Mar
25
2017

How Stress Affects Our Hormone System

Dr. Andrew Heyman gave a detailed talk recently about how stress affects our hormone system. He presented his talk at the 24th Annual World Congress on Anti-Aging Medicine (Dec. 9-11, 2016) in Las Vegas that I attended. It was entitled “Understanding the Stress, Thyroid, Hormone Connections & Prioritizing Systems”.

Dr. Heyman stressed in particular that there is a triad of hormonal connections that is important to remember: the thyroid hormones, the stress hormones (adrenal glands) and the pancreas (insulin production). It seems like we need a balance of these hormones for optimal energy production and circulation. Under stress our sugar metabolism can markedly derail, we develop obesity and fatigue. But when balanced we experience vitality and wellbeing.

Metabolic activation pathways

Dr. Heyman projected a slide that showed the metabolic activation pathways. Likewise, he stated that a number of different factors could influence the hormone system:

  • Diet: trans fats, sugar, too many carbs, food allergies.
  • Drugs: drug-induced nutrient depletion (over-the-counter drugs, prescription drugs).
  • Physical exercise: frequency and type matters.
  • Environmental exposure: chemicals, pesticides, herbicides, heavy metals, plastics, molds, and pollens.
  • Stress: physical stress, psychogenic stress.
  • Genetics: methylene-tetra-hydro-folate reductase enzyme deficiency (MTHFR mutation), APOE genes, lack of vitamin D
  • Disease: past or present conditions, active disease or syndromes.

Target areas within your system

The target areas in your system are the

  • Pancreas, where blood sugar can rise because of insulin resistance. In particular, too much insulin production causes inflammation, hormone disbalances, kidney damage, and hardening of the arteries through plaque formation.
  • Thyroid gland, which depends on TSH (thyroid stimulating hormone) for activation. Autoantibodies can also affect it negatively.
  • Brain: decrease in serotonin resulting in anxiety, depression and food cravings; decreased melatonin causing sleep disturbances; increased ghrelin and decreased leptin secretion leading to overeating and obesity.
  • Liver/kidneys: both of these organs are important for detoxification; the liver produces thyroid binding globulin, which when increased can lower the free thyroid hormones.
  • Immune system (gut, lymph glands): the Peyer’s patches in the gut mucosa produce a large portion of the immune cells; lymph glands, the bone marrow and the spleen supply the rest. A leaky gut syndrome can affect the whole body, in addition causing inflammation and autoimmune reactions.
  • Hypothalamus/pituitary/adrenal glands: this is the main axis of the stress reaction. A brain under stress activates the hypothalamus. It sends a cascade of activating hormones via the pituitary gland and likewise activates the adrenal glands. Finally this leads to cortisol overproduction, and release of epinephrine and norepinephrine from the center of the adrenal glands. High blood pressure, anxiety, heart palpitations, arrhythmias and more can finally develop from this.

Hypothalamus/pituitary/adrenal glands activation and clinical effects

The main hormone axis of the stress reaction goes first from the hypothalamus, secondly via the pituitary gland and thirdly to the outside surface of the adrenal glands, which produces cortisol. The term for this is the HPA axis. Stressed people, therefore, make too much cortisol, which weakens immune functions, reduces human growth hormone production, increases belly fat, increases blood pressure and reduces insulin action. In addition, stress also reduces estrogen production in women and testosterone production in men.

Accordingly, the final clinical presentation is osteopenia, then osteoporosis with spontaneous fractures of bones. In addition there is also cardiovascular disease leading to heart attacks and strokes, and cognitive decline with memory loss. There are complications with infections. Also the metabolic syndrome can lead to obesity and type 2-diabetes.

Stress and the hippocampus

In the center of our brain there is a memory-processing unit, the hippocampus that converts short-term memory into long-term memory. Repeated stress interferes with normal hippocampus function. Indeed, high cortisol levels interfere with the proper functioning of the hippocampus causing memory problems.

Hippocampus atrophy can come from chronically high cortisol levels due to chronic stress. In addition this can lead to Alzheimer’s disease.

Effects of chronic stress

Chronic stress leads to cardiovascular disease, to diabetes, chronic inflammation, Alzheimer’s disease, thyroid disorders, cancer, neurological disorders and autoimmune diseases. Researchers showed that inflammation releases tumor necrosis factor-alpha (TNF-alpha), which is a key player of chronic inflammation. This, however leads to the release of other inflammatory kinins like IL6 and others. The resulting chronic inflammation can cause Crohn’s disease, rheumatoid arthritis, insulin resistance, dementia, metabolic syndrome, obesity and atherosclerosis with associated markers (decreased HDL, increased LDL, CRP and triglycerides).

Hormone imbalance causes disease

  1. Excess cortisol production from stress leads to Th2 type inflammatory kinins; usually associated with this is a reduction of DHEA (a male hormone in the adrenal glands), which leads to reduced Th1 type kinins. Overall, the end result is chronic inflammation. When chronic stress has tired out the adrenal glands, a four-point salivary cortisol level test shows a flat curve. This indicates adrenal gland fatigue or, if worse, even adrenal gland insufficiency. Most noteworthy, patients with leukemia, breast cancer, uterine cancer, prostate cancer, pituitary gland cancer and lung cancer show such a pattern.
  2. The disregulation of the HPA axis is particularly evident in patients with metabolic syndrome. People who have this syndrome have a high morning serum cortisol level. As a matter of fact, high cortisol increases the risk to develop metabolic syndrome.
  3. Metabolic connections: high cortisol leads to a partial blockage of thyroid hormones, which in turn leads to hypothyroidism. Hypothyroidism will affect glucose tolerance, and if not treated leads to type 2 diabetes.

In a large study involving 46,578 members of Kaiser Permanente Northwest it was determined that for every 1 point above a fasting glucose level of 84 mg/dL there was an additional 6% risk to develop type 2 diabetes over the next 10 years.

Pathological hormone disturbances

Dr. Heyman mentioned the following hormone patterns that he discussed in detail, increased cortisol levels, increased insulin levels and decreased thyroid levels.

Elevated cortisol

Prolonged elevation of cortisol leads to atrophy of the hippocampus with brain atrophy and Alzheimer’s or dementia. The immune system gets altered, there is lower DHEA hormone leading to weaker muscles and weakened immunity. There is insulin resistance (decreased insulin sensitivity), decreased serotonin and increased depression. Carbohydrate cravings lead to weight gain (central obesity). Changes in the thyroid metabolism leads to hypothyroidism.

Increased insulin level

People who develop high insulin levels are usually sugar or carbohydrate addicts. As they gain weight they change their metabolism into the metabolic syndrome. The extra insulin that is floating around triggers the insulin receptors to become less sensitive (also called “resistant”). The people love to eat. They snack frequently on protein bars and candy bars. As they gain weight, consequently their energy goes down and as a result they often develop painful joints. This prevents them from being physically active. They notice episodes of foggy thinking. Women complain of frequent yeast infections.

The body tries to compensate by slightly decreasing thyroid hormones and slightly increasing cortisol levels.

Decreased thyroid levels

There is increased lactic acid production and decreased insulin sensitivity. Oxidative stress is increased. The patient is depressed and cognition and memory are reduced. Also, the gut has slower motility. The mitochondria, the energy packages in each cell are reduced and functioning less productively. Cardiac function is reduced.

The body tries to compensate for the primary thyroid weakness by slightly elevating insulin and cortisol.

Treatment of stressed hormone system

Before the doctor can treat a disbalanced hormone system, blood tests have to be done that show what kind of hormone constellation is present. Dr. Heyman suggested the following support with supplements.

Treatment of thyroid disorders

Thyroid supplementation may involve any of these: Selenomethionine, iodine, chromium, thyroid glandular, tyrosine, ferritin, Ashwagandha, coleus forskohlii, 7-keto DHEA, ferritin and iron. Other possible supplements that were mentioned by Dr. Heyman were Rhodiola, schisandra, ginseng, Rg3, eurycoma longifolia, neuromedulla glandular, DHEA, tryptophan/5 HTP, licorice, Cordyceps.

This, however, is not all. Missing thyroid hormones need replacement with a balanced T3/T4 medication like Armour thyroid.

Adrenal support

The following supplements are used to support adrenals: Adrenal glandular, vitamin C, adrenal cortex extract, Holy Basil, Pharma GABA, Magnolia/Phellodendron, L-theanine, sterols & sterolins.

Pancreatic support

These supplements support the insulin production in the pancreas:

Chromium, vitamin D, magnesium, alpha-lipoic acid, fish oil, micro PQQ, bitter melon, cinnamon, arginine, vanadium, benfotiamine (synthetic derivative of B1 vitamin) and Bergamot.

Dr. Heyman completed his talk by giving a few patient examples, explaining what blood tests showed, what the hormone disbalance was, and which treatment options were helpful.

How Stress Affects Our Hormone System

How Stress Affects Our Hormone System

Conclusion

Dr. Andrew Heyman gave a talk at the 24th Annual World Congress on Anti-Aging Medicine (Dec. 9-11, 2016) in Las Vegas that I attended. He talked about how stress in due time affects our hormone system. Symptoms from stress can stem from different causes including hormone disbalances. Given these points, conventional medicine would simply treat the symptoms. However, this will not be successful with stress-induced hormone disbalances, namely, because it does not treat the causes. Obviously only causal treatment of the hormone disbalance will restore the person’s wellbeing and the symptoms will disappear at the same time. In short, anti-aging medicine and integrative medicine are attempting to follow this approach.

Incoming search terms:

Jan
14
2017

How To Avoid Being Hungry

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

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

General information about weight gain

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

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

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

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

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

Low-carbohydrate, Mediterranean or low-fat diet

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

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

They compared

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

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

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

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

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

The “POUNDS LOST” study

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

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

Sugar is the driving force

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

Sugar stimulates the food addiction center

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

How to get out of the vicious food cycle

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

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

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

How To Avoid Being Hungry

How To Avoid Being Hungry

Conclusion

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

Monitor your body mass index

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

Oct
29
2016

High Insulin Levels Can Cause Alzheimer’s

Research published in April 2016 shows that high insulin levels can cause Alzheimer’s. Alzheimer’s disease is more common in diabetics. But until recently nobody knew why there would be this association. Finally new research from New York University (NYU) has shed light on this puzzle. It seems like the key is an enzyme that breaks down insulin, called insulin-degrading enzyme (IDE). Melissa Schilling (no relation to me), an innovation professor at NYU has discovered the metabolic pathway between diabetes and Alzheimer’s disease. This finding has enormous implications regarding the prevention of Alzheimer’s, as I will discuss below. Here is a link to the original paper.

Background information about Alzheimer’s

Alzheimer’s disease affects about 5.2 million Americans and 44 million people worldwide. Above all, there is a progressive loss of cognitive functioning over a long period of time due to senile plaques in the cerebral cortex and the subcortical areas of the brain. These senile plaques consist of amyloid-beta substance and neurofibrillary tangles. This protein material is like glue, which prevents the neurons from working properly and certainly causes memory loss and the confusion, which is so typical for Alzheimer’s patients. Normally amyloid-beta is in solution and prevents lipoproteins in the brain from oxidizing. But when the insulin-degrading enzyme is busy breaking down high levels of insulin, these processes overload this enzyme system. Amyloid-beta experiences supersaturation, as the body does not eliminate it at a normal speed. Consequently, this leads to the glue-like deposits of amyloid-beta in Alzheimer’s brains.

A 2004 estimate for the direct cost of Alzheimer’s disease to the US amounted to  $214 billion. By 2050 this could go up to $1.5 trillion, if there will be no cure Alzheimer’s.

High insulin levels can cause Alzheimer’s, but other mechanisms too

Professor Schilling found in her research that there are four main malfunctions that can lead to high amyloid-beta in the brain of Alzheimer’s patients.

  1. First, with diabetes type1, when the patient does not receive enough insulin, the insulin-degrading enzyme in the brain is not working hard enough. This results in inadequate removal of amyloid-beta from the brain and neurofibrillary tangles of amyloid-beta accumulate.
  2. Second, IDE requires zinc as a co-factor to work properly in breaking down amyloid-beta. Zinc deficiency is quite common, particularly in older people. In this case insulin levels are normal, but the removal of amyloid-beta from the brain is inadequate, as IDE function has become lower.
  3. Furthermore, in early type 2 diabetes there are high insulin levels and there is a competitive inhibition of the elimination of insulin and amylin-beta. This is probably the most common form of getting Alzheimer’s disease.
  4. Finally, excess production of an amyloidogenic protein can lead to an overabundance of amylin-beta, which overwhelms the insulin-degrading enzyme.

What treatment options are there for Alzheimer’s disease?

These four mechanisms from above have several implications as follows.

  1. If a type 1 diabetic patient is insulin deficient, intranasal insulin would be beneficial.
  2. If the patient has type 2 diabetes, intranasal insulin or insulin by injection would be the wrong approach. As stated earlier, there is the competitive inhibition of the elimination of insulin and amylin-beta. It is the insulin-degrading enzyme, which is the limiting factor. This involves simple dietary changes where the patient cuts out sugar and limits starchy foods in the diet. This normalizes insulin levels and the IDE function returns to normal.
  3. Alzheimer’s patients and patients with mild cognitive dysfunction should be tested with glucose tolerance tests (GTT). It the test is abnormal, a knowledgeable dietician should be consulted.
  4. Obesity is strongly associated with hyperinsulinemia and diabetes. Again frequent GTT should be done followed by dietary intervention when abnormal.
  5. Professor Melissa Schilling stated that 86 million Americans are pre-diabetic, but they have no symptoms. Only glucose tolerance testing can diagnose that condition. This will prevent a lot of cases of diabetes and Alzheimer’s disease.
  6. Large parts of the population have no knowledge of the glycemic index of carbohydrates. In order to limit glucose overload and excessive insulin production there is a need for educational nutritional programs. This will be a powerful tool in Alzheimer’s disease prevention.
High Insulin Levels Can Cause Alzheimer’s

High Insulin Levels Can Cause Alzheimer’s

Conclusion

It has been general knowledge for some time that diabetics have a higher rate of Alzheimer’s disease. People have known Alzheimer’s as “Diabetes of the brain” or “Type 3 Diabetes”. This new research has shed some light on the connection of elevated insulin to Alzheimer’s disease. It was news to me that there is a competitive inhibition of the elimination of insulin and amylin-beta via the insulin-degrading enzyme. It boils down to recognizing that sugar overconsumption causes Alzheimer’s disease. If you want to keep your brain power until a ripe old age, you better eliminate a lot of sugar and adopt a healthy Mediterranean diet.

May
21
2014

Forty Percent Of Premature Deaths Can Be Prevented

A new report from the CDC (Center of Disease Control) in the US has revealed that up to 40% of premature deaths could be prevented by simple lifestyle changes. As this link shows every year about 900,000 premature deaths occur in the US, which are due to 5 major diseases that in the opinion of the CDC can be prevented by 20 to 40%. Here are the diseases that kill: cancer, heart disease, COPD/emphysema, stroke and accidents/injuries. These conditions were responsible for 63% of all deaths in the US in 2010.

Let’s discuss each of these conditions and how one could lower the risk of dying from them.

1. Cancer:

The Framingham Heart Study has shown that smoking and cancer are closely related. Smokers who quit can significantly reduce their risk of getting cancer. We also know that exercise and prophylactic supplements like fish oil and vitamin D3 have cancer preventative effects.

Antioxidant supplementation that included beta-carotene, vitamin A, vitamin C, and vitamin E daily or on alternate days for 1 to 12 years, along with selenium supplementation reduced the incidence of cancer of the esophagus, colon, pancreas, stomach or the liver. Insulin resistance due to sugar and starch overconsumption is causing cancer, particularly breast cancer, colorectal cancer and endometrial cancer. I have discussed this in a recent blog.

Pollution has been linked to increased lung cancer risks as discussed here.

2. Heart disease:

Heart disease can be caused by several factors in combination. Lifestyle issues are important: Smokers need to quit smoking as the Framingham Heart Study has shown more than fifty years ago that smoking causes heart attacks. Obesity and diabetes also contribute significantly to the risk of heart disease. Often these are connected to faulty nutrition, which is another lifestyle issue that comes to mind when too much sugar and starchy foods are taken in; your liver will convert these into fatty acids, triglycerides and elevated, oxidized LDL cholesterol, which gets deposited under the lining of the arteries. A lack of exercise adds to this problem as a lack of exercise lowers the protective HDL cholesterol and fat is deposited under the lining of the arteries. Start exercising and your protective HDL cholesterol will rise, your total cholesterol to HDL ratio will lower to healthier levels and your risk for hardening of the arteries and for getting a heart attack will fall. If you have diabetes, it is important that you manage your blood sugars well; this means that if you inject insulin, you want the blood sugar tests to be within the normal range and the hemoglobin A1C values to be below 5.5%. Poorly controlled diabetes is an important cause of heart attacks and strokes. High blood pressure is also an important cause of developing heart attacks and strokes. It is important to control your blood pressure by taking blood pressure lowering pills and also by exercising regularly. Exercise seems to send a signal to relax the blood vessels thus lowering the blood pressure, which in turn prevents heart attacks.

Forty Percent Of Premature Deaths Can Be Prevented

Forty Percent Of Premature Deaths Can Be Prevented

 

3. COPD/emphysema:

Chronic obstructive pulmonary disease (COPD) or emphysema is mostly caused by chronic exposure to cigarette smoke from smoking. The earlier you can quit, the better your chances that your breathing will not be the limiting factor when you age. But it is also important to avoid exposure to other noxious gases, such as from welding and from exposure to pollution. This may involve a decision to move to a less polluted area. Or it might involve a job retraining. Those who are suffering from COPD can be helped to a certain extent by a portable oxygen tank with nasal prongs.

4. Stroke:

As mentioned before, quitting smoking, controlling high blood pressure and controlling blood sugar, if you suffer from diabetes have been shown to stabilize your blood vessels including the ones that supply your brain. The key is to prevent hardening of the arteries by a healthy lifestyle. Exercising and keeping your weight under a body mass index of 25.0 have been shown to be effective stroke prevention. Healthy nutrition as indicated above under “heart disease” is equally important for stroke prevention. Go green (eat more vegetables, consume more green smoothies), cut down grains, sugar and starchy foods and you will live longer without strokes and heart attacks. Remember, what’s good for your heart is good for your brain!

5. Unintentional accidents/injuries:

Wearing helmets when bicycling, wearing seat belts when driving in a car, avoiding risky behaviors are all measures that save lives. One factor stands out in all of this: if you drink too much, you run the risk of being involved in unintentional accidents or injuries. People may not like to hear this, but your brain lacks the natural inhibitory impulses when you are under the influence of alcohol, so you become more daring and you may not pay attention for the split second that could have prevented an injury or accident. People react very differently to alcohol. Some people feel inebriated after only ½ a glass of wine or beer whereas others can drink more before they make mistakes. The best is to be sober when you drive, ski, use power tools or walk in traffic. Even climbing ladders requires a clear mind!

Conclusion:

As the CDC said 20 to 40% of premature deaths (deaths that occurred before the age of 80) could have been prevented, if the above-mentioned recommendations were followed. Let me rephrase this: 180,000 to 360,000 premature deaths every year in the US before the age of 80 could have been prevented! Curative medicine cannot help with these statistics as a heart attack or stroke has happened when it has struck you. Cancer and end stage lung disease are similar conditions that you are suddenly faced with when they occur and unintentional accidents just seem to happen. This is where the importance of prevention can be seen, because these little baby steps every day are adding up to something formidable, a force to be reckoned with. Be part of the solution, think prevention!

More information on:

1. Cancer mortality: http://nethealthbook.com/cancer-overview/overview/cancer-mortality-rate/

2. Higher vitamin D3 intake lowers mortality from heart attacks, strokes, cancer, fractures due to osteoporosis: http://nethealthbook.com/news/higher-vitamin-d-levels-associated-lower-risk-mortality/

Last edited Nov. 8, 2014

Apr
05
2014

Yes, There Are Healthy Sugar Substitutes

It is true that sweets are not good for you because they lead to fat accumulation and to diabetes. I explain how this works later in this blog. But who says you cannot sweeten your life with healthy ingredients? Not all sugar substitutes are the same; some are awful, some are in between and one is good (see below).

General information why sweets and starches are bad for you:

There is a triple whammy from sweets that you don’t really want:

a) First, sugar gets absorbed really fast through the gut wall and arrives in your blood stream within 15 to 20 minutes. Starches can be just as powerful in terms of blood sugar surges, but it takes perhaps 30 to 40 minutes for the peak of blood sugar to occur. The end result is the same: whether you load up with a pizza, a doughnut or drink a large, sugar-loaded soda drink, your pancreas reacts the same way. It produces a lot of extra insulin to bring the blood sugar level down. When you do this day after day your pancreas gets used to overproducing insulin and you develop insulin resistance meaning that your insulin receptors that are on every cell surface get tired and become less sensitive to insulin. Due to insulin resistance the muscle cells and the liver cells do not take up sugar (in the form of glucose) as easily as before.

b) Second, because excess sugar cannot be stored as glycogen (the storage form of glucose in the liver and the muscles), the liver converts excess glucose into triglycerides and oxidized fatty acids get taken up by white blood cells called macrophages. These attach to the inner lining of the arteries and lead to atheromatous plaques, the first stage of hardening of the arteries.

c) Third, glucose is an oxidizing agent that will oxidize LDL cholesterol. This makes the LDL particles much denser and forms the so-called very dense LDL lipoprotein fraction (VDLDL) that can be detected in special blood tests (Ref.1).

Not surprisingly people who consume sugar, sweets, soft drinks and starches on a regular basis will have very dense LDL particles (=VDLDL, also called “pattern B-LDL”). The treatment for this is to quit sugar and starchy foods.

I have explained in more detail what sugar does in this blog.

Yes, There Are Healthy Sugar Substitutes

Yes, There Are Healthy Sugar Substitutes

The food industry’s answer to low carb diet drinks and low sugar foods:

Many years back the food industry decided to offer alternative diet drinks that would not contain sugar, but instead have aspartame in it.

Dr. Blaylock has researched excitotoxins like MSG and aspartame (NutraSweet) and urges you in this link to abandon both. I agree with him. But while we are at it, don’t take other artificial sweeteners like sodium cyclamate in Canada (Sweet’N Low). Are you thinking of taking sucralose (Splenda) instead? Think again. What the industry seems to have forgotten is that it was originally developed as an insecticide. This website states that sucralose was actually discovered while trying to create a new insecticide. A researcher tasted it and found it exceedingly sweet. I have done the experiment myself in Hawaii where small ants are ubiquitous. I thought I take a package of Splenda from a coffee shop and do the experiment: In the beginning the ants were reluctant to eat it, but after a few hours they came and took it in. One day later there were only shrivelled up dead ants left in the area where Splenda had been sprinkled. Proof enough for me that Splenda was developed as an insecticide!

In the Splenda marketing scheme they decided to first introduce Splenda gradually into diabetic foods as a sweetener, then later sell it to the public at large. Don’t fall for it. It was a side product of insecticide research, and insecticides have the undesirable quality of being xenoestrogens, which block estrogen receptors in women. As a result of that estrogen can no longer access the body cells, including the heart. The final consequence for a woman is a higher risk for cardio-vascular disease. This can cause heart attacks, strokes and cancer. In men estrogen-blocking xenoestrogens can cause breast growth and cause erectile dysfunction.

The natural sweeteners:

One wonders why the food industry did not choose healthy sweeteners like stevia that has been used for decades in Japan and South America.

Other sweeteners like xylitol, sorbitol, maltitol, mannitol, glycerol, and lactitol are sugar alcohols. Contrary to what many believe they have calories, but much less than sugar, so they are perceived as “safe” as a dietary supplement for weight loss. These alcoholic sugar compounds still produce partial LDL oxidization; interfere with weight loss and still lead to a certain insulin response.  Stevia, a natural sweetener from a leaf of South America is safer and without any calories.

The key is that stevia will not oxidize your LDL cholesterol and will not cause a hyperinsulinism response following a meal. It is metabolically neutral. It is the ideal sweetener for people who desire to lose some weight. It is also safe as it is no excitotoxin. The FDA has recognized stevia as “generally recognized as safe” (GRAS).

What about fructose, agave syrup, honey, brown rice malt syrup, fruit juice concentrates, refined fructose, maple syrup?

The problem is that they are all sugars, which cause a full insulin response leading to obesity, diabetes and hardening of the arteries. This causes heart attacks and strokes. These natural sugar products also oxidize LDL cholesterol, which initiates plaque formation as discussed above; this is the first step leading to hardening of the arteries. It took the medical profession 30 years of observing that a low fat/high carb diet makes us fat and causes heart attacks, leads to strokes and causes diabetes. Let’s not make the mistake of trusting the food industry and mindlessly swallow so-called natural other sugars and sugar substitutes like xylitol, sorbitol, maltitol, mannitol, glycerol, and lactitol. You may want to chew the odd gum with xylitol, as this will prevent cavities in your teeth. But otherwise it is much safer to just stick to Stevia to sweeten your tea, coffee or food. There are brands that are less bitter than regular stevia products, like stevia from New Roots in Canada and stevia from KAL in the US (no, this is not a commercial, it is based on my own observations).

Conclusion:

Sugar is an emotional topic that can get people caught up in heated discussions. The sugar industry and the sugar substitute industry have also powerful lobby groups that provide the Internet and the popular press with conflicting stories to convince you to buy their product. This blog was meant as a no-nonsense guide to get you removed from the high-risk group of candidates for heart attacks, strokes or diabetes. Let’s not forget the metabolism behind the various sugars and starchy foods described above, which I have explained in more detail in my recently published book (Ref.2). Forget the emotions of severing yourself from your favorite fix and stick to a tiny amount of stevia that can replace the familiar sweet taste that you have become accustomed to from childhood onward. At least this is what I do. The only alternative would be to take the plunge and cut out any sweet substance altogether, which I am not prepared to do. If you can do it, by all means go ahead.

More information on carbohydrates: http://nethealthbook.com/health-nutrition-and-fitness/nutrition/carbohydrates/

 

Reference:

1. Life Extension: Disease Prevention and Treatment, Fifth edition. 130 Evidence-Based Protocols to Combat the Diseases of Aging. © 2013

2. Dr. Ray Schilling: “A Survivor’s Guide to Successful Aging“, Amazon.com, 2014

Last edited Nov. 7, 2014

Mar
22
2014

Protect Yourself From Radioactivity

Even though the Chernobyl catastrophe was bad enough, it appears now the 2011 Fukushima Daiichi nuclear power plant catastrophe was 7 to 10 times worse in terms of worldwide radioactive pollution. Even as late as Feb. 20, 2014 there was a new report of further radioactive water spill into the Pacific Ocean.

It is important that you start thinking about preparing yourself to cope with radioactive pollution.

In this blog I will briefly review the history of several radiation disasters in various parts of the world and will mention how coping mechanisms with radiation were fortuitously developed. Finally, I will summarize what you can do to reduce any damage to your health that is caused by radiation leaks.

History of the first nuclear bombs with radioactive fallout in 1945

On Aug. 9, 1945 the second atomic bomb was dropped on Nagasaki, Japan. Dr. Akizuki  worked at the St. Francis Hospital (Uragami Daiichi Hospital), about one mile from the epicenter. He and a staff of 20 were serving at this hospital that looked after 70 tuberculosis patients.

Miraculously all of the staff and most of the patients survived because of a vegetarian diet, which consisted of uncontaminated brown rice, fermented foods, sea algae and vegetables. Dr. Akizuki did not allow sweets of any kind. Salt was allowed as the main condiment. Everybody was fed at least one helping of a soup with fermented soy and seaweed in it (wakame miso soup). Other investigators have confirmed that in a mouse model miso soup has radio protective effects.

The staff and the patients of another hospital also one mile form the epicenter were not so lucky. Almost 100% of them died. They were not on the strict miso/seaweed diet without sugar and sweets.

Protect Yourself From Radioactivity

Protect Yourself From Radioactivity

The experience with Chernobyl

Perhaps the best way to start reviewing the Chernobyl disaster of April 26,1986 is by looking at how children fared who had been directly exposed to the radiation spill from this disaster. As this link shows about 7 million people living in the nearby area were exposed to the highest radiation exposure ever since the atomic age. The children of this population have experienced a 2,400 % increase in thyroid cancers, a 100 % increase of cancers and leukemia and a 200% increase of breast cancer. There were about 800,000 men who risked their lives when working on containing the radiation spill. 25,000 of these men have died and 70,000 are disabled. 20% of the deaths (5000 men) were due to suicide. Here is a report for those who like more details about the health consequences as a result of the Chernobyl disaster. Here are more questions and answers regarding the Chernobyl disaster.

The question is whether a similar accident could happen with any of the other nuclear power reactors. This link explains that such an accident can “only happen in a reactor operating with a Positive Temperature Effect combined with a Positive Steam Effect, and built without a containment structure to mitigate the potential atmospheric effects of a worst-case reactor accident.” It goes on to say that only the reactor in Chernobyl was this type of a reactor, the RBMK series made by the former USSR. The link above goes on to say: “All other reactors for the production of electricity, including all those in America, operate on natural Negative Temperature and Negative Steam Effects, and are encased in air-tight multi-layered containments, the integrity of which rivals that of Egypt’s pyramids.” It ends with this rather strong statement: “This being understood, it is entirely correct to say that an accident like the one that occurred at Chernobyl in 1986, will never happen anywhere else.” The same website reports in another section about the Fukushima disaster, without mentioning that this should not have happened. Nobody could have predicted the forces of nature (a double whammy of an earth quake of the magnitude 9 on the Richter scale, followed by a horrendous tsunami), which destroyed part of the nuclear power plant. From the literature it is not clear whether the government went through any major efforts to provide chelating agents, Prussian Blue and iodine salts to the affected population either in Chernobyl or in Fukushima to minimize the radiation effects from the radioactive emissions.

Part of the problem in Chernobyl was at the time that this all happened behind the iron curtain and that there was a news blackout, which only gradually improved after 1989. In Japan the problem was severe denial and underreporting on behalf of the Japanese government.

Goiania accident involving radioactive cesium-137 in Brazil

On September 13, 1987 two fellows illegally entered an abandoned private radiation treatment hospital in Goiania where a radiation unit containing cesium-137 had been used for treating cancer patients. They stole the radiation head thinking that it might  be valuable scrap metal that they could sell. They managed to sell it to a junkyard owner, Devair Ferreira.

Having a lack of insight that the radiation head would contain radioactive cesium-137, which was emanating ionizing radiation, Devair proceeded to probe for a precious metal with a screwdriver. As the details in the Wikipedia link show, shortly after a total of 112,000 people were screened for potential radiation exposure. There were 4 deaths including the junkyard owner’s wife, and his 6-year old daughter. He himself survived the incident. 249 people were significantly contaminated with cesium-137 and 1000 people had received a dose twice the amount of the yearly background radiation. 20 patients developed radiation sickness and required treatment. As this link shows the Brazilian authorities arranged treatments for  patients who had proven contact with cesium-137 with 10 Grams of Prussian Blue daily, which reduced the effective radiation exposure by 70%. This was the reason for the relatively low mortality and disability rates from this serious accident.

The Fukushima experience

Fast-forward to the latest disaster that has made clear how an earthquake of the magnitude of 9 on the Richter scale followed by an enormous tsunami in combination could lead to the Fukushima disaster in Japan. Following the catastrophe on March 11, 2011 there have been several leaks of radioactive material into the ocean, which are described here.

Dr. John Apsley II also pointed out that with the explosions in Fukushima there were also significant releases of radioactive pollution into the stratosphere that subsequently traveled around the globe. He has made it his ambition to help people minimize radiation exposure from nuclear accidents such as Fukushima.

The initial denial of the Japanese authorities caused a problem of assessing the true significance of the Fukushima incident.

As mentioned in the introduction to this blog there are still ongoing releases of radioactive material, which will eventually work their way into the oceans and into the atmosphere. Dr. Apsley II describes in detail in his book that there were 29 radioactive elements that were released into the air and into water, the main ones being Cesium-137 (and 134) Iodine-131, Plutonium-238 and 239, Strontium-89 and 90 and Uranium-234 and 238. As the body takes up these radioactive elements, they have different organ preferences and they metabolize differently so that each of them causes a certain disease pattern. Radioactive Iodine for instance causes thyroid disease and thyroid cancer, while radioactive Plutonium is causing leukemia, heart disease, lung and breast cancer, several childhood cancers and infant mortality. There is a wave of radioactive cesium-137 coming across the Pacific Ocean that will start to show on the west coast of Alaska, Canada and the US mainland by 2015 and stay peaked until 2020 and beyond.

Ref. 1 points out that it is difficult to know the real concentration of the radioactivity in the water and in the radioactive rain over the US and Canada, as government agency measurements were kept hidden or were falsified. However the author comes to the conclusion in comparing various reference sources that the radiological leak and impact of the Fukushima crisis was and is about 7-fold to 10-fold bigger than that of Chernobyl.

Depending on what story you believe, the fear mongering or the more balanced reasoning arguing that there is enough water in the ocean to significantly dilute the amount of spilled radioactivity, you may or may not eat the sushi on the West coast.

With all this noise it is unclear whether the local population made use of the simple method of chelation at home using miso soup and uncontaminated seaweed. One would hope so. But did they know that it is only effective in combination with a strict diet without sugar and starchy foods?

Protection from radioactive fallout

This brings us to toxicity studies and simple ways of how to protect you from radiation in the environment. First, you need to know how radioactive materials can enter your body. Most nuclides (that is another name for radioactive compounds) enter the body through contaminated food via the gut where they are absorbed into your blood. You can inhale gases like gaseous radioactive Iodine or Radon. Cesium, which has now leaked into the Pacific Ocean can be absorbed through your skin when you walk on a beach that is contaminated with radioactive Cesium-137 containing ocean water. Cesium-137 has a half-life of 30 years meaning that after 30 years it still emits 50% of today’s gamma rays (these are strong X-rays). The biological half-life of Cesium-137 in the body is 110 days. But we do not want this stuff in our bodies causing free radicals to destroy our body cells. So we need effective methods to remove radionuclides.

By reviewing the history above, we already have learnt of two effective ways to remove such radionuclides: Miso soup with seaweed in Nagasaki; and Prussian Blue in Brazil. Prussian Blue works on eliminating the radioactive Cesium-137 before it is absorbed from the gut into the blood. It disappears from the body with bowel movements and also in the urine. However, it should only be taken, when there is proven food contamination with Cesium-137 as it can seriously affect your potassium levels, which could cause serious side effects to your heart. A physician knowledgeable in the use of Prussian Blue can monitor your potassium levels and follow you along.

In comparison to that it is easy to implement dietary habits as was done in Nagasaki:  miso soup and seaweed can be consumed without any side effects. So, why is it important to avoid sugar and starchy foods? The reason is that sugar oxidizes your cholesterol and any tissue it comes in contact with. It also causes the pancreas to overproduce insulin, which causes an inflammatory reaction. Cesium-137 also causes an extreme inflammation in your body, because of the free radicals that are caused from the gamma radiation of cells. Add to this a situation where there is a fire burning inside of your body (inflammation from sugar and starch consumption) and you have a recipe for disaster, comparing it to dumping gasoline into a fire. Inflammation is amplified ,and the radioactive Cesium-137 causes havoc in your system. You quench the fire when you do not eat sugar and starch and you give it an extra dousing by taking chelating agents (miso soup with seaweed), which removes the radioactive Cesium-137. The successful outcome of Dr. Akizuki’s treatments in his hospital in Nagasaki speaks volumes.

There are a number of other useful antioxidants like melatonin, vitamin C, and glutathione. Co-Q10 supports the mitochondria and protects cholesterol from being oxidized. But other substances are also useful. Cabbage contains isothiocyanates that will bind radionuclides before they are even absorbed from the gut. Edible clays, like calcium bentonite works similar to Prussian Blue, but it also supplies extra calcium for the body. For further details consult Ref. 1, which contains a lot more details.

Conclusion

The surprising twist for me when I researched this topic was the fact that what is good for your heart, what prevents Alzheimer’s disease and what helps you to live longer also helps you to cope with processing and eliminating radioactive pollutants. When we adopt a healthier lifestyle now, we are at the same time preparing ourselves for the worst nuclear pollution.

More information on vitamins, minerals and supplements: http://nethealthbook.com/health-nutrition-and-fitness/nutrition/vitamins-minerals-supplements/

Reference

1. Dr. John W. Apsley II : “Fukushima Meltdown & Modern Radiation: Protecting Ourselves and Our Future Generations” © 2011. Temet Nosce Publications, Sammamish, WA 98075

Last edited Nov. 7, 2014

Incoming search terms:

Feb
08
2014

Sugar As A Cause Of Cancer

It has been known for a long time that cancer cells can survive without the ordinary aerobic pathways of energy production. They can get energy from a metabolic pathway, which bypasses normal cell metabolism (aerobic glycolysis). But many attempts of designing a cancer therapy to exploit this difference have so far been unsuccessful.

This Mayo Clinic website even explains that it would be a myth that cancer would grow better with sugar. The following pieces of research question this myth.

Sugar makes cancer grow faster (activates oncogenes) in fruit flies

In this study from the Icahn School of Medicine at Mount Sinai in New York City fruit flies were used as an animal model. You may ask, why fruit flies; we are not fruit flies, we are humans! As incredible as it sounds, on a cellular level our cell metabolism and the cell metabolism of fruit flies is identical. But the generation time of fruit flies is much shorter and results can be seen in days and weeks. To achieve the same in human trials would take months and years. Also, researchers could breed a strain of fruit flies that was susceptible to develop tumors. When they were fed sugar, the fruit flies developed insulin resistance within a short time. This model was chosen by the researchers as it is known for some time that in humans insulin resistance from diabetes, obesity, and other metabolic diseases leads to a higher risk of developing breast cancer, liver cancer, colon cancer and pancreatic cancer. The researchers wanted to sort out what the metabolic advantage of the cancer cells was under these conditions.

The researchers found that the sugar in the diet activated silent cancer causing genes (called “oncogenes)” in the fruit flies that in turn helped to promote insulin resistance and the development of tumors. Because of the insulin resistance sugar could not enter into the normal body cells, but the tumor was using up all of the sugar allowing the tumor cells to multiply at a rapid rate. The end result was that the sugar from the diet fed the cancer cells directly making them grow faster. Interestingly, when these flies that had developed tumors on a high sugar diet were switched to a high protein/low sugar diet, the tumors stopped growing and were contained.

In this fruit fly example the researchers were subsequently able to block cancer cell growth by special cancer suppressing drugs (acarbose, pyrvinium and an experimental drug AD81), which were given in combination. 90% of the flies given the triple-drug treatment survived to adulthood while control flies not treated with this regimen all died of their tumors.

Although this model was only done in fruit flies and one could question whether or not this was relevant to what is happening in human cancer patients, the following piece of research puts this fear to rest.

Sugar As A Cause Of Cancer

Sugar As A Cause Of Cancer

Human breast cancer cell study in vitro

In January 2014 the American Society for Clinical Investigation published a collaborative study between the Lawrence Berkeley National Laboratory, Berkeley, California, CA and the Hokkaido University Graduate School of Medicine, Japan, which used human breast cells in tissue culture showing that sugar could cause breast cancer.

The original papers of this US/Japanese research team are quite technical and I do not expect you to understand this link where it is published. I posted it for those who want in depth information. The researchers used a simple tissue culture model where they could observe tumor growth in cell cultures under the microscope using a gel where the breast tissue samples were placed side by side with normal breast cells that served as controls. The cell cultures of both normal cells and malignant cells were obtained from the same reduction mammoplasty tissue samples. This way the cell cultures mimicked a situation as close to the reality of what is going on in a woman’s body when breast cancer develops.

The normal breast epithelial cells were seen in culture to get organized as a roundish cell formation (an acinus formation) while the cancer cells were growing as irregular cell clumps. This visual effect was reproducible and is depicted in the paper. With high sugar concentrations in the growth medium breast cancer cells multiplied at a faster rate, not so the normal cells. But some normal cells underwent a transformation into abnormal and cancerous cell types. On the other hand, when sugar concentrations were severely restricted, morphological changes took place where cancer cells slowed down their growth or stagnated while some of them even changed into the normal cell formation (acinus formation). Using various known oncogene stabilizers the investigators could show that the same effect was noted as with the low sugar concentration in the growth medium.

The investigators tested whether other cell lines of breast cancer would show similar results as to the effects of sugar feeding or restriction. They were able to show that high sugar feeding activated cancer cells, no matter where the cancer cell lines originated. The authors discussed that metformin, which is known to control the metabolism in diabetic patients and lowers blood sugar levels, has also been shown to calm down growth of cancer (due to stopping oncogene stimulation), which improves the survival rates of many different cancer types in diabetic patients; it also reduces the risk of developing cancer in those who are taking metformin.

Other investigators have shown in mouse experiments that an impressive lowering of cancer rates could be achieved with low carb diets.

Human evidence for cancer causation and cancer prevention

Several clinical studies seem to indicate that there is a higher cancer rate in diabetics where insulin resistance can lead to activation of cancer producing genes (called oncogenes) and cause various cancers. In this link colorectal cancer and pancreatic cancer are discussed in relationship to diabetes and insulin resistance. High glycemic foods (sugar, starchy foods) were associated with breast cancer, colorectal cancer and endometrial cancer. The majority of trials showed this association although not all. The more obese patients were, the more pronounced the insulin resistance was and the more the relationship to these cancers became apparent. A diet that is high in starchy foods like potatoes, rice and bread is causing pancreatic cancer as was shown by researchers at the Dana-Faber Cancer Institute, Brigham and Women’s Hospital and Harvard School of Public Health. High glycemic diets have shown to cause colorectal cancer, diabetes and being overweight. The Standard North American Diet (SAD) is a pathway to many chronic illnesses due its high load in refined carbohydrates. Ironically the abbreviation for it is “SAD”, which in my opinion reflects adequately its sad influence on health and well being. We know now that sugar and starchy foods lead to insulin overproduction, which in turn causes the metabolic syndrome (also known as “insulin resistance”). This causes the immune system to weaken and fat to be deposited as visceral fat in the stomach area. Visceral fat is metabolically very active as it secretes cytokines like tumor necrosis factor alpha (TNF alpha), COX-2 enzymes and others. Insulin and growth factors from the visceral fat gang up together with the elevated blood sugar, which activates tumor-producing genes (oncogenes) to cause cancer.

While cancer rates are higher in patients with insulin resistance, they were lower in patients who did have normal insulin levels. It is important to concentrate your efforts on normalizing weight, which will normalize insulin sensibility and avoid the development of cancer. Sugar avoidance and avoidance of cereals and starchy foods will help you achieve this goal.

Conclusion

Although the idea that sugar could cause cancer has been around since 1924 (Dr. Warburg), it has taken up to now to be proven in animals and humans.

The purpose of this blog was to show how there is a connection between the consumption of sugar and starchy foods and various cancers in man. Animal experiments are useful in suggesting these connections, but many clinical trials including the Women’s Health Initiative have shown that these findings are also true in humans. It is insulin resistance due to sugar and starch overconsumption that is causing cancer.

We are now in a position to know why people who consume a low carb diet, develop less cancer than people who consume a high carb diet. I have followed such a low carb diet (also known as low-glycemic index food diet) since 2001 and find it easy to follow. However, I do not dispute that it takes some discipline to change the old way of eating to the new one. The benefits are definitely worth it: you are feeling well now and you are staying well as you age.

More information about hyperinsulinism that can cause breast cancer: http://nethealthbook.com/cancer-overview/breast-cancer/causes-breast-cancer/

Last edited Nov. 7, 2014

Incoming search terms:

Nov
09
2013

Successful Diabetes Treatment Requires Patient’s Discipline

90% of all diabetes cases are due to type 2 diabetes, which is associated with being overweight or obese. The other 10% are due to type 1 diabetes, which is caused by an autoimmune disease within the pancreas destroying the insulin producing beta cells. Diabetes, type 1 often occurs in childhood (hence the name “juvenile diabetes”), while type 2 diabetes is a condition of the middle aged and older population. There is however an alarming trend: overweight or obese youngsters are also being diagnosed with type 2 diabetes. Here I am discussing type 2 diabetes.

Causes that trigger diabetes

There is not just one way to get diabetes; it usually is a multifactorial disease. Sure, genetics play a minor role. But you need to have epigenetic factors to trigger the genes to develop diabetes: eating too much sugar, eating wheat and wheat products, drinking soda drinks that contain sugar or high fructose corn syrup. Alcohol binges can also cause diabetes as can accumulation of excessive weight (a body mass index above 25.0). Even when there is no genetic risk in your family (your family tree has nobody that came down with diabetes and all your ancestors lived into their 90’s), you can still develop diabetes, if you are exposed to one or more of the risk factors mentioned.

What is the reason why diabetes occurs?

At a Keystone Symposium from Jan. 27 to Feb.1, 2013 in Keystone, Colorado (Ref.1) leading scientific researchers gathered to discuss exactly this question. There seem to be several mechanisms, all of which lead to diabetes. It has been known for some time that in type 2 diabetes insulin resistance develops that renders the cells incapable of absorbing blood sugar (glucose) from the blood into the cells. It is because of this insulin resistance that doctors can diagnose diabetes when blood sugar levels are high.

Successful Diabetes Treatment Requires Patient’s Discipline

Successful Diabetes Treatment Requires Patient’s Discipline

There are at least 5 mechanisms that are presently known that can cause insulin resistance (and thus diabetes) by itself or in combination. For a deeper understanding of diabetes it is crucial to be aware of these. Without knowing the enemy, you cannot fight it.

1. When a person eats too much sugar or fructose the liver converts this into excessive fat that is accumulated in the body’s cells. As a result insulin receptors are becoming inefficient in absorbing sugar from the blood, and blood sugar levels stay high. The pancreas reacts to this by making even more insulin, which after a few years will cause the pancreas to fail in producing insulin. At this point the patient requires insulin or else gets into a diabetic coma.

2. Chronic inflammation is another mechanism that has been shown to cause insulin resistance. Obesity, the metabolic syndrome and diabetes have a common inflammatory denominator that results in insulin resistance. With the aging process there is also deterioration of mitochondrial function (mitochondria are the mini batteries inside of every cell that are responsible for you having energy). This causes fat accumulation and also insulin resistance. Exercise and weight loss are effective in combatting insulin resistance. Fasting has also been shown to improve insulin sensitivity.

3. The metabolism of visceral fat (the type of fat causing the apple appearance in obesity) is highly active and is associated with an increased risk for heart attacks and developing diabetes. The pear shaped woman runs less of a risk, as the fat around the hips is not metabolically active. On the other hand when these women enter into menopause, they also develop abdominal fat (apple-like fat distribution) with a high secretion of inflammatory substances causing insulin resistance, heart attacks and strokes.

4. Another mechanism of causing inflammation comes from invasion of organs with fat cells. The development of fat toxicity from these displaced fat cells can also cause insulin resistance. Heart cells have been shown to die from fat toxicity and in the pancreas the insulin-producing cells can be killed by fat toxicity as well causing diabetes or making existing diabetes worse.

5. Interestingly another line of research, namely researching binge drinking, has revealed that there is a short-term insulin resistance that lasts for several days until the alcohol has been properly metabolized. It is of concern that adolescents who are experimenting with binge drinking are very vulnerable to develop brain damage from this habit.

Consequences of insulin resistance

We know that insulin resistance is the cause for adult onset, type 2 diabetes. It is entirely preventable. But there are powerful influences on people’s lives that will allow one or more of these factors mentioned to cause diabetes. The most common cause is putting on excessive weight. The reason for this is that people like to eat fast foods, drink sugar-containing sodas, and feast on processed foods, bagels and cookies. The end result is a change of the metabolism with an increase in triglycerides from the liver, an increase in LDL cholesterol, particularly the very low-density lipoprotein sub fractions of cholesterol. It has been known for some time that this is the connection to the high, premature death rates from heart attacks in diabetics, in people with obesity and in people with the metabolic syndrome. Hardening of the arteries is accelerated by the deposition of foam cells in the walls of arteries. These are scavenger cells (macrophages) that have engulfed noxious fats. This leads to narrowed coronary arteries and also a general narrowing of arteries all over the body including the brain vessels. In diabetics hardening of the arteries is accelerated and leads to premature strokes, heart attacks and heart failure, kidney failure, blindness and amputations of limbs.

Important tests for borderline diabetics

I you have a fasting blood sugar that is above 100 mg/dL (5.5 mmol), but less than 126 mg/dL (7 mmol) you are considered to be prediabetic or “borderline diabetic”. In this case rather than waiting for disasters in terms of cardiovascular disease, take action and ask your doctor to do the following three tests.

a) Arrange for a glucose tolerance test where you are given 75 grams of glucose; then blood tests are taken at one, two and three hours after this challenge dose. These blood tests are checked for blood glucose levels and insulin levels and tell the doctor exactly what is going on in terms of your sugar metabolism. It shows the glucose clearance and also the insulin response from your pancreas.

b) Have a hemoglobin A1c test done: it shows how your blood sugars have been controlled over the last 2 to 3 months.

c) You also need a VAP (vertical auto profile) test, which tests your lipid profile. Both prediabetics and overtly diabetics have been shown to have lipid profile disorders. Apart from low values in sub fractions of HDL cholesterol this test will also measure the very-low density lipoproteins (VLDL), which has been shown to be responsible for heart attacks and strokes.

With these three tests your doctor can  tell you more accurately what treatment protocol you require to succeed in controlling or curing your pre diabetes or diabetes.

Conventional treatment of diabetes

The conventional treatment of diabetes is to send the patient to a dietician, to ask the patient to do regular exercises and to either start them on hypoglycemic drugs or on insulin injections. Unfortunately the dietician often will encourage the patient to eat “healthy multigrain bread”, which will stimulate your taste buds to eat more sugar, high fructose corn syrup and starchy foods making weight loss impossible. Often the treating physician is satisfied that a hemoglobin A1c of 7% or less is good enough for the diabetic. But non-diabetic people have a hemoglobin A1c of 4% and 5.6%. This should be your goal or you will suffer the consequences of uncontrolled diabetes.

This is what I would call the conventional, symptomatic treatment approach. This may be the approach for patients who are not willing to seriously change their lifestyles, but it is more powerful on the long-term to treat diabetes by treating the underlying causes.

Alternative treatment approach for diabetes

Based on the above discussion regarding the various causes of insulin resistance, it is important to analyze what would be the main contributory factors in your particular case of diabetes.

Here are some suggestions:

1. If you are on the typical North American diet, also known as Western diet, it would be important to face the fact that wheat, wheat products in processed foods and sugar including high fructose corn syrup are the main culprits in stimulating your appetite and making you a sugar and wheat addict. Ref. 2 describes this in detail and offers 150 recipes to overcome this addiction. For more information just follow this reference text. Essentially it is a wheat-free Mediterranean type diet without rice, pasta and bread. You will shed significant amounts of pounds within a short period of time and feel a lot more energetic (due to revitalization of your mitochondria). At the same time insulin resistance is disappearing, because the insulin receptors are fully functional again. The insulin production of the pancreas will go down to normal levels and fat from the visceral fat storage gets melted away resulting in less inflammatory substances circulating in your blood.

2. A regular exercise program in a gym with an aerobic component (30 minutes of treadmill for instance and 20 to 30 minutes of isometric machine exercises) will help you to lower the triglycerides, and increase the healthy HDL cholesterol. It will also improve insulin sensitivity and control inflammation in your body. The best is to exercise 7 days per week. Remember your body works for you 7/7 every week, but for those of you who need a little rest in between 5 days per week is still very good. You may have to adjust your medication and insulin dose downwards, ask your physician about that.

3. Cut out alcohol. This may sound radical to you, but studies show this to be true. I have not mentioned cutting out smoking (it is causing inflammation and insulin resistance), because this is an absolute must that is given. When it comes to alcohol, the famous 1 drink per day for cardio protective purposes may not show up statistically as a bad effect, but your body will nevertheless get the message and let you age somewhat faster than a person who stays sober all the time. Staying sober will allow your brain to think clearly and adhere to your overall lifestyle approach in treating diabetes. Cutting out alcohol protects your brain (including the hypothalamus), liver and pancreas and prevents the prolonged periods of insulin resistance mentioned above that last for days. By keeping your hypothalamus in good working order, your hormone balance will stay stable for as long as possible until you reach menopause (for women) or andropause (for men). When you reached this milestone, I suggest you engage in bioidentical hormone replacement, which I have reviewed here. Hormones are essential to keep you younger for longer.

4. It is useful to monitor your blood sugar with a home glucometer, as this will show you when your blood sugar normalizes. Stay in touch with your doctor at all times, as this will help you in your overall management of your diabetes. Also, you will want to discuss with your doctor that you should have a blood tests called “hemoglobin A1c” measured every three months to see how well your diabetes is controlled. It should be below 7% for sure, but better below 6%. Non-diabetic people have levels of 4% and 5.6%. You may not know that hemoglobin A1c is actually measuring the amount of advanced glycation end products (“AGE”) of red blood cells. These AGE substances essentially are firmly bound sugar/protein compounds that shut down the cell metabolism wherever they are formed. In my opinion it is best to aim at a hemoglobin A1c level of non-diabetic people (4% and 5.6%) to avoid the consequences of tissue damage of all vital organs, which is the reason why long-term diabetics have a life expectancy of 15 to 20 years shorter than non-diabetic persons. Some diabetic patients may benefit from the oral hypoglycemic drug, metformin (brand name: Glucophage), which has anti-inflammatory properties and is used in patients with type 2 diabetes and a high fasting insulin level, but this is a decision requiring your physician’s input.

5. Supplements: There are some supplements that are useful to take as an adjunct, like chromium, which helps insulin to transport glucose into the cell; alpha-lipoic acid, an antioxidant, which is useful to prevent glycation (formation of a complex between sugar and protein, which prevents normal cell functioning); and coenzyme-Q10, which supports your heart (A4M recommends 400 mg per day, higher than Dr. Weil’s link). Other supplements of merit are curcumin, cinnamon, genistein and silymarin (standardized extract of milk thistle), which suppresses a pro inflammatory molecule, which in turn helps to fight insulin resistance (Ref. 1). Omega-3 fatty acid supplements are anti-inflammatory and will improve insulin resistance as well (dosage 1000mg or more per day). According to Ref. 3 vitamin D3 is useful as a supplement for diabetics, because it activates DNA, is involved in cellular repair and deficiency of it is known to lead to higher mortality rates in diabetics. Ref. 3 recommends between 1000 and 4000 IU of vitamin D3 daily and suggests doing blood tests to measure effective vitamin D3 levels (keep 25-OHD in the blood between 30 and 80 ng/mL).

6.Patients whose pancreas no longer produces insulin will need insulin injections, but instead of using long-acting insulin once per day the best results in getting blood sugar control is by injecting insulin three or more times per day using short acting insulin. It is important to always monitor the blood sugar lowering effect by glucometer readings; the injections are best given just before meals (recombinant human insulin is the preferred insulin to be used). Ask your physician or diabetic coach for more details.

Conclusion

Diabetes used to be a dreadful disease that caused premature heart attacks, strokes, blindness, kidney failure, and limb amputations. With aggressive management of diabetes as well as strict lifestyle intervention this has changed. A diabetic who treats the causes of the illness can have a normal life expectancy. In many cases the initial diagnosis of type 2 diabetes can disappear, when treatment was started early enough and insulin resistance could be stopped in its tracks. Without the patient’s full co-operation disciplining him/herself to follow through on all of these recommendations the caregiver will fail in controlling the patient’s diabetes. It is the patient who owns the problem; it is the patient who needs to make every possible effort and follow through on all of the details of dieting, exercising, blood sugar monitoring using a glucometer and taking the required supplements.

More information on diabetes: http://nethealthbook.com/hormones/diabetes/type-2-diabetes/

Reference

1. http://www.lef.org/magazine/mag2013/oct2013_2013-Keystone-Diabetes-Symposium_01.htm

2. William Davis, MD: “Wheat Belly Cookbook. 150 Recipes to Help You Lose the Wheat, Lose the Weight, and Find Your Path Back to Health”. HarperCollins Publishers LTD., Toronto, Canada, 2012.

3. Rakel: Integrative Medicine, 3rd ed. © 2012 Saunders. Integrative Therapy; Supplements.

Last edited Dec. 17, 2014

Incoming search terms:

Oct
19
2013

Healthy Choices Start In Your Brain

You may have seen the CNN heading “Where is self-control in the brain?”  If we want to make any healthy choices in life including sound financial choices, we need a balanced brain that makes the right decisions for us.

Researchers at the Caltech in Pasadena, CA have examined this question in detail using functional MRI scans and found out that there are two loci on the frontal lobe of the brain that control your impulses: the “ventral medial prefrontal cortex” (red in this link) that processes your initial image (like seeing a delicious ice cream cone”) and the “dorsolateral prefrontal cortex”(green in this link), where you decide that this is not healthy for you because it has too much sugar in it. The Caltech researchers found a group of volunteers who were impulsive and made the wrong choice simply based on their taste buds without consideration for their health in general. An equally large group of volunteers was also found who had functional activity in the ventral medial prefrontal cortex and the dorsolateral prefrontal cortex, the latter of which modified the final decision into the healthy choice. The impulsive group made their decision to buy simply with the activation of only the ventral medial prefrontal cortex.

The researchers think that it is this kind of lack of balanced thinking that decides whether we are going to make the right or wrong health choices for ourselves. The sad part is that ultimately, the summation of bad health decisions during life can become the cause of developing dementia, such as Alzheimer’s disease. The good news is that many of the causes of dementia can be avoided, which means that the average person could prevent dementia. I will discuss this in detail here.

Causes of dementia

It is interesting to study patients with various forms of dementia as it is often in the frontal and temporal portions of the brain where brain cells are dying off resulting in impulsive buying, impulsive behavior and lack of recent memory. It is also important to recognize that a number of conditions or factors can cause dementia:

1. Genetic causes

Here is the

There are two types of frontotemporal lobe dementias, a tau-protein positive FTD and a ubiquitin-positive FTD, which has been shown to be due to a deficiency in progranulin. Both of these genetic defects are located on chromosome 17. In Alzheimer’s dementia, which occurs later in life there can be genetic defects at chromosomes 21, 14 or 19. Epigenetic factors like exercise, avoidance of alcohol, and taking omega-3 supplements can even partially prevent or postpone the onset of dementia from genetic causes.

Healthy Choices Start In Your Brain

Healthy Choices Start In Your Brain

2. Toxins like alcohol

Another example of how people can get dementia is through the effect that regular alcohol consumption has on our brains and bodies. This image of an MRI scan shows a normal brain for comparison on the left and  the MRI scan of the brain of a chronic alcoholic on the right.  When a chronic alcoholic has severe atrophy of the brain a psychiatric condition, called Korsakoff’s syndrome can occur. This psychotic condition as a result of the brain having been poisoned by regular alcohol intoxication. Essentially the toxic effect of high daily doses of alcohol have shrunk not only the surface of the brain, but also the deeper substance of the brain. The patient is psychotic, has loss of memory and is unable to care for him/herself.

3. Vascular damage to the brain

Strokes can cause vascular dementia that leads to Alzheimer’s disease-like memory loss. This link points out that diseases like hypertension, obesity, diabetes, atrial fibrillation, ischemic heart disease and dyslipidemia all predispose you to possibly get a stroke with subsequent dementia.

4. Traumatic head injuries

In boxers, football players and combat soldiers brain cells can get lost from repetitive head trauma leading to dementia (in this case it is called “dementia pugilistica”).

5. Infectious dementia

HIV in AIDS patients can affect the brain and cause an HIV-associated dementia. Bacterial meningitis and viral meningitis can kill brain cells and cause a form of dementia as well.

6. Immune disorders

We know that MS can go on to develop dementia as a late complication. In MS there are autoantibodies against myelin, the insulation material that surrounds nerve fibers. An important category of immune disorders is autoimmune disease that can cause dementia. The cardiologist, Dr. William Davis, has presented compelling evidence that wheat allergies can cause dementia, but if detected early and treated by a gluten free diet, this clears up the mind and stops further development of dementia (Ref.1 describes wheat allergies causing dementia; a wheat free diet is described in Ref.2).

7. Hormone deficiencies

A classical example is hypothyroidism, which in the past before thyroid medicine was available, often led to dementia. A simple blood test, TSH (thyroid stimulating hormone) can detect whether or not you are hypothyroid. The A4M recommendation for a normal level is below 2 (not below 5 as often reported by official lab value reports).

8. Lack of vitamins

Thiamine (=vitamin B-1) is often missing in alcoholics. If you are missing vitamin B-6 and vitamin B-12 in your diet, this can predispose you to develop dementia as well. Aging people lose a factor from the gastric mucosa (the intrinsic factor) that is essential to absorb vitamin B-12 in the mall bowel, which predisposes them to develop pernicious anemia and dementia. A simple vitamin B-12 injection can prevent this from happening.

9. Too much sugar consumption

Sugar consumption has skyrocketed in the 1900’s and keeps on going up in the new millennium as well. Here is a review that discusses the possibility that Alzheimer’s can be triggered by overconsumption of sugar. The higher the blood sugar levels in diabetics, the higher the risk for developing Alzheimer’s disease. A study in Seattle has confirmed this. High insulin levels are found in type 2 diabetes; they are responsible for making brain cells stimulate the production of the gooey substance amyloid that causes Alzheimer’s disease. The authors of this study showed this to be true both in humans and in animal models.

10. Lifestyle issues like lack of exercise, excessive weight (obesity, being overweight) and poor diet (fast foods) play an enormous role in terms of causation of dementia in addition to the other factors mentioned. On the other hand organic foods Lack of toxins) and a Mediterranean type diet will preserve your brain cells.

Treatment of dementia

At present treatment of dementia is very limited, as we do not have a complete understanding of dementia at this point. The traditional treatment of dementia outlined here will only marginally delay further deterioration of dementia, but ultimately fail. In my opinion this is because the medical profession has been concentrating on fighting the symptoms of dementia rather than the cause.

Given the list of known causes above, I like to give you 6 recommendations that will help you to prevent Alzheimer’s disease and dementia in general.

  1. I would suggest that you cut sugar out of your diet and replace it with stevia. This also includes dates, grapes, bananas; also wheat and wheat products and starchy foods like pasta, potatoes, rice and bread (see Ref. 1 and 2 for details). The manufacturers of soda drinks, pies and cakes will not be happy about this recommendation, but it will please your brain cells. You will also be surprised how easy it is now to lose weight, which will please you (this also lowers your risk for heart attacks and strokes).
  2. Severely limit your alcohol consumption to less than 1 drink for women and 2 drinks for men per day (better still would be to stay sober) unless you want to become part of the hospital population mentioned in one of the links at the beginning of this blog.
  3. Have your hormones checked, particularly your thyroid hormones, but also estrogen and progesterone levels in women and testosterone in men. Our brain cells have hormone receptors for a reason. They need to be stimulated by our hormones, even in menopause or andropause. Replace the missing sex hormones with bioidentical hormone creams and missing thyroid hormones with thyroid tablets (Armour is the best mix of T3 and T4 thyroid hormones, not Synthroid).
  4. Prevent repetitive brain injuries before it is too late. Rethink whether you really need to box, street fight, play football, rugby or hockey.
  5. Use vitamins for prevention of dementia: The B complex vitamins like B-2, B-6, B-12 (by injection); vitamin D3 has recently been shown to be effective in slowing down Alzheimer’s disease. Vitamin D3 is low in Alzheimer’s patients and vitamin D3 supplements will slow down this disease. Although vitamin C showed equivocal results, it does have some neuroprotective qualities and decreases β-amyloid production and acetyl cholinesterase activity. A Mediterranean-type diet (Ref.2) is also helpful in preventing dementia.
  6. Exercise daily. It will discipline you to stick to the other points mentioned above. It gives you some extra endorphins and will make you feel good about yourself.

Conclusion

Although we do not yet have a complete picture regarding Alzheimer’s disease and dementias, we do know enough to reduce our risk of getting them. When you cut out wheat and wheat products, autoimmune antibodies against your brain cells will not be produced, your opiate receptors in the brain will not be seduced to eat more and more sugar, starchy foods or high fructose corn syrup, so you will have no problem in cutting out high glycemic index foods (Ref.1). This will reduce insulin and reduce IGF-1 growth factors that would have made you vulnerable to produce the gooey amyloid substance that makes you lose your memory. The orbitofrontal part of your brain (particularly the dorsolateral prefrontal cortex) will be reminding you what you read here: healthy lifestyle choices start in your brain.

References

1. William Davis, MD: “Wheat Belly. Lose the Wheat, Lose the Weight, and Find Your Path Back to Health”. HarperCollins Publishers LTD., Toronto, Canada, 2011.

2. William Davis, MD: “Wheat Belly Cookbook. 150 Recipes to Help You Lose the Wheat, Lose the Weight, and Find Your Path Back to Health”. HarperCollins Publishers LTD., Toronto, Canada, 2012.

Last edited Oct. 19, 2013

Aug
24
2013

Pimples And Acne Can Be Caused By Food

For a long time nobody knew why teenagers get acne. But many assumed that it would come from hormonal changes as teenagers grow up. But why then are there some ethnic regions in the world where teenagers do not get acne? In this blog I will present the background that shows that wheat, sugar and dairy products are the culprits. They are not eaten in those regions of our planet where acne does not exist.

Regions where acne does not exist

1. The Kitivan Islanders of Papua New Guinea have no cases of acne in teenagers. They adhere to the old hunter/gatherer diet of no sugar, no alcohol, no wheat and no grains. Instead they eat root vegetables such as sweet potato, yam, taro, tapioca; fruit like papaya, pineapple, banana, mango, watermelon, guava and pumpkin; and also vegetables, coconuts and fish.

2. African Bantus and Zulus: These original African warriors eat a low glycemic diet with no wheat, no milk and no refined sugar or starches. Their teenagers and young adult do not have acne, if they stick to the original tribal diet.

3. Aché hunter/gatherers of Paraguay: a study by researchers from the Colorado State University in 2002 showed that sugar, wheat and other high-glycemic foods were missing in the diet of these native tribes. As a result they have no acne when they consume this type of diet, which is very similar to the Kitivan Islanders of Papua New Guinea.

4. Japan’s Okinawans when sticking to their original diet before 1970 had clear complexion and no pimples (acne). But as this link shows the McDonald’s and other fast foods with too much salt, too much sugar, wheat, deep fried and convenience foods entered the scene after 1970 and the acne rate went up to the American level.

5. The natives of the Purus Valley in Brazil: A dermatological examination of 9955 school children age 6 to 16 showed an acne incidence of only 2.7%. In contrast in Westernized countries the rate of acne is 60 to 80%. The diet in this region is again similar to the other groups already mentioned above.

6. Canadian Inuit before 1950 did not consume dairy products and were acne free. Since then there has been a steady increase of dairy products, soda, beef, and processed foods.

How acne develops

The medical term for pimples or acne is “acne vulgaris”. For years it has been postulated that hormones and medication can cause acne. According to Ref.1 there are several steps that work together in causing acne. The hair follicle and sebaceous gland work as one unit. Male hormones, called androgens play an important role in the development of acne, both in males and females. Testosterone in males is not only produced in testicles, but also in the skin itself. It gets converted by an enzyme, 5-alpha-reductase, into the much more active metabolite dihydrotestosterone. In individuals with hypersensitive receptors in the sebaceous gland this will cause blockage in the sebaceous gland duct and at the same time stimulate the sebaceous gland oil production leading to the formation of a keratotic plug. White heads and black heads are formed this way. Contributing factors are inflammatory substances that are caused by insulin release stimulated by sugar, wheat and starch intake. This stimulates IGF-1 receptors in the skin, which causes growth of the subcutaneous skin layers, which is pushing up from the layer below the skin, kinking the sebaceous gland duct and causing acne pustules (pimples) to form. A skin bacterium, called Propionibacterium acnes (P. acnes), is getting trapped in the pimple causing a local skin infection, which in turn can cause acne cysts and furuncles, particularly in males where there is a family history of acne. High cortisol levels from stress can also be a contributing factor in causing acne. Today’s teenagers are exposed to a lot of stresses from exams, competitive sports and peer pressures.

Females with PCOS (polycystic ovary syndrome) have higher androgen production from ovarian cysts, which results in acne as well.

Both male and female teenagers experience an androgen surge when puberty sets in. If the teenager avoids the additional insulin response, which comes from eating sugar, starch, grain and particularly from consuming wheat and wheat products, the plugging up of skin pores will not occur, meaning these teenagers will be acne free. Some teenagers are also sensitive to milk protein from milk and milk products. In sensitive people whey protein allergy causes the same insulin/skin IGF-1 response described above, which leads to blocking of skin pores. If there is no blockage in the hair follicle, the P. acnes bacteria will stay on the surface of the skin (these bacteria are part of the normal skin flora) and the sebaceous gland secretions flow unimpededly to the surface of the skin keeping  it naturally lubricated. These observations are further confirmed by a study from Malaysia in 2012 showing that a high glycemic load diet with milk and ice cream caused worsening of acne in teenagers of both sexes.

Pimples And Acne Can Be Caused By Food

Pimples And Acne Can Be Caused By Food

Treating acne correctly

A)   Conventional acne treatment

This is a thorny issue, because Big Pharma has a firm hand in the treatment of acne and they are supporting symptomatic treatment of acne rather than treating the cause. There are surface treatment modalities that are supposed to open the skin pores: peeling agents such as benzoyl peroxide. General practitioners often treat the infection with antibiotic pills (tetracycline or erythromycin), but this is not treating the cause, only the super infection that comes from the plugged up skin pores (stasis of sebaceous gland secretions). Another approach is topical application of antibiotic and peeling agent in combination (1% clindamycin and 5% benzoyl peroxide gel), which is applied twice daily (Ref.2). Resistant cases, usually the ones who have a family history of severe acne, have been treated by a skin specialist who has a special license to treat with isotretinoin (Accutane), a vitamin A derivative, which works in many cases, but which can have serious side effects. These include skin dryness, eye dryness, muscle and bone pains, headaches, liver enzyme abnormalities, and instability of mood including depression and causing birth defects in the fetus of a pregnant woman (Ref. 3). In 2009 the manufacturer stopped distributing the drug in the US, because of too many lawsuits regarding damages from the drug.

I am not saying you should ever take this toxic medication. What I am saying is that treating symptoms, but not the cause has led to peculiar drug manufacturing. This drug is now used to treat brain cancer and pancreatic cancer.

B)   Dietary approach to treat acne

There has been a renewed interest in the last 40 years to sort out the connection between dietary factors and acne.

The most straightforward treatment in my opinion is to modify what you eat.

A clinical trial from the University of Melbourne in 2007 showed that a low-glycemic diet reduced the acne lesions by 22% compared to a control group.

Two factors are clear: a low-glycemic diet produces fewer pimples, the stricter the low-glycemic diet is applied, the more effective the treatment will be. Up to 50% reduction in acne lesions were observed among patients with acne who adhered to a strict low-glycemic index diet in just 12 weeks. There is also evidence that milk and other dairy products can contribute to acne, which works through the same mechanism of IGF-1 stimulation mentioned above.

A US study from Boston showed a 22% increase in acne lesions with total milk consumption and increase of 44% after skim milk consumption.

Omega-3-fatty acid supplementation is useful for inflammatory acne in about 2/3 of the cases as this study showed. Here is a patient from this study who benefitted from omega-3 supplementation. The baseline image is seen with inflammatory acne lesions on his cheek. Only 12 weeks after taking 3 Grams of omega-3 supplementation daily his face looked much improved.

Conclusion

There is a lesson to be learnt from the analysis of the regions in the world where acne does not exist and from all these observational studies mentioned. Cutting out wheat, wheat products, grains, sugar, milk and milk products will lead to amazing results regarding acne prevention and improvement of patients who suffer from acne. We have been lulled into believing that medical science will give us a magic pill or magic potion that would solve our complexion problems. As mentioned above one of the “magic pills” (isotretinoin) is so toxic that it is now used for cancer treatments. All along we allowed the food industry to destroy our complexion by inducing an insulin and IGF-1 response that plugged up our skin pores. We can open them up by eliminating wheat and wheat products, sugar, high-glycemic foods as well as dairy products.

More information on acne: http://nethealthbook.com/dermatology-skin-disease/acne-vulgaris/

References

  1. Rakel: Integrative Medicine, 3rd ed., Saunders 2012. Chapter 73 : Acne Vulgaris and Acne Rosacea, by Sean H. Zager, MD
  2. Mandell, Douglas, and Bennett’s Principles and Practice of Infectious Diseases, 7th ed., © 2009 Churchill Livingstone.
  3. Cleveland Clinic: Current Clinical Medicine, 2nd ed., © 2010 Saunders.

Last edited Nov. 7, 2014

Incoming search terms: