May
18
2013

Treatment For Alzheimer’s Failed, But Prevention Succeeds

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

Feb
01
2007

Lycopene Benefits Backed By Science

Lately a lot of attention has been directed to the health benefits of vegetables and fruit. Vitamin C has long been an accepted household term, and nobody questions the benefits. Newer buzz words are the terms “bioflavonoids” and “antioxidants”. Some products are aggressively marketed extolling the above named beneficial substances, but often the consumer is left mildly bewildered by exaggerated claims. Often the sale prices of these miracle foods are as lofty as the bold statements that go along with them.
For any shopper it is important to know that some of the most beneficial foods are not high priced items, but very common staples. Take tomatoes, for instance. They are a significant source for the substance lycopene, which lately has received a lot of attention. Lycopene and its dietary sources as well as its benefits have been researched world wide, and the results are now in. It is responsible for the red color in fruit or vegetables, such as tomatoes, and its isomeric form 5-cis-lycopene is the most stable form having the highest antioxidant properties. Common dietary sources are tomatoes, watermelons, pink guava, pink grapefruit, papaya, apricot and other fruit. In the Western diet tomato-based foods account for about 85% of dietary sources of Lycopene. Studies have shown that lycopene is more efficiently absorbed from processed tomato products compared to raw tomatoes. Once it is absorbed it is distributed throughout the body. The highest levels showed up in the testes, the adrenal glands, prostate, breast and liver.
Research going back to 1995 showed an inverse relationship between the consumption of tomatoes and the risk of prostate cancer. A follow up publication in 1999 showed that the same inverse relation of lycopene intake and cancer also included breast, cervical, ovarian, liver and other organ sites. Further studies have followed these initial publications, and the great majority of them suggest that an increased intake of lycopene showed an association with a significant reduction in the risk of many cancers.
Coronary heart disease and lycopene benefits were also examined. The strongest population based evidence comes from a multi center case control study in Europe (EURAMIC). 662 Cases and 717 controls were recruited from 10 different European countries, and there was a significant relationship between levels of lycopene in fatty tissue and the risk of myocardial infarction. Lower lycopene levels were associated with a higher risk of heart attacks.Lycopene was also shown to decrease levels of oxidized LDL (LDL or low density lipoprotein is known as the “bad” cholesterol). Another small study showed that lycopene was reducing total cholesterol levels and as a result was lowering the risk of coronary heart disease (CHD).
The list of benefits does not end here: the dietary oxidant reduces oxidative stress and levels of bone turnover markers, meaning that it may contribute to the bone health, especially reducing the risk of osteoporosis in postmenopausal women.

Lycopene Benefits Backed By Science

Lycopene Benefits Backed By Science

For people with mild hypertension (high blood pressure), consumption of lycopene resulted in significant reductions of systolic and diastolic blood pressures.
Infertility in males was significantly helped by lycopene intake. In a study infertile man received 8 mg lycopene per day in capsule form. Laboratory tests confirmed an increased sperm density along with functional sperm concentration and mobility. This treatment protocol with lycopene supplementation resulted in a success rate of 36% pregnancies in their partners.
Pregnant women with pre-eclampsia who were treated with lycopene supplement significantly improved, which was shown by decreased diastolic blood pressure, the reduction of pre-eclampsia and a decrease of intrauterine growth retardation, resulting in a healthier mother and baby.
Future research is pending surrounding lycopene in metabolic and inflammatory diseases and in its role of possibly preventing neurodegenerative diseases such as Alzheimer’s disease. Other inflammatory conditions such as arthritis and emphysema will likely also be shown to benefit from lycopene. Preliminary data has already indicated this.
The Food and Drug Administration (FDA) of USA has recently approved lycopene as a safe “natural coloring agent” and a Generally Recognized as a Safe (GRAS) component. The Department of Nutritional Sciences , Faculty of Medicine, University of Toronto, c/o Dr. A.V. Rao et al. who completed this meta analysis of the recent literature have recommended that we all consume a regular daily lycopene dose in our food and supplements as part of our diet for good health.

More info about lycopene and prostate cancer: http://nethealthbook.com/news/lycopene-reduces-prostate-cancer-risk/

Reference: The Whitehall-Robins Report, December 2006, Volume 15, No.4

Last edited November 2, 2014