Sep
03
2016

Hidden Cause Of Depression

By | alcohol, depression, Mental Health, Nutrition, Vitamins and supplements

About 15.7 million Americans suffer from depression every year, but there remains a hidden cause of depression.

Not everybody responds well to antidepressant medicine. Only 30 to 50% of depressed people respond to antidepressants. There are two blood tests many physicians do not know and therefore fail to order: homocysteine blood levels and 5-methylfolate levels (5-MTHF).

Homocysteine as a hidden cause of depression

In 2004 a research group studied 924 middle-aged men. They noted that those men who fell into the highest third of homocysteine levels had a two-fold higher risk of being depressed than those who fell into the lower third of homocysteine levels. Other studies showed that SAMe, a nutrient that is required to build up mood enhancing neurotransmitters was sadly lacking in depressed people. In addition, folate levels were also found to be low in depressed people.

Having found this association between lack of nutrients and depression offered new opportunities to treat depression. Two studies examined the effect of taking 5-methylfolate on the effect of antidepressants. The result was astounding: in one study 7% of patients taking an antidepressant experienced improvement of their depression when assessed with a standard depression score. However, the same group improved their depression by 19% when 5-methylfolate was given in addition to the antidepressant.

Patients with the most severe depression on antidepressants had a 16% improvement of their depression. Adding 5-methylfolate to the antidepressant caused a 40% overall improvement in these severely depressed people, 24% more than without this simple vitamin supplement.

There is other evidence that patients with depression recover faster in the presence of 5-methylfolate. Moderately depressed patients recovered within 231 days on antidepressants alone, but in only 177 days when 5-methylfolate was present as well. The most severely depressed patients recovered within 150 days with antidepressants alone, but recovered within only 85 days on 5-methylfolate and the antidepressant.

Hidden cause of depression and Alzheimer’s disease

The story is getting more involved. Depression is related to proper balance of neurotransmitters that can be influenced by antidepressants and 5-methylfolate. But new research showed that Alzheimer’s disease (dementia) patients with cognitive decline have elevated homocysteine blood levels. A study in the New England Journal of medicine in 2002 found that after 8 years of observation more than 75% of them were diagnosed with Alzheimer’s disease. When blood homocysteine levels exceeded 14 micromole per liter the risk of Alzheimer’s had doubled compared to those with normal homocysteine levels. The researchers concluded that homocysteine is an important risk factor for the development of Alzheimer’s diseases and dementia, although it is not the only one.

Methylation pathway defects as a hidden cause of depression

40% of the population is defective in one or more genes that control the so-called methylation pathway in each of our cells (Ref. 1). This can slow down the metabolism of brain cells including the synthesis of certain neurotransmitters. At the same time it can cause the rising of homocysteine, which is then a useful marker for methylation defects. Another marker is the 5-methyl folate level, which, when low, indicates a deficiency in methyl donors including 5-methylfolate (5-MTHF).

Mental illness is an area where epigenetic factors play an important role. Depression that responds only partially or not at all to SSRI’s (antidepressants) often responds to L-methylfolate, a simple supplement from the health food store as a supplement. Similar epigenetic approaches are useful to treat psychosis, schizophrenia, bipolar disorder and Alzheimer’s disease.

Other illnesses due to methylation defects

Dr. Rozakis mentioned that 92% of migraine sufferers have a defective methylation pathway involving histamine overproduction and they can be helped with a histamine-restricted diet (Ref.2).

Autism, ADHD (hyperactivity) and learning disabilities are other diseases where methylation pathway defects are present. Physicians should check patients with autism for methylation pathway defects, and appropriate supplements and diet restrictions can help in normalizing the child’s metabolic defects. Mothers should consult with a DAN physician (“defeat autism now”) who is knowledgeable regarding all aspects of autism.

S-adenosylmethionine (SAMe) defects are another type of methylation defect, which associates with certain liver, colon and gastric cancers.

Dr. Rozakis went on to say that methylation defects lead to disbalances between T and B cells of the immune system and are important in autoimmune diseases like lupus or rheumatoid arthritis.

Methylation defects can also cause autoimmune thyroiditis and type 1 diabetes. They can also cause cardiac disease by raising homocysteine levels, which causes dysfunction of the lining of arteries and premature heart attacks.

Epigenetic factors through global methylation defects from vitamin B2, B6 and B12 deficiency can cause many different cancers. Hypomethylation is the most common DNA defect of cancer cells.

With skin diseases it has come to light that atopic dermatitis, eczema, psoriasis, scleroderma and vitiligo are related to methylation.

When we age, certain hormones are gradually missing, which leads to menopause and andropause. This leads to impaired cell function, elevated cholesterol, arthritis, constipation, depression, low sex drive, elevated blood pressure, insomnia, irritable bowel syndrome and fatigue. Replace the missing hormones with bioidentical ones, and symptoms will normalize.

Tests and treatment for hidden cause of depression

It is important for a physician to test patients for homocysteine levels once per year. As we age, we tend to lose some of the methylation pathway enzymes, which can result in an increase of homocysteine in the blood. A normal homocysteine level is less than 7 to 8 micromoles per liter. This is lower than the commonly recommended 15 micromoles per liter.

If the homocysteine level is too high, the treatment consists of methionine containing foods like dairy products and meat. Methionine, an essential amino acid, functions as a donor of methyl groups. The methyl groups normalize the methylation pathway defect and allow the homocysteine level in the blood to decrease. Research studies have been using 1000 to 5000 micrograms of 5-methyl folate daily to reduce homocysteine. Other B vitamins are necessary to reduce homocysteine, like vitamin B2, B6 and B12 in addition to 5-MTHF.

Hidden Cause Of Depression

Hidden Cause Of Depression

Conclusion

Depression and several other illnesses can be related to methylation pathway defects. This can cause a lack of 5-MTHF resulting in high homocysteine blood levels. It is important that a physician checks his elderly patients for homocysteine blood levels once per year. This will prevent depression, Alzheimer’s disease, migraines and a number of other illnesses.

Once a methylation pathway defect has been identified, it is relatively easy to treat the patient. The treatment consists of a proper methionine rich diet and 5-MTHF supplements as well as other B vitamins as discussed. It can prevent a lot of disability and human suffering.

References

Ref.1: William J. Walsh, PhD: “Nutrient Power. Heal your biochemistry and heal your brain”. Skyhorse Publishing, 2014.

Ref. 2: https://www.askdrray.com/life-expectancy-is-influenced-by-lifestyle/

Nov
09
2013

Successful Diabetes Treatment Requires Patient’s Discipline

By | Diabetes, Fitness, heart attack, Heart Disease, Hormones, Nutrition, Obesity, Prevention, Stroke, Vitamins and supplements, Weight loss

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

May
18
2013

Treatment For Alzheimer’s Failed, But Prevention Succeeds

By | Alzheimer’s disease, Fitness, Health, Heart Disease, High Blood Pressure, Hormones, Mental Health, Nutrition, Prevention, Vitamins and supplements

Recently another news story about a failed drug against Alzheimer’s disease (AD) went through the news media as shown in this link.

Donepezil, galantamine, rivastigmine and memantine are the most common drugs used to attempt to treat Alzheimer’s as this review explains. None of these drugs are a real breakthrough with regard to truly curing AD, as the drugs only achieve a few months of delay in the eventual deterioration of the AD patient’s symptoms. On the other hand there is an overwhelming accumulation of data in the last few years showing that many different factors can prevent AD and dementia. Below I am reviewing all these preventative factors and steps.

Genetic and epigenetic factors in Alzheimer’s disease

Early onset Alzheimer’s disease occurs between 30 and 60 years of age. It is due to a genetic predisposition (mutations on genes of chromosomes 1, 14 and 21). Only about 5% of all AD cases are caused this way. The remaining 95% of Alzheimer’s cases are due to late-onset Alzheimer’s disease. Here the causation is due to a combination of genetic, environmental and lifestyle factors. One genetic risk factor in this group is important, namely the apolipoprotein E gene (APOE), which is located on chromosome 19. There are several forms of APOE as this review explains. It also states that there is so much variation between the various APOE forms and even the worst form of this does not necessarily mean that the person who has this will come down with late-onset Alzheimer’s disease. So APOE is presently only used in research projects. Your doctor will only order genetic tests in people who have a strong family history of early onset AD.

There is another genetic marker, the CYP46 gene that was found to be present in some late-onset AD patients. If it is combined in a patient with the APOE gene, there is a much higher chance of developing AD as this review shows.

Epigenetic factors are probably more important than genetic factors for most cases of late-onset AD, as this review explains. Another review came to the same conclusion.

What are epigenetic factors? Exercising, replacing missing hormones, using a calorie restricted, only 15-20% fat containing diet; and taking supplements as listed below that will keep harmful genes in the “off” position and protective genes in the “on” position. Taking these preventative steps is probably more powerful than using any of the presently available medications mentioned above.

Treatment For Alzheimer’s Failed, But Prevention Succeeds

Treatment For Alzheimer’s Failed, But Prevention Succeeds

Exercise, diet, control blood pressure

As already mentioned, these are some of the powerful epigenetic factors that will prevent AD down the road. Controlling blood pressure has long been known to improve cognitive function. It is now evident that there seems to be a problem with microcirculation in brain tissue before it comes to neurodegenerative changes of AD and the underlying deficiency in nitric oxide production in the lining of the diseased arteries. Other research has shown that a lack of nitric oxide (NO) production is also the underlying problem with hypertension.

Green vegetables such as kale, spinach, also cabbage varieties and red beets are a source of nitric oxide and have also been shown to prevent AD at the same time.

Add to this exercise and you have a winning combination for the prevention of AD. You guessed right: exercise increases NO production from he lining of your arteries. When people age their lining of the arteries does not produce as much NO as in younger years. However, there is a supplement available, Neo40 Daily, that can be taken twice a day to compensate for this.

Here is another report about a 30% to 40% reduction in the incidence of AD when people do regular, simple exercises.

More good news about fruit and vegetables: tomatoes, watermelons, pink guava, pink grapefruit, papaya, apricot and other fruit all contain lycopenes, which have been shown to prevent AD.

Recently a new testing tool in combination with a PET scan of the brain has been developed, which may help the treating physicians to assess improvement or deterioration of an AD patient objectively using this method. However, this is still considered to be only a research tool at this time.

Supplements to prevent Alzheimer’s disease

The following brain-specific nutrients play a part in the prevention and treatment of AD (according to Ref.1):

1. B-vitamins: they are important to support the energy metabolism of brain cells.

2. Vitamin C: this has antioxidant properties and prevents brain cells and supportive glia cells from oxidizing.

3. Vitamin E in the form of mixed tocopherols: together with vitamin C has been shown to prevent Alzheimer’s disease

4. Phosphatidylserine (PS), with an intake of up to 300mg/day: counteracts and prevents memory loss.

5. Coenzyme Q10 (ubiquinone), 100mg/day (it would be safe to take 400 mg per day, which is also cardio protective): stabilizes the mitochondria of brain cells and heart muscle cells. It is a powerful neuroprotective agent and supports ATP production (energy metabolism of brain cells).

6. Ginkgo (Ginkgo biloba), at a dose up to 240mg/day: increases micro vascular circulation, neutralizes free radicals from oxidation and improves short-term memory.

7. Omega-3 fatty acid and DHA, 1500mg/day: has anti-inflammatory properties.

Other nutrients that hold promise are:

8. Huperzine A, 100 to 200mg/day: natural anticholinesterase inhibitor, derived from the Chinese club moss, surpasses donezepil according to studies by doctors in China

9. Vinpocetine, 2.5 to 10mg/day: comes from the periwinkle plant, increases cerebral blood flow and stimulates brain cell metabolism

10. Turmeric extract (curcumin) is very beneficial in reducing tau protein deposits in AD.

All these statements and dosages are cited from Ref.1.

Hormones to prevent Alzheimer’s disease

According to Ref. 1 there are certain hormones that can prevent AD: DHEA, pregnenolone, estrogen (bioidentical estrogen only).

  1. DHEA is persistently low in AD patients and replacement with DHEA at 50 mg daily has shown improvements in muscle strength and energy of AD patients.
  2. Pregnenolone has been shown to be a powerful memory enhancer in animals and humans alike.
  3. Estrogen, if taken as bioidentical estrogen cream (Bi-Est) can improve brain function. Estrogen is a strong epigenetic switch that keeps a woman mentally younger for longer, but has to be balanced with bioidentical progesterone cream to prevent breast cancer and uterine cancer. A study showed that estrogen replacement early in menopause will cut down on the heart attack rates, but it is also known, particularly when given as bioidentical hormone cream to prevent AD.
  4. In addition progesterone has been described to be of value in the aging woman to preserve brain metabolism.
  5. Testosterone is known to protect against Alzheimer’s disease in the aging male.
  6. Melatonin at a starting dose of 1 mg to 3 mg at bedtime often helps to restore the disturbed sleep pattern, but also augments the effects of the other hormones (Ref.1).

Removal of toxins, particularly mercury

Mercury is extremely toxic in minute amounts and affects brain cells preferentially. Intravenous vitamin C/glutathione treatments as described in this blog will remove mercury from your system including the brain.

It may take 20 to 30 such treatments in weekly intervals followed by a maintenance program every two to three weeks to remove mercury from the body.

Other heavy metals can accumulate in the brain as well and must be removed. This is described here in more detail.

Conclusion

There have been major breakthroughs in prevention of Alzheimer’s disease and dementia over the past few years, many unnoticed by the media. The search is still on for an effective drug that would treat AD when it is present. However, this may be 10 or 15 years away and we cannot afford to wait that long. Instead I suggest that people should embrace the concept of preventing AD by using as many of the factors described above. Both at the 2011 and the 2012 Anti-Aging Conferences in Las Vegas several speakers pointed out that a combination of several preventative factors will be much more effective than one factor alone and they estimated that about 80% of AD could be prevented this way.

References

Ref.1. Rakel: Integrative Medicine, 3rd ed., Copyright © 2012 Saunders, An Imprint of Elsevier. Chapter 9 – Alzheimer Disease. Integrative Medicine: “Kirtan Kriya, Telomeres, and Prevention of Alzheimer Disease”, by Dharma Singh Khalsa, MD

Last edited Dec. 18, 2014

Apr
28
2013

April Is Autism Awareness Month

By | Allergies, Alzheimer’s disease, Autism, obstetrics, Prevention

Notably, it is worth to mention that April is autism awareness month. Recently autism was in the news as the wife of deceased Bob Denver, who was the actor Gilligan from Gilligan’s Island and founder of The Denver Foundation to help children with disabilities, has written a book where their son Colin’s problem with autism is described. Indeed, autism is a relatively new disease entity. Another key point, we are now talking about the autism spectrum disorder.

What autism is

Autism is a certain behavior/symptom constellation expressed with different degrees of severity in children diagnosed with autism. It is important to realize that autism is much more common in males than in females. In the following I will discuss risk factors for autism, then review why it is so important to diagnose autism right away so that treatment for it can be started earlier than in the past. It is good that April is autism awareness month, as more people will watch out for this diagnosis.

Risk Factors For Autism

Autism has been found to be due to a combination of factors.

1. Compared to a few decades ago women are often older than 30 and men frequently older than 40 when they decide to have children. But studies have shown that when a man fathers a child at the age 40 or older the risk of the offspring to develop autism is higher than when the father is younger than 30.

2. A woman above 30 is already getting into the older age category from the viewpoint of reproduction.  Her natural progesterone production from her ovaries is declining. Progesterone production is paramount for keeping a pregnancy alive in the first 10 to 12 weeks. Also, the placenta of a pregnant woman above the age of 30 is not producing as much progesterone as a woman in her early or mid 20’s.  However, a high progesterone production of the placenta is necessary to prevent premature labor.

Premature, underweight children

The consequence of this can be that older women give birth to premature, underweight children (Ref. 1 and 2) who are at a higher risk to have neurological problems including autism. Children with a low birth weight have 5-times higher autism rates when compared to children with a normal birth weight. When a woman has gestational diabetes there can be overgrowth of the fetus and like for prematurely born, underweight children there is a definite risk for a baby born much later than the expected date to develop autism.

April Is Autism Awareness Month

April Is Autism Awareness Month

Genetic and epigenetic factors triggering autism

3. There are genetic and epigenetic factors that can trigger autism. Shank mutations are responsible for idiopathic autism spectrum disorders (ASD) both in humans and in mice. This confirms an earlier study from 2006 in France where Shank 3 gene mutations were found in human autism cases. Recently research from Stanford University identified another genetic mutation, namely neuroligin-3 amino acid substitution and a neuroligin-3 deletion, which can be responsible for autism in mice.

Epigenetic switches

Epigenetic switches play an important role in the placenta. Research from the University of British Columbia showed this as the key for understanding autism. Another publication also stresses the importance of epigenetic switches. Stress during pregnancy can lead to changes in placental biochemical pathways, which causes prenatal epigenetic programming in the direction of autism. However, it appears that the various research findings are converging to only a few key biological processes. April is autism awareness month; so every April these facts reach the public at large.

4. A lack of serotonin from the placenta may lead to autism in the fetus as this publication shows.

5. Certain toxins such as PCB can disrupt the development of normal neuronal pathways in autism. Even a frequently used anti-epileptic drug, valproate (Depacon), has recently been identified as causing a 5-fold increase in autism during pregnancy.

Low vitamin D levels in pregnancy causes autism

6. In April 2009 a study from the Karolinska Institute investigated a Somalia refugee subpopulation that were found to have high autism rates in Sweden and in the US, due to very low vitamin D levels during the pregnancy. One theory was that one cause for autism was vitamin D deficiency in the mother’s womb. A lack of Vitamin D may be the epigenetic trigger to change metabolic processes. This could cause the subtle metabolic changes that occur in autistic children.

7. In 2007 this study showed that the typical delay of the diagnosis for autism in the US was about 18 months and that the average rate at this point was 1 in 150 live births.

Accelerated brain growth followed by slow brain development

8. Apart from these factors there are other observations that are closely related to the diagnosis of autism. Children with autism show remarkable brain growth during the first year of life. However, subsequently they have a period of slowed brain development (Ref.4). There seems to be an inflammatory process associated with the neuropathological changes in the brain. This results in disconnections and a lack of communicative connections between various parts of the brain. This leads to a lack of higher brain functions like speech and social skills. MRI scans have shown specific changes in some severe cases of autism, but this is not uniform enough between cases to use as a diagnostic tool.

Biomedical approach

The author of Ref. 5 uses a “biomedical approach”, which assumes that autism is a syndrome that is genetically based, but triggered by certain factors as listed above (point 1 to 6 and possibly more) during the time of the pregnancy, in the neonatal period and in early infancy. This leads to the changes in the gut (leaky gut syndrome), in the central nervous system, to food allergies, autoimmune reactions and metabolic changes. According to Ref. 4 biomedical practitioners have remarkable treatment successes by identifying where the problems are and treating each one of them.

Autism spectrum disorder – Diagnose Autism Now

DAN (“diagnose autism now”) physicians who take a special interest in children with autism have shown that an early diagnosis of autism and early intervention with a well-orchestrated treatment protocol can lead to good outcomes, where the child is often losing the diagnosis of autism and developing normally. DAN physicians are changing into the Medical Academy of Pediatric Special Needs (MAPS), but the goal of helping autistic children early is the same. I have described the multi-step treatment protocol under Ref. 2 in the Net Health Book.

Hyperbaric oxygen (HBOT) and detoxification

Briefly, the physician orders a multitude tests initially to establish the diagnosis and the severity of the autism spectrum disorder. This gives the doctor the basis for a personalized treatment approach. A combination of hyperbaric oxygen (HBOT) and detoxification with intravenous chelation treatments removes toxins and heavy metals from the body. Stool samples determine whether Clostridium difficile or Candida albicans is present, which are appropriately treated. Dysbiosis, a term to describe an abnormal gut bacteria mix, is common. The doctor rectified this with probiotics. If leaky gut syndrome is present (in 43% to 76% it was shown to be present in three different well controlled studies, Ref. 4), this may also point to food allergies and autoimmune problems. The physician addresses these as well. Along the line of abnormal gut bacteria in autistic children, new research is considering the development of a vaccine to help normalize gut bacteria.

A metabolic weakness is at the center of autism

There appear to be a number of metabolic weaknesses that have to be diagnosed, as there are wide variations among children with autism spectrum disorder. Ref. 4 points out that methylation defects in the metabolism are common and the blood is lacking antioxidant enzyme systems. As a result, there are weaknesses in the immune system and detoxification of heavy metals (such as mercury) is often slow. There have been many studies, which were reviewed in Ref. 4. It was shown that multiple vaccinations have not been the main culprit to lead to autism. It is the metabolic weaknesses of an autistic fetus and/or child that led to slow detoxification. This reaches a point where exposure to polluted air and seafood, even consumption of seafood of the pregnant mother in the womb, could cause high levels of mercury in the infant (due to methylation, sulfation, and antioxidant deficiencies).

Inflammation from a lack of omega-3 fatty acids

Another observation that is important is that children with autism spectrum disorder have 23% lower levels of omega-3 fatty acids in their blood than controls and 20% lower levels of polyunsaturated fatty acids (Ref.4). Omega-3 fatty acid supplementation is therefore important. As omega-3 fatty acids have anti-inflammatory effects, it also helps to combat the inflammation mentioned above. Ref. 4 also points out that autistic children are often put on a gluten-free, casein-free (GFCF) diet as autistic children are more vulnerable to food sensitivities, particularly gluten and casein. This is a practice to prevent or improve a leaky gut syndrome. However, Ref. 4 points out also that testing methods (RAST test, IgE and IgG tests) for gluten and casein sensitivities are unreliable and not reproducible.

Food elimination to identify food allergies

To find out what foods children with autism spectrum disorder will tolerate the physician uses a painstaking food elimination program. Whatever food component he/she suspects to cause worsening of autism is no longer part of the menu for a period of time. Several months later the physician reintroduces it as a challenge test to see whether it is still causing problems. The child needs balanced nutrition, which can be very tricky with autistic children. They often are picky eaters.

The key is to pay attention to all of these pieces of the puzzle. The treating physician must use remedies to address the issues at hand regarding a particular autism patient. This can be quite costly. But autism patients who received early intervention at the age of 2 or 3 became normal children.  Early intervention with autism leads to more gifted children than the average child is in their age group.

Conclusion

Whether or not autism or the autism spectrum disorder exists is no longer the question. The question is how early the treating physician can diagnose it. Under point 7 above researchers found that the diagnosis of autism often occurs 18 months too late! With an early diagnosis and early intervention autistic children can grow up to be productive members of society. Often, they have no residual features of autism. If the physician misses the diagnosis of autism early on, it develops into a lifelong disability requiring constant care and supervision.

Epigenetic changes

I mentioned that epigenetic changes possibly from pollution and other factors can be responsible for autism.  This may switch genetic switches into the wrong direction towards autism, autoimmunity, leaky gut syndrome and brain dysfunction. Children are much more sensitive than adults. This explains the explosion of cases of autism in the last few decades. Old age at the other end of the life cycle shows effects on the central nervous system. There is an enormous increase of dementia and Alzheimer’s disease in the last few decades. Could there be similarities? Future research will tell.

References

Use of progesterone reduces chance of miscarriage: next 2 references (Ref. 1 and 2):

1.http://www.bio-hormone-health.com/2012/03/26/the-key-role-of-progesterone-in-fertility-conception-and-maintaining-a-pregnancy/

2. Autism chapter in Dr. Schilling’s Nethealthbook.com: http://www.nethealthbook.com/articles/autism.php

3. More on DAN physicians: http://autism.about.com/od/alternativetreatmens/f/dandoc.htm

4. Rakel: Integrative Medicine, 3rd ed.Copyright © 2012 Saunders, An Imprint of Elsevier; Chapter 7 – Autism Spectrum Disorder: Sanford C. Newmark, MD

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