fats did not lead to better statistics. The new observation was that a low carb/medium fat diet was associated with low heart attack rates, low stroke rates, and even low cancer rates. Researchers also found the real culprit: They are sugar, starchy foods and processed foods. Sugar and starchy foods are metabolized in the liver into LDL cholesterol, triglycerides and they also oxidize LDL cholesterol. This starts a vicious process of inflammation of the lining of the arteries with fat deposits into the wall of the arteries. By eating the wrong foods we interfere with our body chemistry to the point where free radicals are produced that attack everything in us including our mitochondria. I have blogged about this many times before. You can read about it here.
  3. Alcohol: the famous one glass of red wine for women and two glasses of red wine for men is supposedly keeping us younger for longer. This is true for the resveratrol in the red wine, which is a powerful antioxidant. But to say that alcohol itself would prolong your life is a white lie. Alcohol is a nerve and cell poison; it robs you of energy. I take the resveratrol as a supplement from the health food store to protect my system. I stay away from alcohol.

Keep the arteries open

We need healthy arteries to pump blood through all of the branches and deliver oxygen and nutrients to the body cells. Unfortunately, as we age our arteries tend to get deposits that make them more narrow, and this could also raise our blood pressure. The end result is that less nutrients and oxygen will reach our body cells. We perceive that something is wrong by not feeling as energetic as usual. Simple lifestyle changes as mentioned below can improve our circulation and lower our blood pressure. Chelation therapy has also been shown as helpful in the TACT study.

Get rid of inflammation

Dr. Paul Ridker found that approximately 50% of patients with heart attacks had a normal cholesterol level. He was looking for a more meaningful screening test and found it in the C-reactive protein. If the test result was higher than 3 there was a high probability that there was inflammation somewhere in the body, but a test result of less than 1 was normal. In the meantime scientists have learnt that the C-reactive protein is a very sensitive tool to measure inflammation in the body, but it is not specific for heart attacks. It is also positive in people with arthritis, cancer, and autoimmune diseases. Chronic inflammation is also destroying immune cells: this explains the development of cancer as the end stage of chronic inflammation.

Chronic inflammation robs you of energy. We can do a lot with natural anti-inflammatory supplements to quench inflammation.

Preserve your immune system

We can strengthen our immune system by exercise, taking vitamin C regularly and by taking vitamin D3 supplements to just name a few. DHEA, the precursor hormone from the adrenal gland also helps stimulate the immune system.

Balance your hormones

As we age we loose hormones one by one. With melatonin this starts happening after the age of 20, with DHEA and growth hormone after you are in your mid thirties. Women start to get into menopause at the age of 45 to 55, but this can occur earlier or later. Men are going through their hormone change (andropause) at the age of 55 to 60. Both, women and men know when they are entering their hormone change because of a lack of energy and a few other unpleasant symptoms. Women get hot flashes. Men get grumpy, have erectile dysfunction, a lack of sex drive, week muscles and slower thinking. If you feel those symptoms, seek the help of a naturopath who is knowledgeable on bioidentical hormone replacement. Chances are that your regular doctor will want to prescribe synthetic hormones unless you can find an anti-aging physician. If your blood tests show deficiencies in the sex hormones, you will need to get a bioidentical hormone prescription. They are usually dispensed as creams, which you apply to your chest wall or non-hairy forearms in the morning. After 4 weeks your energy will be back, and your body will function normally again. All the body functions that you thought were gone forever just needed that extra stimulus from the missing bioidentical hormones.

Organic, GMO free food

I was tempted to just write “good food”. But this may be confusing to people. It is difficult anywhere in the world to get good food. Often insecticides and pesticides contaminate fruit and vegetables, which function as xenoestrogens blocking hormonal receptors. These residues are toxic for your body, and they are destructive to your energy. Organic food with the USDA certification or any independent certification is the best way to ensure that you get a good food product. I take this seriously and pay the extra dollar. We do not need plates heaped with foods. Small helpings of good quality foods are more important for our well-being.

Treat depression and mental disease

People who are depressed will complain of a lack of energy. Their brain circuits are constantly in overdrive being busy with negative thinking. Cognitive therapy can help depressed patients to face their negative emotions. It is a learning process of thinking step by step to distinguish what is real and what is magic thinking. It is important to seek qualified help. Depressed patients distort the way they think, but cognitive therapy sets their thinking straight (Ref.1). When the thinking is normalizing, the drained energy returns, people sleep better again and they can use the energy to move forward.

Positive thinking

Negative thoughts are draining you of energy. You want to stay optimistic within what’s reasonable. Be thankful for all the good things in your life. Minimize what’s negative, but think about positive solutions to get rid of energy draining parts in your days. Do this persistently until it becomes part of your life and you will have extra energy that you didn’t waste in negative thinking or by getting caught up in needless anxiety. Worrying does not get us anywhere, but it depletes our energy.

Preserving Our Energy

Preserving Our Energy

What can we do to prevent aging?

It follows from all that I said that anything that preserves energy would also prevent premature aging.

As mentioned, it is important to exercise regularly (gym, swimming, dancing, fast walking, jogging etc.). Have good, balanced nutrition, preferably organic food. Some supplements are also helpful: resveratrol, Co-Q-10; pages 100 to 103 of my book contain more vitamins and supplements (Ref.2). Here is a link to my website NetHealthBook, which also addresses vitamins and supplements (scroll down to table). Avoid sugar and starchy foods to avoid oxidizing LDL cholesterol. Use bioidentical hormones to replace what is missing. Get your 7 to 8 hours of sleep and don’t forget relaxation. Detoxify to get rid of toxins that would slow you down. Infrared saunas are one way to detoxify. It is helpful to consider chelation treatments. Last but not least have a positive outlook on life.

Conclusion

Our energy that we feel tells us whether we are staying healthy or whether we are at the verge of getting sick. It is best to maintain your energy at all times by doing a combination of things outlined above. You will retain youthful energy; you prevent cardiovascular disease, Alzheimer’s and even cancer. Most of all you have the energy to do the things you want and love to do.

I prefer to work on staying well and in the process I have the energy to do the things I want to do. Part of it is blogging, part of it is writing books, and part of it is dancing. The key is that I like what I am doing. I invite you to do what will keep you energized. Listen to your body.

 

References:

1. David D. Burns, MD: “feeling good – the new mood therapy” 1999, Harper Collins.

2. Dr. Schilling’s book, March 2014, Amazon.com:“A Survivor’s Guide To Successful Aging: With recipes for 1 week provided by Christina Schilling

May
09
2015

Radiation From Fukushima Less Than Expected

By | Alzheimer’s disease, Diabetes, heart attack, High Blood Pressure, Inflammation, Radiation Protection, Stroke

Introduction

In the following I am describing “radiation from Fukushima less than expected”. I have blogged about the fallout from the Fukushima disaster in Japan before. At that time scientists predicted the levels of radiation to be high around 2015 on the US West Coast. The water with the radioactive contamination took that long to arrive on the Western shores of North America.

The predictions were based on the known water currents in the Pacific Ocean and the amount of radioactive pollutants released. With that data it scientists extrapolated what would happen in the future. The future is here; we just heard about reports that the polluted water has arrived.

Measurements of sea water for radioactivity

Scientists measured the radioactivity of the nuclear isotope composition in the water directly. This showed that the concentration was much lower than previously assumed. So, you can swim in the ocean of the West Coast of the US and Canada. You can also safely walk on the beaches. The scientists who did the present calculations pointed out the following. Let us assume that you swim in the ocean for 6 hours for 7 days per week continuously. You do that for a period of one year. Your radioactive exposure amounts to 1000 times less than that of a dental X-ray.

Video summing up the outfall from the Fukushima disaster

Here is a video that puts things into perspective (look at the video located on top of the page).I highly recommend watching this. It sums up how the Fukushima disaster affected marine life. But that the West coast of the US and Canada do not seem to be in danger. There are no highly toxic levels of nuclear isotopes of the West coast of North America.

Why should we trust these measurements?

You may ask yourself: why should I trust these measurements? As pointed out in my previous blog, there were a number of radioactive elements released into the atmosphere. They also leaked into the Pacific Ocean. Cesium-137 and Cesium-134 are both part of the Fukushima incident. Scientists measured these isotopes and found them higher than previous concentrations at the coast of British Columbia. Cesium-134 has a much shorter half-life and can therefore only come from Fukushima. But Cesium-137, which has a half-life of 30 years, showed an increase to a higher than previous level because of the Fukushima disaster.

Previous nuclear weapons tests

Underwater nuclear weapons tests in the 1940’s to early 1990 before the Comprehensive Test Ban Treaty was enacted caused the previous baseline of Cesium-137 levels in the ocean. Fortunately, only about 25% to 30% of the original accumulation of radioactivity was present before Fukushima added more Cesium-137. The other nucleotides Iodine-131, Plutonium-238 and 239, Strontium-89 and 90 and Uranium-234 and 238 are also helping scientists to sort out the contribution of radioactive pollution from Fukushima when in comparison to the baseline before.

Why it matters what you eat

It appears that you are completely safe when you hear such good news about radiation from the Fukushima disaster. Not quite so. Any source of radiation, which includes traveling by plane, getting mammograms in women, getting CT scans, lung X-rays, dental X-rays etc. has an effect on your system. It causes an inflammatory response, which worsens with the consumption of sugar and starchy foods. Researchers found that sugar and starchy foods oxidize LDL cholesterol, which in turn causes inflammation in your arteries. The oxidized LDL cholesterol also travels through your whole body including your brain. Even Alzheimer’s disease is an inflammatory brain disease. Overconsumption of sugar and starchy foods can in part cause Alzheimer’s disease.

Radioactive exposure causes a strong inflammatory response

Now add to this radioactivity exposure, which causes a strong inflammatory process in your body from free radicals that circulate in your blood. As a result the problem with the background radiation being a bit higher than what it was before is also the oxidative stress from sugar and starchy foods causing more inflammation within the body. We need to remember that the victims of Nagasaki, Japan were the ones that did not follow the dietary advise of Dr. Akizuki. He had ordered a strict vegetarian diet, which consisted of uncontaminated brown rice, fermented foods, sea algae and vegetables. Dr. Akizuki did not allow sweets of any kind, but some salt as the main condiment. Everybody was fed at least one helping of a soup with fermented soy and seaweed in it (wakame miso soup).

Dr. Akizuki’s regimen allowed people to survive after the atom bomb

It was this regimen that helped tone down inflammation in the body. It countered the negative effects of the radiation of the atom bomb.

Other causes of radiation

We are exposed to the leftover of 25% of the nuclear experiments from the nuclear bomb testing (the Leftover radioactive Cesium-137 mentioned above). In addition background radiation from sunbursts and cosmic radiation have to be absorbed by our system. As the radiation fuels inflammation, we cannot afford to continue to indulge in sugar and starchy foods that lead to hyperinsulinism, inflammation and oxidation of LDL cholesterol. If we cast all caution to the wind, we will get degenerative diseases like arthritis, inflammation of the lining of the arteries leading to high blood pressure, heart attacks and strokes. Obesity and diabetes will also undermine our health. All of this leads to disabilities and premature deaths.

Radiation From Fukushima Less Than Expected

Radiation From Fukushima Less Than Expected

Conclusion

I am glad that the Fukushima news are a lot better than anticipated for the West Coast of the US and Canada. However, we should not forget that, like the burden of radiation, certain foods (sugar, high fructose corn syrup and starch) also cause inflammation in our system. We need to remember how effective Dr. Akizuki’s diet was back in 1945 protecting those who were in immediate proximity to the atom bomb in Japan.

Today we should consume a Mediterranean diet, which is also full of antioxidants and is thought of to be anti-inflammatory.

Supplements that protect you from radioactive contamination

We can also take antioxidant vitamins like vitamin C, glutathione, fish oil and others that will protect us from anything that oxidizes LDL cholesterol or produces free radicals. Common sense needs to prevail. Radiation is a burden that fuels inflammation in our bodies, but dietary measures can greatly contribute to keeping us out of trouble. Vitamin supplements in general help with their anti-oxidant effects to protect your vital organs (heart, kidneys, brain, lungs, liver, bone marrow). I have discussed this in detail under this link. Note that I am recommending Io-Plex SR, which is an iodine supplement to be taken twice per day to protect you from fluoride, bromide and chlorine pollution. It will also protect the iodine receptors in your body from traces of radioactive salts in fish, sea water and the environment.

May
02
2015

Healthy Olive Oil

By | Diabetes, heart attack, High Blood Pressure, Mortality, Nutrition, Prevention, Stroke

In the past it was thought that the monounsaturated fatty acids in olive oil would be the reason why it is protective of the heart. However, newer studies have shown that it is the polyphenols and among these in particular hydroxytyrosol that lower blood pressure and protect you from hardening of the arteries.

In a 2012 study from Spain it was found that mortality from heart attacks was 44% lower than that of a control group who did not incorporate olive oil in their diet.

How polyphenols in olive oil work for you

Only two tablespoons of extra virgin olive oil per day protect you from heart disease. It does so by reducing the total cholesterol level in the blood as well as the LDL cholesterol level. At the same time the more polyphenol is contained in olive oil (such as in extra virgin olive oil), the more HDL your body will produce, which is essential to extract oxidized LDL from arterial plaque. On top of that polyphenol rich olive oil will increase the size of the HDL particles (these larger particles are called HDL2), which are more efficient in extracting oxidized LDL from arterial plaques. A Sept. 2014 study in humans showed that higher polyphenol olive oil as found in extra virgin olive oil caused an increase in the more effective HDL2 particles, which cleans out plaques from arteries more efficiently than the regular, cheaper olive oil.

Endothelial function

The endothelium is the lining of the arteries. Normal endothelial functioning involves widening of the arteries and maintaining its flexibility. The body achieves this through production of a signal molecule, called nitric oxide; the endothelial cells that line our arteries from inside produce it. Exercise increases the production of nitric oxide as well (Ref.1).

In a group of patients with poor endothelial function 2 tablespoons of olive oil (polyphenol rich) per day given over 4 months (the time of the study) showed a significant improvement of endothelial function.

The authors suggested that an enzyme in the endothelial cells, called nitric oxide synthase is being stimulated by components of polyphenol-rich olive oil. This leads to protracted release of nitric oxide, which in turn keeps blood vessels flexible and wide open. Other investigators found that olive oil can influence even a hereditary gene variant of endothelial nitric oxide synthase found in people with a history of premature heart attacks. This high-risk group of people should take extra virgin olive oil regularly to prevent premature heart attacks and strokes.

Endothelial dysfunction occurs when the arteries no longer can deliver adequate amounts of blood to vital organs like the heart or the brain. Endothelial dysfunction is also present in patients with type 2 diabetes, obesity, high blood pressure and metabolic syndrome. Introducing extra virgin olive oil in the diet of these patients will help restore their endothelial function.

Lowering blood pressure

In a study on 23 hypertensive patients it was shown as far back as in 2000 that extra virgin olive oil over 6 months allowed physicians to reduce high blood pressure medications by 48%. When the study was crossed over, the reverse was the case for the control group on sunflower oil that had no such effect before.

Based on what was said about endothelial function above, it is easy to understand that the polyphenols of olive oil released nitric oxide, which is known to lower blood pressure. This is an important finding as high blood pressure is a known risk factor for the development of hardening of the coronary arteries leading to heart attacks, congestive heart failure, but also stroke. Regular intake of 2 tablespoons of extra virgin olive oil often will reverse high blood pressure and restore normal endothelial function.

Preventing heart attacks and strokes

In April of 2013 The New England Journal of Medicine published a Spanish diet study that showed that a participants on a Mediterranean diet with olive oil or nuts had 30% less heart attacks over 5 years than people on a low fat control diet. Other studies have also shown that olive oil and omega-3 fatty acids play a big role in preventing heart attacks and strokes. We also know that regular exercise reduces the risk further; so does keeping your body mass index below 25.0. Extra virgin olive oil is part of the protection from heart attacks and strokes, but it did not show protection against cancer.

Healthy Olive Oil

Healthy Olive Oil

Conclusion

It is a simple fact that incorporating 2 tablespoons of virgin olive oil in your daily food intake will definitely have all of the beneficial effects described above. It is readily available, is inexpensive and very effective. It is also not difficult to work into your eating routine: add olive oil and vinegar or lemon juice to your salads, and cook with olive oil. If you have not totaled 30 grams (2 tablespoons), then make up the difference by eating an extra teaspoon full of olive oil. This is not all! You need to cut down on processed foods as they are made with the wrong oils, such as safflower oil, corn oil, soybean oil and others. These are usually omega-6 containing oils that cause heart attacks and strokes. They are cheap oils use by food processors, and they are not doing anything for your health!

I would suggest that you read more about the powerful role of prevention that extra virgin olive oil has in our diet. Buy it and stick to it as a new healthy lifestyle habit. Two tablespoons a day is the weapon against disease!

Reference:

Ref.1. Current Medical Diagnosis and Treatment 2015, chapter 10 Heart Disease. By Thomas M. Bashore, MD; Christopher B. Granger, MD; Kevin Jackson, MD; Manesh R. Patel, MD: Heart Disease. Lange, 2015.

Apr
25
2015

Rejuvenate With Stem Cells

By | Arthritis, Diabetes, heart attack, laser therapy, Multiple sclerosis, Orthopedics, Parkinson’s disease, stem cells, Stroke, telomeres

We all age; but can we rejuvenate with stem cells? There is a limit to detoxification, to eating organic food, to exercising, to the effects of vitamins and supplements and even to the effect of bioidentical hormone replacements. The limit comes from our telomeres and from stem cells that get depleted in our body as we age. Some researchers report that in regions where we suffer from a disease stem cells are even more depleted than in the rest of the body.

We do not have all the answers yet. We would like to know why our stem cells in the fatty tissue or in the bone marrow do not migrate on their own into an aching back or a sore shoulder. There are all the aches and pains associated with old age. So, why do our own stem cells not help us? They seem to be locked away in fatty tissue and in bone marrow.

At the 22nd Annual World Congress on Anti-Aging Medicine in Las Vegas (Dec. 10-14, 2014) I learnt that there is a group of stem cell experts in California with affiliates all over the US. They simply take stem cells from the fatty tissue and sometimes also from the bone marrow, isolate the stem cells through a stem cell separator and infuse the stem cell rich fraction (minus fatty and connective tissue) in a bit of saline solution back into the vein of the patient. When the stem cells are in the blood stream, they get activated by the growth factors that are present in blood and can now find where they are needed and start the healing process.

Studies have shown that when stem cells are in circulation in the blood, they are very sensitive to signals from tissues that indicate that there is an inflammatory process. This is why stem cells will repair arthritic changes. The can repair a torn meniscus, a rotator cuff tear in the shoulder or repair a weak immune system. The interesting observation is that stem cells from fatty tissue, also termed mesenchymal stem cells, are pluripotent. This means they can develop into cartilage building cells (chondrocytes) and build up cartilage; this is badly needed in a person with severe osteoarthritis. But stem cells are flexible: they can turn into meniscus cells in a knee with a torn meniscus. They also can repair the damage and relief the patient of the chronic pain. In a shoulder with a rotator cuff tear they can turn into a tough ligamentous material mending the tear.

Some data even indicates that circulating stem cells can repair vital organs like the brain, heart, liver, kidneys and bone marrow; these latter observations were mostly done in animal experiments, but human data is starting to be published in the medical literature.

So, let’s examine what has been found useful with regard to stem cells that are taken from your fatty tissue or your bone marrow and injected into one of your veins.

Here is a website from Arizona that I am only showing as a typical example (I have no conflict of interest and no commercial connections to this group) of what I described above.

With websites like this it is also important to read the disclaimer: “Even though our treatments are done using autologous cells, our Stem Cell Therapies are not approved by the FDA. Stem Cell Treatments are not a cure for any condition, disease or injury, nor a substitute for proper medical diagnosis and care…” Another website from La Quinta, CA describes the use of mesenchymal stem cells for regenerative therapies.

Stem cell treatments are in flux. There is a large body of knowledge that has accumulated showing that with proper technique and aseptic conditions it is a safe procedure. The FBA has been watching this. There are publications regarding the safety of procedures with adipose mesenchymal stem cells; here is one example.

The next step is to show in clinical trials that a certain procedure with stem cells is effective in treating a certain condition.

Below I did a literature review, which are only a few examples, but does not claim to be complete; it highlights some of the problems with stem cell treatments.

Stroke treatment with intravenous administration of bone marrow mononuclear stem cells

This study from India showed no statistical difference of stroke patients treated intravenously with bone marrow derived mononuclear stem cells (the experimental group) and the control group that did not receive such treatment. The investigators examined both groups with functional brain tests and performed PET scans to look at the healing of the brain lesions. Unfortunately the tests showed no statistical difference, but did show that the stem cell procedures were safe. It may be that the wrong stem cells were used (mononuclear bone marrow stem cells) when adipose derived mesenchymal stem cells may have done better. In stark contrast to the study from India is the stem cell treatment for a severe stroke in the former hockey player, Gordie Howe that has gone through the media recently. His procedure was done in Mexico. The stem cells were administered via a lumbar puncture approach as well as intravenously. As you can see from this case, stem cell treatment is even possible in patients who are in their mid 80’s with impressive results.

Parkinson’s disease

Here is a feasibility study from March 2014. A 71-year-old Asian man with progressive supranuclear palsy, an aggressive form of Parkinson’s disease was treated with adipose tissue-derived mesenchymal stem cells that were administered intravenously and intrathecally (to get stem cells into the cerebrospinal fluid that bathes the brain). A remarkable functional recovery took place.

Possible side-effects

This is a report of pulmonary embolism after administering intravenous adipose tissue-derived stem cell therapy. The blood clots in the lungs were treated with anticoagulant therapy. Repeat CT scans of his lungs showed later that the emboli were dissolved spontaneously. It is not clear whether this was a case where familial clotting problems pre-existed as a relative of this patient experienced a similar occurrence after stem cell therapy as well.

A case of chronic autoimmune thrombocytopenic purpura

A rare form of autoimmune disease exists where the body forms antibodies against platelets that help your blood to clot. Here is a paper from June 2009 that describes how a man with this disease was cured using adipose tissue-derived mesenchymal stem cells that were injected intravenously.

Renal transplant survival in type 1 diabetes patient

This case report from India shows that adipose tissue derived mesenchymal stem cells that were given at the time of a kidney transplant to treat end stage kidney disease. The treatment stabilized the condition of this patient after a kidney transplant. At the same time some of the mesenchymal stem cells differentiated into insulin producing cells, which made it much easier to control this patient’s diabetes. In this case stem cells were providing stability following an organ transplant (kidney) and some stem cells turned into insulin producing pancreatic cells.

Osteonecrosis of hip treated with adipose tissue derived MSC

In this study from South Korea dated January 2012 two cases of osteonecrosis of the hip, where the hipbone died (osteonecrosis) are described. The following stem cell protocol helped: The fraction that contained the stem cells (called stromal vascular fraction) was mixed with platelet rich plasma and hyaluronic acid. Using a long needle this mixture was injected into the affected hip joint. Conventional medicine has nothing to offer except a total hip replacement. But here are two cases that showed complete resolution of their pain, regained hip function completely, and healing could be documented with the help of MRI scans.

Treating heart attack patients with stem cells

Here is a paper from The Netherlands, published in June 2014 that describes the problems with stem cell treatment in humans. It points out that much has been learnt from animal experiments. The problem following a heart attack is that there is a massive inflammatory response in the infarcted heart muscle, which makes it difficult for stem cells to establish themselves in the injured heart muscle. However, stem cells have been shown to prevent the development of cardiomyopathy that follows a massive heart attack and often is the cause of death. More refinements are needed for successful treatments, such as the ideal timing of stem cell injections in relationship to the time of the heart attack, the best treatment approach and what number of stem cells to inject are all questions that still need to be answered.

MS model in mice shows promise with adipose mesenchymal stem cells

Experimental encephalitis in mice is used as a model for MS in humans. It helps to preselect potentially effective treatments for MS in humans. In this 2013 paper from Australia researchers used mesenchymal stem cells from adipose tissue and injected them intravenously. To their surprise the mesenchymal stem cells were able to penetrate the blood/brain barrier and end up in the myelin lesions inside the brain. In contrast, bone marrow derived stem cells were unable to do that. The researchers stated that adipose mesenchymal stem cells should be considered “as a cell therapeutic that may be used to treat MS patients”.

A group from Iran published this paper in February 2015 further emphasizes that mesenchymal stem cells would be a logical way to treat MS in humans.

Immunosenescence

As we get older the immune systems weakens because of a process called immunosenescence.

A research group from Austria published a paper in December 2011 that is typical for the thinking that mesenchymal stem cells from fatty tissue have properties that help the immune system to get stimulated. Based on this human data it should be possible to stimulate the immune system by giving stem cells from the fatty tissue to the same person intravenously. This publication shows that this process, which would benefit people above the age of 50 or 60 when the immune system gets weaker, will indeed stimulate the immune system. However, at this point we do not have the data of large clinical trials where this would have been done with measurements of the immune function before and on several occasions after stem cell injection to get a feeling for how long the effect would last. We also do not know whether this procedure is associated with longevity.

Rejuvenate With Stem Cells

Rejuvenate With Stem Cells

Conclusion

Stem cell therapy is definitely coming and many applications are already established as I discussed in a prior blog. It is only recently that physicians are no longer worried about creating tumors with stem cell transfer. Now we are in a phase where various stem cell transfer methods (intravenous, intrathecal, interstitial) are being tested as a treatment for various illnesses. It looks like stem cells from fatty tissue may soon be used intravenously, but I have not seen any such trials when checked on PubMed. The activation of stem cells by laser light has only been mentioned sparingly in the literature. This combination (laser activated, intravenous mesenchymal injection) has the potential for being useful for a multitude of chronic illnesses like fibromyalgia, MS, generalized arthritis, just to mention a few. Mesenchymal stem cells are anti-inflammatory, and they can mend defects without leaving scars.

Mar
21
2015

What Alcohol Does To You

By | alcohol, Cancer, heart attack, Heart Disease, High Blood Pressure, Hormones, lifestyle, mitochondria, Prevention, Stroke, telomeres, Vitamins and supplements

The media has praised alcohol  for preventing heart attacks, but let us examine what alcohol does to you. There are other articles in which we hear about alcoholic hepatitis and liver cirrhosis, both of which can be killer diseases. To get some clarification, let us discuss the various facts.

Dr. Finnel points out that 7.9% of all emergency room visits in the US are due to alcohol related conditions (Ref.1). When the causes of deaths that are a consequence to alcohol are listed, the top 8 causes are: cancer of the mouth and pharynx, alcohol abuse disorders, coronary heart disease causing heart attacks, cirrhosis of the liver, traffic accidents, poisonings, falls and intentional injuries. This is not what you read in the news. What you do read about is that one glass of red wine per day would be good for women and up to two glasses of red wine would be good for men to prevent heart attacks and strokes.

Bioflavonoids

It is the bioflavonoids , and among those in particular resveratrol, that are the active ingredients responsible for heart health. Resveratrol is a powerful antioxidant that protects against ischemia-reperfusion injuries. It is responsible for the cardio protective properties of red wine known as the “French paradox” (Ref.2). According to this reference resveratrol contributes to at least 3 processes that stabilize the metabolism.

Toxicity of alcohol

Alcohol toxicity is a complex problem. According to the WHO 5.3% of all deaths worldwide are a consequence  to alcohol. In 2012 the WHO recorded that 7.6% of deaths in males were due to alcohol. In comparison, 4% of female deaths were due to alcohol. Toxicity comes from the breakdown product acetaldehyde, which all cells can convert from alcohol, but liver cells are especially able to do this. According to Ref. 3 alcohol diffuses easily through all of the cell membranes and reaches every organ in the body. The toxicity of acetaldehyde is the reason  for shutting down the mitochondria which affect the energy metabolism and causing cell death. The immune system reacts with inflammation, when it attempts to repair the damage.

So, what are the major problems what alcohol does to you? These are the processes: First fat accumulation (steatosis), next chronic inflammation followed by necrosis (dying of cells) and fibrosis. An example of fibrosis is liver cirrhosis, where non-functioning connective tissue replaces liver cells.

Different tissue sensitivity to alcohol

Certain tissues are more susceptible to alcohol toxicity than others. As the concentration of alcohol is highest in tissues that are in direct contact with alcoholic drinks, cancers related to alcohol consumption develop in the oral cavity, pharynx, larynx, esophagus, and in the colon and rectum. The pancreas is particularly vulnerable to inflammation and fibrotic changes with subsequent degeneration into cancer of the pancreas. The heart tissue and the arteries are very sensitive to alcohol; hypertension, heart attacks, stroke, cardiomyopathy and myocarditis as well as irregular heart beats (arrhythmias) can develop. The brain is very sensitive to toxic effects of alcohol as well. This causes major depression, personality changes with violent behavior, car accidents and injuries.

Other toxic effects of alcohol on organs

Kidney disease (alcoholic nephropathy) is another alcohol caused illness. 5% of breast cancers in northern Europe and North America are directly related to the toxic effects of alcohol (Ref.3). Finally, the liver being so active in detoxifying alcohol is affected by developing liver cirrhosis, which accounts for a lot of premature deaths at a relatively young age (typically in the mid to late 50’s).

Ref. 3 goes on to say that literature exists which claims that 1 to 2 drinks per day would be useful for prevention of heart disease. But the observation of the authors is that people will not discipline themselves to stick to these limits and very quickly enter into the zone of alcohol toxicity. The authors further noted that with regard to causing any kind of cancer there is no safe lower limit; the risk is directly proportional to the amount of alcohol consumed and the risk starts right above the zero point.

The pathologist has the last word

When I studied medicine at the University of Tübingen, Germany I attended lectures in the pathology department where Professor A. Bohle, M.D. demonstrated pathology findings of deceased patients. Dr. Bohle had a special interest in Mallory bodies. These are alcohol inclusion cysts within liver cells that can be stained with a bright red dye.

Histological documentation of toxic effects in livers of corpses

I will never forget when Prof. Bohle pointed out that the livers of this most diverse population whose bodies we had the privilege as medical students to study had a rate of 25% positive Mallory bodies. He wanted to impress on us as medical students to watch out for the alcoholics that are usually missed in general practice. Obviously 25% of the pathology population was affected by the consumption of alcohol. It was Prof. Bohle’s hope that we could perhaps interfere on the primary care level before things went out of control. Many of these corpses belonged to traffic accidents that could have been prevented (now seat belts and alcohol limits are standard, in 1968 they were not).

Alcohol as an aging substance

Consistent use of alcohol on a regular basis will slow down cell metabolism and hormone production significantly. The major effect of alcohol leads to poisoning of the mitochondria in multiple organs, which translates into faster aging and a shortened life expectancy. This in turn results in a change of appearance. An older person who has abused alcohol for a number of years may look 5 to 10 years older than their chronological age.

50% of people above the age of 65 drink daily (Ref.4). Some more statistics: alcohol abuse in elderly men is 4-times higher than in elderly women. 5% to 10% of all dementia cases are related to alcohol abuse. About 15% of older adults are experiencing health risks from abusing alcohol. And about 90% of older adults are using medications and close to 100% of medications can adversely interact with alcohol (Ref.4).

Social pressure

These are the scientific facts , and then there is social pressure when you are invited to a party.

When you are young and invincible, do you care what the science says? You want to have a “good time” and not worry about consequences. The data about long-term exposure and a slowly increasing cancer risk is there. The wine industry will remind you that 1 drink for women and two drinks for men will protect you from heart attacks. They will withhold the cancer information from you, as they don’t really want to hear about that (yes, it’s bad for their business!).

Resisting social pressure and doing what is good for you

Can you have a good time at a party without drinking alcohol? Yes, you can. You can talk and you can listen; you are probably more with it than those who had too much to drink. I like mineral water and hold on to a glass of that.

I explained in a blog before how I was convinced by three speakers at an A4M conference to join those who abstain from alcohol.

Socializing without alcohol is doable. You may at times miss it, but you can warm up even to a crowd that had a few drinks too much. It is about choice: we can choose what we want out of life.

What Alcohol Does To You

What Alcohol Does To You

Conclusion

I have attempted to show you the toxic effects of alcohol. Although alcohol has played an important role in the social lives of millions over the centuries, it is becoming more apparent that alcohol is a cell poison and shortens our lives. The beneficial effect of the 1 or 2 drinks marketed by the beer and wine industry and some cardiologists does nothing to counter the threat in terms of a whole array of cancers at much smaller amounts of alcohol. Fortunately, resveratrol and omega-3 fatty acids as supplements as well as exercise will more than make up for the 1 or 2 drinks that you do not really need. And neither exercise, omega-3 fatty acids, or resveratrol are cell poisons. The choice is yours!

References

Ref. 1: John T. Finnell: “: Alcohol-Related Disease“ Rosen’s Emergency Medicine, Chapter 185, 2378-2394. Saunders 2014.

Ref. 2: “Hurst’s The Heart”, 13th edition, The McGraw-Hill Companies, Inc., 2011. Chapter 54. Coronary Blood Flow and Myocardial Ischemia.

Ref. 3: Ivan Rusyn and Ramon Bataller: “Alcohol and toxicity”, 2013-08-01Z, Volume 59, Issue 2, Pages 387-388; copyright 2013 European Association for the Study of the Liver.

Ref. 4: Tom J. Wachtel and Marsha D. Fretwell: Practical Guide to the Care of the Geriatric Patient, Third Edition, Copyright 2007 by Mosby.

Mar
07
2015

Drink Your Coffee, But…

By | Arthritis, Cancer, coffee, Diabetes, fractures, heart attack, Heart Disease, High Blood Pressure, Insomnia, Nutrition, Osteoporosis, Parkinson’s disease, Prevention, Stroke

I have blogged about coffee drinking several times in the past. Coffee consumption and health benefits have become a news item again because of yet another study. The recent media reports are based on a South Korean study that involved 25,138 men and women with a mean age of 41.3 years.

Here I like to concentrate on aspects regarding coffee consumption that are often lost in the media when studies regarding coffee consumption are discussed. I will break it down into points and then conclude at the end with my recommendations.

1. Calcification of coronary arteries and osteoporosis

The South Korean study published online on March 2, 2015 showed that with up to 4 cups of coffee there was a direct linear relationship between consumption of coffee and prevention of heart attacks. Coronary artery calcium (CAC) deposits were measured by a CAT scan as they are known to be a good measure for a future risk of heart attacks. Less than 1 cup of coffee per day resulted in a 23% reduction of CAC in the coronary arteries compared to controls without coffee consumption. 1 to 2 cups of coffee reduced CAC’s (meaning the risk of heart attack rates) by 34%, while 3 to 4 cups prevented CAC’s and thus heart attacks by 41%. The fun stops at 5 cups of coffee per day as only 19% of CAC’s (heart attacks) were saved. Clearly there is something in coffee that shows detrimental effects, if the dosage is too high.

In the past there was a question as to whether coffee consumption would lead to osteoporosis in women. However, a study showed that there was no correlation between coffee consumption and osteoporosis.

Other studies have clarified this and found that vitamin D3 and K2 are important to remove calcium from the arterial wall and transport calcium into the bone and deposit it there. Vitamin D3 and vitamin K2 seem to override all the other nutrients when it comes to osteoporosis prevention. The other factor in older women is hormone deficiency as they age necessitating bioidentical hormone replacement in addition to vitamin K2 and vitamin D3 to prevent osteoporosis.

2. Whether or not you put sugar into your coffee

is an important question. This is routinely done in Germany where I grew up. The addition of sugar changes the entire game plan, as it is sugar that oxidizes LDL cholesterol, which is directly deposited under the arterial walls. This is the root cause of hardening of the arteries. Coffee alone is beneficial; coffee with sugar is not. I use a tiny amount of KAL Stevia (which does not have the bitter aftertaste) instead of sugar to sweeten my coffee. This sweetens it to the equivalent taste of sugar, but without the detrimental oxidizing effect of sugar. Somebody like me who was conditioned to eat sugar from childhood on in Germany has been left with a “sweet tooth”; so I need to have this tiny bit of stevia as a crutch. Purists may disagree with me. Keep in mind that the Korean study was done without sugar.

3. What’s the difference between real and decaffeinated coffee?

The recent study showed that you need to drink the real thing (caffeinated coffee), if you want to reduce your risk to get the dreaded pigmented skin cancer, melanoma. Decaffeinated coffee did not have this melanoma protective effect. This points to the fact that there are several substances in real coffee and decaffeinated coffee that have different effects. Ref. 2 shows that there was a clear reduction in the risk of developing type 2 diabetes in people who drank either coffee, decaffeinated coffee or tea. Unfortunately many studies do not distinguish clearly between caffeinated coffee and decaf coffee.

4. Micronutrient components of coffee

As this link shows there are many micronutrient components in coffee such as caffeine, diterpenes, chlorogenic acids, and melanoidins. There is about 100 mg of caffeine contained in a tall (240 ml) Starbucks cup of coffee. This will stimulate the nervous system and your adrenal glands getting that energy rush.

Diterpenes consisting mainly of cafestol and kahweol are substances that have been found to increase the LDL cholesterol. The fact that we are dealing with a concoction of mostly beneficial, but also some less beneficial micronutrients in coffee is responsible for the lower beneficial effect of 5 cups of coffee mentioned in the South Korean study. Filtered coffee seems to largely remove these undesirable substances.

This link explains more details about the micronutrients in coffee.

5. Clinical conditions that are partially prevented by coffee consumption

The last link mentioned a study where a large group of people were followed and monitored for Parkinson’s disease. Those who had consumed only 1 cup of coffee per day were compared to controls without coffee consumption. This one cup of coffee per day prevented Parkinson’s disease by 40 to 60%. Similarly, in a study that investigated prevention of type 2 diabetes 4 to 6 cups of coffee per day prevented 28% of type 2 diabetes. In postmenopausal women decaf coffee was also significantly effective in reducing the risk to develop diabetes.

The Linus Pauling Institute link summarized that there were several studies that showed that colorectal cancer could be partially prevented by consuming real coffee (4 or more cups), which lowered the risk by 24% compared to non-coffee drinkers. Another study noticed that 1 to 2 cups per day of decaf coffee reduced the risk for colorectal cancer by 48%.

Cirrhosis of the liver, often due to excessive alcohol use can be prevented by 40% when at least 2 cups of coffee were consumed. More astounding than that is that the risk of death from liver cancer can be reduced by 50% when at least 1 cup of coffee was consumed compared to those who never consumed coffee.

However, liver and colon cancer are not the only ones that can be prevented to a large extent by drinking coffee. Breast cancer, prostate cancer, endometrial cancer, uterine cancer, oral cancer, brain cancer and lung cancer can also be significantly prevented by a regular cup of coffee. As there is a risk of increasing miscarriages in pregnant women, it is best not to consume coffee during pregnancy or at the most limit it to one cup per day. Also, nursing mothers should avoid coffee (even decaffeinated coffee) as caffeine gets transmitted into mother’s milk.

People with high blood pressure may be better off to not drink coffee or to drink decaf coffee, because caffeine has been shown to elevate blood pressure substantially.

6. What are the risks of drinking coffee?

Seeing that coffee is an effective drug-like compound with many benefits, it is worthwhile asking the question: what are the side effects of coffee consumption? There are people who are very sensitive to caffeine. They get over stimulated and experience heart palpitations, a lack of sleep and anxiety. They should refrain from coffee. They may even be over sensitive to decaffeinated coffee that still contains about 3% of caffeine. People with rheumatoid arthritis have been shown to deteriorate with coffee consumption, making this another subgroup of people who should stay away from coffee.

7. What is the process of decaffeinating coffee?

Essentially there are 4 processes of decaffeination that have been developed over time. As this link shows, all of the decaffeination processes are done with the green coffee beans. There are two solvent-based processes and two non-solvent based processes. The latter two are the healthiest: the Swiss water process and the carbon dioxide process. The problems with the older solvent-based processes are the chemicals used to extract the caffeine. They can be harmful to the body.

Organic decaffeinated coffees are manufactured with the environment-friendly Swiss water process.

Drink Your Coffee, But…

Drink Your Coffee, But…

Conclusion

There are some people who simply are too sensitive to caffeine. They should refrain from drinking coffee. Pregnant women and nursing mothers should either severely reduce coffee consumption to one cup per day or refrain from coffee altogether. Those with high blood pressure and rheumatoid arthritis patients better refrain from drinking coffee as well. The majority of us will benefit from coffee consumption, if this is your taste. You may prefer green tea or Oolong tea instead. As I explained above there is compelling evidence in the literature that many cancers, heart attacks, strokes and diabetes can be partially prevented by regular coffee consumption. Decaffeinated coffee can prevent type 2 diabetes to some extent and colorectal cancer as well. The majority of evidence shows that coffee drinking is healthy. So, go ahead and enjoy!

References:

Ref. 1: Ding, Ming; Bhupathiraju, Shilpa N; Satija, Ambika; van Dam, Rob M; Hu, Frank B. “Long-term coffee consumption and risk of cardiovascular disease: a systematic review and a dose-response meta-analysis of prospective cohort studies.” Circulation – February 11, 2014; 129 (6); 643-59.

Ref. 2: Huxley R, Lee CM, Barzi F, Timmermeister L, Czernichow S, Perkovic V, Grobbee DE, Batty D, Woodward M. “Coffee, decaffeinated coffee, and tea consumption in relation to incident type 2 diabetes mellitus: a systematic review with meta-analysis.” Arch. Intern. Med. – December 14, 2009; 169 (22); 2053-63

Feb
28
2015

A Low Fat Diet is Not Protective Of Heart Attacks

By | Diabetes, heart attack, Heart Disease, lifestyle, Mortality, Nutrition, Obesity

This article is about the fact that a low fat diet is not protective of heart attacks. The British Medical Journal (BMJ Publishing Group, James J DiNicolantonio) published a critical editorial review regarding the lack of science behind the low fat diet guidelines. The low fat guidelines became law  in 1977 in the US and in 1983 in England. The devastating fact was that it was based only on a study of 2467 men (not a single female included) and there was no evidence of lower heart attacks in the low fat diet group when compared to the normal diet control. Yet the guidelines were the cause of the obesity and diabetes epidemic that followed causing heart attacks and strokes. February, the month where we think about heart disease  is the appropriate month to discuss the findings of this British Medical Journal article that exposes it all.

No significant difference between control group and low fat diet group

The BMJ Publishing Group re-traced all of the data that were available at the time of the decision in 1977. There were six clinical trials (with randomization) that had a mean duration of 5.4±3.5 years where the researchers compared low fat diets to normal diets. They found that the authorities who wrote the dietary recommendations for a low fat diet should have come to the conclusion that there was no statistical difference between the experimental group and the control group. The summary of the present re-analysis of the studies that were available to the US government in 1977 and to the UK government in 1983 was as follows: “There was no statistically significant relationship between dietary interventions and all-cause mortality.”

The researchers noted that the all cause mortality was identical in the experimental group and the control group (370 deaths in both groups). There was no significant difference of coronary heart disease (CHD) between the low fat diet group and the control group.

Low fat diet recommendations based on false data

There was no statistically significant difference in deaths from CHD (heart attacks). The reductions in mean serum cholesterol levels were significantly higher in the intervention groups; however, this did not result in measurable differences in mortality from CHD or all-cause mortality.

What is troublesome is that the six studies with randomization were the basis of all of these observations.  The studies included only 2467 men, but there was not a single woman in the trial. Yet the researchers recommended the diet for both men and women alike.

The authors concluded “It seems incomprehensible that dietary advice was introduced for 220 million Americans and 56 million UK citizens given the contrary results from a small number of unhealthy men”.

Political mistakes introducing low fat diets

Dr. Robert Olson of St Louis University warned Senator George McGovern that the studies did not support the dietary recommendations the Senator was about to announce. To this objection Senator McGovern replied: “Senators don’t have the luxury that the research scientist does of waiting until every last shred of evidence is in”.

There was very good evidence that dietary changes (low fat diet) will not change the rate of heart attacks and strokes. Yet the government committees in the US and in Great Britain did not consider this evidence. Other publications have examined the consequences of replacing saturated fats with carbohydrates in the recommended low fat diets.

Sugar is the problem in low fat diets

The researchers made the following observations regarding low fat diets:

  1. In processed foods low fat diet meant that more sugar was added to bring the saturated fat content down. This has detrimental effects on insulin sensitivity and causes type 2 diabetes on the long-term. In these patients there is an increase of small LDL particles and triglycerides, while there is a reduction of HDL. Blood clot markers increase, weight increases causing obesity. Polyunsaturated fats of the omega-6 type (including oils from corn, soybean, safflower and cottonseed) replaced saturated fats.
  2. However, randomized controlled trials showed the following. When omega-6 polyunsaturated fats (without simultaneously increasing omega-3 fatty acids) replaced trans-fats and saturated fats, there was an increase of death rates from heart attacks and strokes.
  3. The Anti-Coronary Club trial showed that more people died from heart attacks when saturated fat was replaced by polyunsaturated fat.
  4. The reason for the heart attack causing omega-6-fatty acids (from polyunsaturated fats) has been worked out in several research papers between 2006 and 2012 (cited in this link): they cause inflammation, cause cancer, weaken the immune system, lower the protective HDL cholesterol and increase the susceptibility of LDL cholesterol to be oxidized.
  5. When polyunsaturated fatty acids (omega-6) replaced saturated fat there was more breast cancer and prostate cancer.

Low fat diets don’t work

This review stated that there was a lack of data that low fat diets help prevent heart attacks and strokes. We have now clinical trials that numbered 347 747 participants. These trials showed that increased fat intake did not cause heart attacks. The Women’s Health Initiative included 48, 835 postmenopausal women. It showed that a low fat diet did not reduce cancer. It also did not prevent heart attacks or strokes. All of this supports what has been summarized before in a critical review regarding “The Oiling of America“.

Low Fat Diet Not Protective Of Heart Attacks

Low Fat Diet Not Protective Of Heart Attacks

Conclusion

Enjoy saturated fat as it does not cause you harm. Cut out omega-6 fatty acids like oils from corn, soybean, safflower and cottonseed. Use virgin olive oil or coconut oil instead. Take regular supplements of omega-3 fatty acid (marine derived) to balance natural omega-6 fatty acids in turkey or chicken meat. You can eat cheese and enjoy nuts. But in the US buy organic or imported cheeses from Canada or Europe. In Canada and Europe bovine growth hormone is illegal.

It is most important to avoid sugar, honey and high fructose corn syrup. These all oxidize LDL cholesterol, which is the pre-stage for hardening of the arteries. The oxidized LDL cholesterol is part of the plaques of arteries and leads to strokes and heart attacks. This also means that you must avoid all processed foods that contain sugar and high fructose corn syrup (read labels).

It is not that difficult to follow such diet recommendations as my wife and I have done this since 2001. We use stevia to replace sugar for sweetening (no calories, no effect on insulin). Do what’s good for your body!

Jan
16
2015

Telomere Length A Telltale Sign Of Aging

By | Alzheimer’s disease, Anti-aging medicine, Arthritis, Autism, Cancer, Diabetes, Fitness, heart attack, Nutrition, Osteoporosis, telomeres, Vitamins and supplements

Dr. Sandy Chang gave a talk at the 22nd Annual World Congress on Anti-Aging Medicine in Las Vegas Dec. 10-14, 2014 entitled “Telomere measurement as a diagnostic Test in cardiovascular and Age-related disease”, but a shorter title would be “telomere length a telltale sign of aging” (my choosing).

Dr. Chang pointed out that it is now well established that telomere length is directly related to health. The shorter the telomeres are the higher the probability to get the following: early menopause, infertility, diabetes, wrinkles, arthritis, osteoporosis, cardiovascular disease, Alzheimer’s, Parkinson’s, dementia, cancer, stress and a lack of stem cells. In this BMJ study from 2014 it was shown on a large population basis that shorter white blood cell telomeres lead to a higher risk of coronary heart disease causing heart attacks. Decreased telomere length is also associated with the development of breast cancer, cancer of the ovary and uterus, cancer of the prostate and skin cancer.

Because of these connections it makes sense to determine a person’s telomere length. If it is short, do check-ups more often to detect any cancer early when it can still be treated.

Telomere length measurements are now done in many infertility clinics as short telomeres both in the male and female is associated with infertility.

The newest finding and perhaps the most important is that a healthy lifestyle, vitamins and supplements can elongate telomeres while a poor lifestyle leads to shortening of telomeres.

Here are the factors that lead to shortening of telomeres:

– Chronic stress

– Poor diet and nutritional habits

– Chronic inflammatory diseases

– Metabolic disorders

– Lack of consistent exercise/sedentary lifestyle

– Obesity, high BMI and body fat

– Smoking

– Over consumption of alcohol

– Lack of sleep / insomnia

When short telomeres are detected, it is important for the physician to look at lifestyle changes to protect telomeres from decreasing their length even further. This has the potential of preventing dementia and Alzheimer’s when it comes to brain health. It can prevent osteoporosis and metabolic diseases (diabetes, metabolic syndrome). Telomerase is the buzzword today, which is an enzyme that all of our cells have. The purpose why we have telomerase in our cells seems to be helping us build up and repair telomeres. Any substance that preserves telomerase or prevents the breakdown of telomerase will prevent shortening of telomeres and will also prevent the above-mentioned diseases.

These supplements lead to lengthening of telomeres:

-Vitamin C and E

-Omega-3 and polyphenols

-Vitamin A and D3

-All of these help controlling oxidative stress, reduce DNA damage, reduce inflammation and build up telomere length.

-A good diet and nutrition (Mediterranean type diet) will prevent telomere shortening as well and also lead to telomere lengthening.

-T-65, an extract from astragalus has been shown in vitro to lengthen telomeres, but there is no publication yet about in vivo effects in humans.

-Resveratrol is useful to prevent shortening of telomeres as well.

-Exercise also is a simple means to prevent telomere shortening.

Telomere Length A Telltale Sign Of Aging

Telomere Length A Telltale Sign Of Aging

Another talk on telomeres was given by Dr. Harvey Bartnof with the title “Telomere Shortening and Modulation: Case Studies From The Clinic”.

This talk was a comprehensive review of what is known about telomeres, about the fact that many diseases are due to telomere shortening, about animal experiments, ways of how to lengthen telomeres and finally some data on human studies with regard to telomere lengthening.

In the following I will briefly review all of these areas that were discussed. Some of this material overlaps with Dr. Chang’s lecture.

What produces telomere shortening? Dr. Bartnof showed 4 slides that listed all of the conditions and diseases that are associated with telomere shortening. Telomere shortening is associated with twice the risk to die from a heart attack when compared to people with normal telomeres.

a) Known genetic conditions in humans associated with telomere shortening

There are three known genetic conditions due to telomere shortening: A premature aging syndrome, called dyskeratosis congenitalis; patients with this condition die prematurely from cancer, or from bone marrow failure.

People with Werner syndrome who have a genetic telomere loss have a mean life expectancy of only 54 years.

Idiopathic pulmonary fibrosis is another genetic condition with shortened telomeres due to mutations.

b) Telomere shortening associated with these health conditions

Professor Elizabeth Blackburn, PhD who is one of the three researchers who won the Nobel Prize in Physiology and Medicine for their work on telomeres in 2009 stated the following: “Telomere shortness is associated with just about all the major diseases of aging… from cardiovascular disease, death from cardiovascular disease, risks of cardiovascular disease, diabetes, diabetes risks such as insulin resistance, vascular dementia, to osteoarthritis.”

An enormous amount of clinical investigations have been done since in cohort groups like people with diabetes, high blood pressure, obesity and cancer.

There is natural shortening of telomeres due to the aging process. When we compare telomere length of body cells of a 20-year old and call this 100%, the telomeres of a 100-year old person are on average only 40%. A study from the Karolinska Institute found in a group of matching twins where one twin had shortened telomeres, this twin had a 2.8 times greater risk of death than the twin with normal telomere length.

However, as already mentioned a number of other factors can lead to shorter telomeres like chronic stress in workers who look after Alzheimer patients, being of the Caucasian race (compared to African-American), having had less education, chronic unemployment, depression, pessimism, single people versus married people, phobic anxiety in women and hostility in men, poor sleep and too little sleep, migraine headaches in women, low physical activity, smoking cigarettes and alcohol consumption. The list does not stop here. Other conditions are associated with telomere shortening like heroin abuse, exposure to smog, polycyclic aromatic hydrocarbons and lead, cardiovascular disease, diabetes, cancers, osteoporosis, osteoarthritis, rheumatoid arthritis, cirrhosis of the liver, inflammatory bowel disease, chronic obstructive lung disease, Alzheimer’s disease, Parkinson’s disease, chronic kidney disease and disability in the elderly.

c) Effects of medications on telomere length

Antidepressants used against depression have a telomere lengthening effect, but NSAID’s, aspirin and interferon-alpha shorten telomeres. Other telomere shortening effects come from cancer chemotherapy.

d) Telomerase activation elongates telomeres

Successful experiments in various mouse strains showed that special strains that were telomerase deficient, could be reconstituted to normal by reinserting telomerase: atrophied organs regrew back to normal size and function. In humans it was shown that increased physical activity elongated telomeres, so did vitamin C, E and vitamin D3 supplementation, resveratrol, a Mediterranean diet, marine omega-3 fatty acid supplementation, higher fiber intake, bioidentical estrogen in women and testosterone in men, relaxation techniques like yoga and meditation. The Astragalus-derived telomerase activator TA-65 has been shown in animal experiments to elongate telomeres. The human data about TA-65 is still spotty or not available (it is also very expensive and may be unnecessary given the fact that so many other agents are known to lengthen telomeres).

e) Human data on telomere lengthening

Much can be achieved by changing one’s lifestyle: cut out toxins like cigarette smoking and alcohol abuse. Get involved in a regular exercise program, which has been shown to increase HDL cholesterol and to elongate telomeres. Adopt a Mediterranean type diet including olive oil; take vitamin E, D, C and supplements with resveratrol and murine omega-3 fatty acids, all of which elongate telomeres. Get enough sleep (7 to 8 hours per night) and do yoga and meditation. Avoid distress and tone down your stress level to eustress (normal stress level associated with every day living). An older person should use bioidentical hormones to replace missing hormones. All of this taken together will create a milieu in your body where telomeres get elongated and you live longer without disease. Several clinical conditions were mentioned where baseline telomere length was assessed initially and was found to be too short; simple lifestyle changes were then initiated, which were able to improve telomere length and treat these diseases successfully. In addition TA-65 (also termed T-65) was given in some of these cases, but in a subsequent discussion Dr. Bartnof admitted that he could not comment on how effective TA-65 by itself was as it was only one component of many other effective telomerase stimulators given. Till further research is out on this substance, it may be just very costly without spectacular benefits on its own.

Conclusion

I gave a summary of the talks by Dr. Chang and Dr. Bartnof regarding telomeres, but these were not the only talks about telomeres, although quite representative for the others. Both speakers pointed out how powerful lifestyle is for our body functions as this is what lengthens our telomeres and allows us to live longer, disease-free lives. Stem cells also have telomeres, but they are on average longer than the rest of the body cells (called somatic dells). An improved lifestyle will keep our stem cells in good shape, so they are there when needed to replace aging somatic cells.

The new logic of a healthy lifestyle is:

A healthy lifestyle causes healthy telomeres of somatic cells and of stem cells; this causes health until a ripe old age. In the next few weeks I will blog about more topics from the 22nd Anti-Aging Conference in Las Vegas. Stay tuned.

Dec
06
2014

Regrets Following Holiday Foods

By | Abdominal Pain, Angina, gout, heart attack, High Blood Pressure, Nutrition

Countless blogs have been written about gaining pounds with holiday food. This is not my topic in this blog. I am looking at the medical evidence of what is happening to our bodies, some of which is permanent. I like to focus on the gallbladder, blood pressure, heart function and gout. I will provide little clinical vignettes that make my points clear.

Gallbladder disease

Many patients are unaware that their gallbladder has developed stones that accumulate over several years, perhaps even several decades. But, if infection sets in there is an acute flare-up of gallbladder pain, which can be excruciating. Also, when one of the stones is transported into the gallbladder duct, there is a sudden colicky pain similar to labor pains. In cases where the migrating stone blocks the common bile duct, the patient can get jaundiced and the pancreatic juice can get backed up leading to an acute pancreatitis.

What does that have to do with overindulging during a Thanksgiving meal? Fatty sauces, ham, and gravy can all lead to more cholesterol deposits in the gallbladder and make stones larger. Add to this a rich dessert with ice cream and a dollop of whipped cream and you’ve got yourself a fairly fatty feast. So, this one fatty meal can make a difference by bringing on symptoms of a previously undiagnosed condition, and you spend hours in an emergency room of a hospital.

The scenario could look like this case:

Fred is a 40-year-old teacher, somewhat overweight who enjoyed a holiday meal at his parent’s place for Thanksgiving. His health has been good with no surgeries. Following the turkey dinner, which he enjoyed he noticed right upper abdominal pain, and he started to vomit. As the pain did not improve, his parents called an ambulance that brought him to a hospital. The emergency physician said that he was concerned about Fred’s gallbladder. He ordered a CT scan and this showed multiple stones with one of the stones being stuck in the cystic duct. Despite pain medication and bed rest the situation did not resolve (the stone did not pass). A surgeon was called in and a laparoscopic cholecystectomy was performed. Fred recovered within only 3 days and could return to teaching. The fatty food of the Thanksgiving dinner was only the tip of the iceberg in this case. The fact that there have been many pre-existing gallbladder stones tells us that this patient had the chronic habit to eat foods with too much fat and cholesterol.

High blood pressure

Extra salt intake leads to an elevation of blood pressure. If a person has borderline high blood pressure, the extra salt intake from holiday meals can get the blood pressure out of control and this in turn can cause a stroke (typically a hemorrhagic stroke) or is a strain to the heart leading to a heart attack or to congestive heart failure.

Janice is a 50-year-old janitor who has had problems with borderline high blood pressure readings. Normally her blood pressure was 140 over 90, and when she watched her salt intake it would go down to 125 over 80. She bought a blood pressure monitoring device, just so she could measure her own blood pressure at home. Following the Thanksgiving turkey dinner she noticed that she developed fullness in her head and a headache and her face looked flushed. She took her blood pressure with a reading of 160 over 100. It had never been that high. When she saw her doctor he asked her what she had for Thanksgiving dinner: they sat together with friends and had potato chips with dip and drank some red wine with it. Next for the meal she enjoyed the roasted, brined turkey and ham. Yes, she did add some more salt to the mashed potatoes too.

The doctor found her blood pressure to be 165 over 100. He explained to her that she needs to go on a DASH diet, which is low in salt. He also started her on blood pressure pills. Here is another link for a low salt diet.

Heart attack following turkey dinner

When working as an intern in teaching hospitals of McMaster University of Hamilton/Ont. during my training in 1975 to 1978 I noticed a strange correlation between holidays like Thanksgiving and Christmas and intensive care unit admissions with acute heart attacks. Later a formal study was published that there is indeed such a correlation between consuming a big meal with fat, salt and refined carbohydrates and the development of a heart attack.

This likely does not develop without prior silent conditions of high triglycerides, high cholesterol and insulin resistance leading to inflammatory substances circulating in the blood. The C-reactive protein is one of the substances that has emerged as a useful monitoring device and a fasting insulin level. Both should be low or the person is at a higher risk of developing a heart attack.

Add to this a festive, large meal and you got troubles at your hand like in the next case:

Joan is a 62-year-old high school principal who developed chest pain within 2 hours of having enjoyed her Christmas dinner. She was known to have high cholesterol levels for about 5 years and she had been taking statins for 4 years as diet alone could not control it. But she loved food in general and was about 20 pounds overweight. The doctor had discussed exercise with her, but she felt too busy doing other things. Now all of this came back to her as she was recovering in a hospital bed from an emergency stent procedure. They had to insert two stents to overcome narrowing of the coronary arteries. She was now pain free and felt that she needed to do something about her lifestyle. She would see a dietician and record her weights daily. She wanted to loose 20 pounds and yes, she wanted to start mild exercise when her doctor allowed it and gradually build it up to a maintenance program.

Regrets Following Holiday Foods (Gout Patient)

Regrets Following Holiday Foods (Gout Patient)

Gout attack following rich meal

It is known since the Middle Ages that feasting on a large meal of beef combined with lots of beer or wine can cause a gout attack. Gout at this time was known as a disease of the affluent. The poor obviously could not afford big feasts. Today we know that purines are the end product of meats and this gets excreted in the kidneys. However, alcohol prevents the purines to be excreted in the urine so that uric acid levels exceed a certain limit beyond which uric acid crystals are precipitated in soft tissues like around joints, which is very painful.

The following case will illustrate this:

Carl, a 45-year-old sales person suddenly developed excruciating pain and swelling in his left big toe. He went to the emergency room of the closest hospital. After some tests he was told that he had come down with acute gout. His blood tests showed a high uric acid level and biopsy samples from the left toes also revealed uric acid crystals. With the help of colchicine and allopurinol things turned back to normal within 3 days.

The gout episode occurred just 4 hours after his holiday meal consisting of a few beers and copious amounts of turkey meat. He also seems to be addicted to soft drinks which are sweetened with high fructose corn syrup which he consumes freely all day long.

It is known that sugar from soft drinks make a person 85% more prone to develop gout than a person who uses diet drinks or water.

Here is a diet sheet for Carl to prevent his next gout attack.

Conclusion

Who would have thought in the past that food could be a dangerous substance with the potential of making us sick? But this is exactly what I wanted to point out in this blog. Of course, it does not stop at holidays where we tend to eat more of what we normally eat. It pays dividends watching what we consume even in the days between feasts. For instance a DASH diet is a good idea for those of us who may have developed borderline high blood pressure. Avoiding excessive red meat is a good idea for prevention of heart attacks and strokes, as your cholesterol stays lower. Avoiding soft drinks with sugar and fructose is good prevention for avoiding obesity, cancer, heart attacks and strokes. Get the greens going (vegetables, salads etc.) to live longer without disabilities.

Last edited Dec. 6, 2014