Apr
19
2020

What are Toxic Doses For Vitamins and Supplements?

We hear that vitamins and supplements are good for us, but what are toxic doses for vitamins and supplements?

I am going to review the common supplements of vitamin A, C, D3 and calcium. Most people have no problems sorting out the correct dose of other supplements. But these 4 are fairly contentious.

Vitamin A toxicity

Vitamin A comes in various precursors that are metabolized in the liver into the active form of vitamin A. The precursors are retinol, alpha-carotene, beta-carotene, and beta-cryptoxanthin. The FDA has suggested to label supplements with RDA’s (recommended daily allowance). This is in micrograms instead of the IU’s (International Units). 1 IU of vitamin A is 0.3 micrograms (mcg) of retinol. 1 IU of beta-carotene is 0.6 mcg beta-carotene.

Vitamin A is required for normal vision, reproduction, embryonic development, immune function and growth. The recommended daily allowance is 900 mcg (2700 IU) for men and 700 mcg (2100 IU) for women. The tolerable upper intake level for both sexes is 3000 mcg (9000 IU) of preformed vitamin A per day.

Recommended intake of vitamin A for children and adults

Recommended intake for children and adults is as follows.

  • Infants (0-6 months): 400 mcg (1200 IU) of vitamin A per day
  • Infants (7-12 months): 500 mcg (1500 IU) of vitamin A per day
  • Children 1-3 years: 300 mcg (900 IU) of vitamin A per day
  • Children 4-8 years: 400 mcg (1200 IU) per day
  • Boys and girls age 9-13: 600 mcg (1800 IU) of vitamin A per day
  • Boys age 14-18: 900 mcg (2700 IU) of vitamin A per day
  • Girls age 14-18: 700 mcg (2100 IU) of vitamin A per day
  • Men age 19 to above 70: 900 mcg (2700 IU) of vitamin A per day
  • Women age 19 to above 70: 700 mcg (2100 IU) of vitamin A per day

Symptoms of vitamin A toxicity

With too much vitamin A on board the symptoms are nausea, blurred vision, dizziness (vertigo), headaches, vomiting and lack of  muscular coordination. These symptoms are from transient effects of short-term or single large doses of vitamin A of 150,000 mcg (450,000 IU) per day. Chronic toxicity occurs when 30,000 mcg (90,000 IU) of vitamin A is ingested daily for months and years. This is more than 100-fold of the recommended daily allowance as you see from the table above. These overdoses lead to bone mineral loss in animals and humans. They also cause various cancers as described in the link above.

Evidence of toxicity from vitamin A

High doses like this are causing birth defects in the fetus of pregnant women. High vitamin A doses also cause liver fibrosis, liver cirrhosis and death. The liver is the main organ where vitamin A is metabolized and stored. It is no surprise that the liver is affected with overdoses of vitamin A. People with high alcohol intake, hyperlipidemia and pre-existing liver disease are particularly susceptible to vitamin A toxicity. Here is more information on vitamin A.

Vitamin C, what is a good supplement dose and what is an overdose?

Vitamin C was first found to be necessary to prevent scurvy in sailors. Eventually they took limes along, which contain vitamin C. A lack of vitamin C (scurvy) led to bleeding gums, painful arm and leg muscles, changes of hair growth and death from bleeding. Vitamin C supports the immune system, helps with the body’s chemical reactions to make tyrosine, carnitine, steroid hormones in the adrenal gland and neurotransmitters in the brain.

Daily recommended vitamin C allowances

Here are the recommended daily allowances (RDA) for vitamin C intake.

  • Infants 0-6 months: 40 mg daily
  • Infants 6-12 months: 50 mg daily
  • Children 1 to 13: between 15-45 mg daily
  • Boy teens age 14-18: 75 mg daily
  • Girl teens age 14-18: 65 mg daily
  • Adult men: 90 mg daily
  • Adult women: 75 mg daily
  • Pregnant women: 85 mg daily
  • Women who breast feed: 120 mg daily

Higher doses of vitamin C showed beneficial effects on the reduction of heart attacks. LifeExtension recommends a daily supplementation of vitamin C of 1000 mg to 6000 mg per day. Personally, I take 1000 mg of Esther vitamin C daily (Esther C is better absorbed than plain vitamin C). Vitamin C is eliminated from the body within 24 hours. This means that higher doses than the RDA listed above are easily handled by the body as there is no accumulation of vitamin C in the body.

Mega doses of vitamin C and adverse effects

Linus Pauling, a chemist who won the Nobel Prize in Chemistry in 1954, thought that higher doses of vitamin C would prolong life. He suggested daily doses of 2300 mg of vitamin C for maintaining good health. However, patients who have a Glucose-6-phosphate dehydrogenase deficiency can develop hemolytic anemia following intravenous vitamin C. With intermittent high dose vitamin C, often combined with glutathione for detoxification, oxalic acid is produced that shows up in the urine as hyperoxaluria. In time this can cause kidney stones with oxalic acid. Other symptoms with megadoses of vitamin C are diarrhea, reduced absorption of vitamin B12 and copper as well as iron overload. In addition, there can be acid erosions of the teeth with chewing of vitamin C tablets. Patients with kidney failure should not receive vitamin C mega doses.

Limit megadoses of vitamin C

The American Association of Poison Control Centers reported 0% deaths from vitamin C toxicity, but levels below 2000 mg per day are much safer in terms of possibly developing kidney stones. If you want to have intravenous glutathione and vitamin C infusions (typically 20,000 to 30,000 mg of vitamin C in one infusion) to detoxify you from mercury, keep the frequency of infusions at no more than once a month.

Vitamin D3 toxicity

Other publications have established that the original recommended dose of vitamin D3 by the Food and Nutrition Board of 2000 IU per day was way too low. According to this publication based on many other papers +/-10,000 IU per day should be considered the new recommendation. I have discussed the use of Mega vitamin D3 therapy for viral illnesses under this link before. Dr. Schwalfenberg stated: “This is a 1-time 50, 000 IU dose of vitamin D3 or 10, 000 IU 3 times daily for 2 to 3 days. The results are dramatic, with complete resolution of symptoms in 48 to 72 hours. One-time doses of vitamin D at this level have been used safely and have never been shown to be toxic.”

The half-life of 25-hydroxy-vitamin D3 is 15.1 days. This means that the transient elevation of 25-hydroxy-vitamin D3 will last only 5 half-lives or 75.5 days. After that time (2 1/2 months) the elevation of vitamin D in the blood from the mega vitamin D3 dose, which was taken over 3 days, is eliminated.

Safety of vitamin D3

What is known about the safety of vitamin D3, particularly the higher vitamin D3 doses? First, it is wise to have your 25-hydroxy vitamin D blood levels taken from time to time. If any of these levels exceed 200 ng/ml it would be prudent to reduce the vitamin D dose or stop supplementation for a while. Otherwise it has been difficult to establish a toxic range. There are those who claim that 40,000 IU of vitamin D3 or more would lead to toxic levels of vitamin D3. With such vitamin D3 levels the blood calcium levels would show an increase and the physician can measure this as hypercalcemia. However, another study done in 2007 showed in MS patients that took 40,000 IU of vitamin D3 per day and that led to a blood level of 400 ng/ml of 25-hydroxy vitamin D did not lead to increased calcium levels and did not lead to hypercalciuria (too much calcium in the urine).

Do not exceed your upper 25-hydroxy vitamin D level 

But you should not exceed your vitamin D3 intake so that your 25-hydroxy vitamin D level exceeds 50-80 ng/ml. This is the ideal level for vitamin D3. Most patients have to take between 4000 IU of vitamin D3 and 6,000 IU of vitamin D3 to reach this blood level. There are slow absorbers of vitamin D3 who need 10,000 IU to achieve a 25-hydroxy vitamin D blood level of 50-80 ng/ml. (I am one of those.)

Evidence did not support toxicity for higher vitamin D3 doses

All of the papers that either indicated to the public that it would be unsafe or unnecessary to take vitamin D3 seem to have other agendas than communicating the truth. Had it been true that calcium leaked from the bones or the gut leaked calcium into the blood, calcifications of the bones or soft tissues, like the heart or kidneys, would have been evident. Also, kidney stones would have developed. However, a low calcium diet combined with corticosteroid drugs usually leads to a full recovery within a month. It is interesting to note that all of the dire predictions regarding toxic vitamin D3 levels did not materialize. Here is another website discussing vitamin D3 dosing.

Anecdotal report of 500,000 IU of vitamin D3 daily for 3 months

I talked to a conference participant (who has a fellowship degree of the A4M) at an Anti-Aging Conference about vitamin D3 toxicity. He told me that a compounding pharmacist made a mistake. His patient accidentally received a dosage of 500,000 Units of vitamin D3 per day for a full three months. Only then did he discover his mistake. The patient felt sluggish, but did not have any other symptoms. The patient stopped the vitamin D3 compound. He had an uneventful recovery with no detrimental effects. Researchers were not able to establish a toxic threshold for vitamin D3. It is needless to emphasize that we should never embark in experiments with “super dosages” of any supplement.

Calcium metabolism

There has been controversy about calcium supplementation. There is a fear of causing hardening of the arteries and a fear of causing kidney stones. Yet, with not enough calcium in the system you may develop osteoporosis.

Calcium levels in the blood are very stable because of a variety of mechanisms.

  • Vitamin D3 regulates the absorption of calcium from the gut.  Vitamin D3 together with vitamin K2 deposit calcium into the bone.
  • There is parathyroid hormone (PTH), which stimulates osteoclasts to release calcium from the bones.
  • The liver and kidneys metabolize calcitriol. It is a metabolic product of vitamin D3. Calcitriol increases the absorption of calcium in the kidneys and increases calcium and phosphorus from the gut. But calcitriol also increases the calcium and phosphorus release from the bones.
  • The parafollicular cells (also called C cells) in the thyroid gland produce calcitonin, another hormone.

Actions of Calcitonin

It counters the actions of the parathyroid hormone. Calcitonin inhibits the action of the osteoclasts thus lowering calcium, which stays in the bones. It also counters the resorption of calcium in the kidneys lowering calcium blood levels. PTH, calcitonin and calcitriol control the calcium level very tightly. This ensures that there is only a minimum of fluctuations of the blood calcium level. Apart from building bones and teeth calcium is important for a regular heartbeat, for blood clotting and for muscle contractions.

Calcium supplements

If you eat balanced meals, you may not need calcium supplements. Dairy products like milk, cheese and yogurt are high in calcium. Green vegetables, Tofu, beans, nuts and seeds also give you enough calcium.

If you don’t have balance in your diet, you may need more calcium intake as calcium supplements. But don’t exceed 1000 mg of calcium citrate or calcium carbonate per day. Calcium and magnesium have to always be balanced in the body. If you decide that you should supplement with calcium, you need to also supplement with magnesium citrate 150 mg twice a day to keep your minerals balanced.

Calcium toxicity

Antacids, hand lotions, mineral supplements and other vitamin and mineral supplements contain calcium. If you eat balanced meals with dairy products and vegetables, you may not need any calcium supplements. Symptoms of calcium overdoses are headaches, abdominal pain, bone pain, confusion, depression, diarrhea, irritability, irregular heart beat and more.

If you take the occasional antacid pills, do not supplement with calcium supplements, because you already consumed extra calcium inadvertently.

What are Toxic Doses For Vitamins and Supplements?

What are Toxic Doses For Vitamins and Supplements?

Conclusion

What are toxic doses for vitamins and supplements? Vitamins and supplements come in different versions. Vitamin A supplementation should not exceed 900 mcg (2700 IU) in men and 700 mcg (2100 IU) in women. But there is a fairly wide safety margin as only 30,000 mcg (90,000 IU) of vitamin A produce toxicity in both men and women.

The American Association of Poison Control Centers reported 0% deaths from vitamin C “toxicity”, but levels below 2000 mg per day are much safer in terms of preventing the  development of kidney stones.

With regard to vitamin D3 the recommended values of vitamin D3 for people is way too low. The 25-hydroxy vitamin D level should be in the 50-80 ng/ml range. Only when these values exceed 400 ng/ml is there cause for concern. Physicians found this level in people who consumed 40,000 IU of vitamin D3 daily. These doses did not lead to an increase in calcium levels and did not lead to hypercalciuria. But researchers consider them close to toxic levels.

Finally, calcium with normal balanced nutrition does not require calcium supplementation, particularly when a person consumes antacids. If a person eats a vegan diet, you may want to add 1000 mg of calcium carbonate or citrate and have your calcium level checked with a blood test.

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Dec
02
2017

Vitamin K For Bones And Arteries

Vitamin K for bones and arteries is gaining a lot of attention as a valuable supplement. Most of all in the blood vessels, but in addition in the heart, lungs and kidneys the matrix GLA protein is a key substance. Vitamin K2 is crucial for removing calcium from these organs, as matrix GLA protein is carboxylated. Carboxylation of the GLA protein functions much as a broom. This removes all superfluous calcium from blood vessels and organ tissues. If there is a lack of vitamin K2 intake, matrix GLA protein is uncarboxylated, which as a result invites vascular calcification. Essentially vitamin K2 has emerged as an important player in the regulation of bone conditions like osteoporosis, but also in the prevention of hardening of arteries. Vitamin K2 removes calcium from blood vessels and deposits calcium in bone preventing osteoporosis. I will review some key publications, which support this.

Arterial stiffness study in postmenopausal women

Aging blood vessels become stiff from calcification. By removing calcium it seems like the arterial wall becomes more flexible again. Dr. Knapen and colleagues from Maastricht University, The Netherlands followed 244 healthy, postmenopausal women for 3 years in this double blind, placebo-controlled 2015 study.

120 women received 180 micrograms of vitamin K2 (as MK-7) once daily. 124 women received placebo pills. Next researchers checked arterial stiffness through two types of tests. First of all, carotid intima-media thickness was evaluated by echo tracking. In addition aortic stiffness was tested by carotid-femoral and carotid-radial pulse wave velocity. After 3 years there was a significant reduction of uncarboxylated matrix GLA by 50%. This was missing in the placebo group. All of the markers for arterial stiffness showed a reversal improving flexibility above the median. This shows that hardening of arteries in postmenopausal women is reversible with the help of vitamin K2.

Bone metabolism study in Japanese men and women

This 2015 Japanese study investigated what the minimum amount of necessary vitamin K2 would be to improve osteocalcin carboxylation.

First of all, study 1 examined the effect of 0, 50, 100, or 200 micrograms of vitamin K2 (=menaquinone-7) daily. A group of 60 postmenopausal women received vitamin K2 for 4 weeks. Only the 200 microgram per day dosage showed an effect of carboxylating osteocalcin.

Second part of study

Furthermore, study 2 consisted of 120 men and women. Measurements involved the ratio between carboxylated and uncarboxylated osteocalcin to demonstrate the effect of vitamin K2. As a result of study 1 only a placebo group, a 100-microgram and a 200-microgram daily vitamin K2 group was part of the investigation. Both, the 100 microgram and the 200 microgram doses, reduced the circulating uncarboxylated osteocalcin fraction. Hence they concluded that vitamin K-2 effectively keeps the calcium in the bones and prevents osteoporosis. The investigators recommended taking more than 100 micrograms of vitamin K-2 per day to improve osteocalcin carboxylation.

You can find more detail regarding the interaction of calcium, vitamin D3 and vitamin K2 in this link.

Trabecular bone structure preserved in postmenopausal women

148 postmenopausal women were participating for 12 months in a randomized, placebo-controlled, double-blinded clinical trial. All these women had osteopenia. All of them received supplements with calcium and vitamin D3. In addition they received 375 micrograms of vitamin K2 or placebo pills. Examination involved tests for bone mineral density with dual X-ray absorptiometry (DXA). Furthermore a high-resolution CAT scanner determined the microarchitecture of the tibia bone.

After 3 months the uncarboxylated osteocalcin decreased by 65.6% rather than the placebo group of only 6.4% decrease. The trabecular number, spacing and thickness in the tibial bone were unchanged in the vitamin K2 group. In contrast to that there was a clear deterioration of the bone structure in the placebo group.

Summary of trabecular bone study

The bone density studies showed no detectable difference between the groups. The deterioration of the trabecular microstructure in the placebo group was consistent with expected age-related changes. On the other hand, the vitamin K2 group clearly demonstrated preservation of the trabecular bone structure in the tibial bone.

Vitamin K2 helps to eliminate toxic effects of calcium

This 2015 publication from Krakow, Poland explains rather well how vitamin K2 is important to reduce calcium from blood vessels.

At the same time the article points out that vitamin K2 is important for depositing calcium into bones to prevent osteoporosis. The removal of calcium from blood vessels occurs by carboxylation of matrix GLA protein. This functions like a shield to protect blood vessels from calcium entering into the arterial wall. This way the arteries are probably safe from calcification, and hardening of the arteries cannot take place. On the other hand calcium is binding to the bone. As explained above the hormone osteocalcin is responsible for this.Vitamin K2 is the main player in the process of carboxylization. As a result vitamin K2 makes it happen that calcium travels into the bone, where it belongs.

Rotterdam Study: reduced heart attack rates from vitamin K2

4807 subjects from the Rotterdam Study in the Netherlands were part of a study for considerable time (about 10 years) with no sign of any heart attack in the beginning.

The investigators were interested to correlate the effects of various doses of vitamin K1 and K2. How would this impact the frequency of heart disease, hardening of the aorta and all-cause mortality? Researchers adjusted the data for smoking, age, gender, body mass index, diabetes, education, and dietary factors. Next they compared the middle and upper tertile groups of vitamin K1 and K2 to the lower tertile of vitamin K1 and K2.

Results of Rotterdam Study

Most noteworthy, the relative risk for coronary heart disease was lower for the middle and upper tertile of the vitamin K2 group. They found that the middle tertile vitamin K2 intake lowered heart attacks by 27%. It was especially relevant that the upper tertile of vitamin K2 intake lowered heart attack rates by 57%.

In addition, all-cause mortality also showed a reduction for the middle tertile of vitamin K2 by 9% and for the upper tertile by 26%. Finally, severe aortic calcification was 29% less for the middle tertile of vitamin K2 and even 52% less for the upper tertile. Intake of vitamin K1 (=phylloquinone had no impact on any of the outcomes. The investigators concluded that adequate intake of vitamin K2 (=menaquinone) was crucial for anybody’s health. First of all, vitamin K2 lowers heart attack rates, in addition it reduces hardening of the arteries including the aorta and finally, it lowers all-cause mortality.

Vitamin K For Bones And Arteries

Vitamin K For Bones And Arteries

Conclusion

This review shows evidence that vitamin K2 supplementation is important for the prevention of osteoporosis and heart disease. It prevents heart attacks and hardening of arteries, including the aorta. The dosage necessary to achieve this is only 200 micrograms of vitamin K2 per day. However, in Japan higher doses like 375 micrograms per day are the common protocol for prevention of osteoporosis.

Effect of vitamin K2 for bones and arteries

How does vitamin K2 work? In the blood vessels vitamin K2 carboxylates the matrix GLA protein. Essentially this keeps calcium out of the arterial wall and prevents hardening of the arteries. This reduces heart attacks and significantly lowers mortality from heart attacks as well. The second effect of vitamin K2 is on bones. Vitamin K2 prevents osteoporosis to a large extent. It does so by binding calcium to the bone. The hormone osteocalcin, which is carboxylated by vitamin K2 effectively moves calcium from the bloodstream into the bone and keeps it in the bone. If you take vitamin K for bones and arteries, you double the benefit from this simple vitamin. Remember to take 200 micrograms of vitamin K2 daily. The benefits are certainly remarkable!

 

Jul
29
2017

Some Drink Milk, Others Are Lactose Intolerant

Some drink milk, others are lactose intolerant; this is the fact about drinking milk.

For a long time the dairy marketing board advertised with the slogan: “Got milk?”. But dairy milk consumption has declined over the past decades.

Why this is has been reviewed in this article. I like to review the problem of lactose intolerance, milk as a source of calcium to prevent osteoporosis and offer alternatives to milk consumption.

Lactose intolerance

Milk cows have been around in Europe for about 6000 years. But not everybody can tolerate milk products. Most of the Europeans, North Americans and Australians have adjusted the digestive enzymes in their duodenum to produce enzymes, called lactase that digest milk sugar (lactose) into glucose and galactose. But up to 75% of the world population (Africa, South America, Asia) is lactase deficient; they cannot tolerate dairy products. They get abdominal cramping, intestinal gas, bloating, diarrhea, nausea and vomiting from drinking a glass of dairy milk. This link explains why goat milk is better than cow’s milk for those who cannot tolerate cow’s milk.

It is also interesting that many people who are lactase deficient can tolerate cheeses, yogurt and other fermented milk products as the fermenting bacteria have digested the lactose.

Other problems with dairy products

Problems with mass production of dairy items are the following:

  • Concentrated Animal Feeding Operations (CAFO) are responsible for the majority of milk products on grocery market shelves. This means that the animals are fed unnatural corn, which leads to deficiencies and omega-6 fatty acids in the milk products.
  • Herds of animals receive antibiotics to prevent infections.
  • Farmers are administering bovine growth hormone (bST, bovine somatotropin) to stimulate more milk production. The antibiotics lead to superbugs in humans, the bST may be causing autoimmune diseases and breast cancer in humans. The healthiest milk is milk from grass-fed cows. It is high in omega-3 fatty acids. All of the milk products derived from this type of milk are also healthy.

Milk as a source of calcium

One key advertising slogan of the dairy industry used to be that milk would be such a good source of calcium, which would prevent osteoporosis. But milk also has a lot of animal protein in it, which acidifies blood. This means that the kidneys use calcium to neutralize acidic blood and excrete calcium. The net result is that there is more calcium leaving the body. Some of the calcium from the bone serves to keep the balance between acidity and alkalinity neutral.

This 12 year long Harvard Nurses’ Health Study involving 77, 761 women between the ages of 34 to 59 showed that a higher consumption of milk did not protect against hip and wrist fractures.

The myth that full fat milk causes heart attacks and strokes

There is another myth floating around, namely that full fat milk would be bad for the heart because of increased saturated fatty acids. But an Australian study showed that full fat milk is healthier for you than milk with less fat.

After 14.4 years of follow-up the group that consumed the most milk compared to the lowest fat intake group had a 69% lower death rate from cardiovascular disease!

A 2016 study showed that consumption of plain yogurt was associated with better health outcomes on the long term. Be more concerned about the sugar content than the fat content of yogurt!

Prevention of osteoporosis

For years numerous sources have indoctrinated us to accept a false concept. It is the concept of increasing milk consumption (“Got milk?”) for increased calcium intake and possible osteoporosis prevention. The sales mantra went like this: Milk-calcium-osteoporosis prevention. Now we know the real truth. Milk provides protein and calcium.  But  absorption of calcium is poor and the acidified blood is alkalinized through calcium from milk and from the bone leaking calcium into the blood and into the urine. The end result is a net loss of calcium from the bone, as it is more important to the body to keep the blood’s acid/base stable than to increase the calcium level in the bone. Sadly all the high consumers of milk from the Harvard Nurses’ Health Study ended up having fractures from osteoporotic bones.

Prevention of osteoporosis requires intake of vitamin D3, vitamin K2 and calcium (supplement or diet) as I have reviewed in this blog. In addition regular exercise is also very beneficial as is bioidentical sex-hormone replacement. It is interesting that a large clinical trial that I mentioned in this blog showed after 7 years that there were 35% to 38% less fractures of the hip than in the placebo group. Vitamin K2 is essential to keep calcium in the bones and to keep calcium out of the blood vessel walls. Vitamin D3 is important for calcium absorption through the gut wall and to deposit calcium into bone. Without all of these ingredients it is not possible to prevent osteoporosis.

Alternatives to milk consumption

  1. One obvious step is to replace cow’s milk by goat milk. As you can see from this link, there are many advantages to goat milk. What I find important is the fact that those with lactase deficiency often can tolerate goat milk while they would otherwise react to cow’s milk. There are also many goat milk products like cheese and yogurt, all of which are very healthy. They do not contain any antibiotics or bovine growth hormone (bST), the use of which is confined to cows. Goat milk products are also an excellent source of protein.
  2. You can eat a more vegetable-based diet. A lot of vegetables and fruit have calcium and protein in them.
  3. You can consume almond milk instead of cow’s milk. The downside to know is the fact that almond milk is not a significant source of protein. It has the advantage of being slightly alkaline; this will ensure that the calcium absorbed in the gut will reach the bones as long as you also supplement with vitamin D3 and vitamin K2. The many “fake milk” products such as rice milk, coconut milk and hemp milk are also poor protein sources. The only product higher in protein is soymilk. But soy has its own problems: over 90 % of the crop in North America is genetically engineered, and soy is a known allergen. As of recent, another product based on pea protein is available, and the protein content is excellent, so it is worth looking for it (It is called “Ripple”).
Some Drink Milk, Others Are Lactose Intolerant

Some Drink Milk, Others Are Lactose Intolerant

Conclusion

Drinking milk as a source of protein and calcium has become an obsession a few decades back. In the meantime it turned out that drinking milk tips the acid-base balance in the direction of acidity. This causes osteoporosis, as the kidneys excrete all of the calcium from milk that is absorbed. On top of that even more calcium is taken out from bones to recalibrate the acid-base balance.

Up to 75% of the world population is lactose intolerant. They get sick from drinking cow’s milk. But they usually tolerate goat milk quite well. Considering the fact that antibiotics are used in cow milk production and recombinant bovine growth hormone as well, I have joined the crowd that prefers goat milk instead of cow’s milk. I take the supplements I mentioned for bone maintenance (vitamin D3 and K2) and I get lots of calcium also from vegetables and salads. I have no lactose intolerance, but that’s my take on milk.

Dec
17
2016

Magnesium Is Essential To Life

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

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

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

A lack of magnesium can cause heart disease

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

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

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

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

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

Low magnesium increases your stroke risk

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

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

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

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

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

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

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

Magnesium protects kidney function

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

Magnesium helps blood sugar control

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

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

Magnesium good for bones and teeth

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

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

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

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

Those who took magnesium supplements had healthier teeth.

Migraine sufferers improve with magnesium

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

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

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

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

Too little magnesium can cause cancer

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

Pancreatic cancer

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

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

Colorectal cancer

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

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

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

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

Live longer with magnesium

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

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

Magnesium deficiency develops in older age

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

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

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

Proton pump inhibitors lowering magnesium levels

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

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

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

Here is why we live longer with magnesium supplementation

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

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

Magnesium Is Essential To Life

Magnesium Is Essential To Life

Conclusion

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

Apr
30
2014

Overuse Of Supplements Can Create Health Risks

The Dietary Supplement Health And Education Act of 1994 made it easier for people to acquire supplements and vitamins from health food stores. But since then there has been a proliferation of various products that are sold as supplements and not as drugs. It may give you the impression that all supplements are harmless, but this is not so. There are some supplements like vitamin A where you need to watch that you are not inadvertently overdosing, as toxicity is a problem; calcium supplements are also potentially toxic, if overdone. And amino acid supplements (protein supplements) can lead to an overdose of brain hormones. Here is a sample of some of the supplements that I would want you to watch.

1.Vitamin A toxicity:

Vitamin A is essential for normal night vision, for red blood cell production in the bone marrow and for the immune system. Here is a brief review about its metabolism. But while small amounts are beneficial for the body, high doses are toxic. In the 19th century the Arctic explorer Elisha Kane reported that consumption of polar bear liver caused severe headaches, drowsiness, irritability and vomiting within a few hours of ingesting it.

It is now known to be due to “pseudotumor cerebri”, a condition that mimics a brain tumor, but is caused by an acute overdose of vitamin A contained in liver (Ref. 1).

In the US where people eat enough meat, fish and dairy products, there is no overt vitamin A deficiency. Read this link to avoid overdosing with vitamin A in multiple supplements.

Overuse Of Supplements Can Create Health Risks

Overuse Of Supplements Can Create Health Risks

2. Vitamin C:

Vitamin C is an important antioxidant vitamin and is needed as a co-factor for many metabolic reactions. It is participating in the production of collagen and connective tissues, helps with fatty acid transport and is necessary for the synthesis of neurotransmitters in the brain (Ref.2). The lack of vitamin C is known as scurvy; symptoms include bleeding gums from fragile capillaries, delay in wound healing and impaired bone metabolism. Although in the earlier research it was hoped that vitamin C would prevent colds and cure cancer, more recent reevaluations found that it does not prevent you from getting colds, but it accelerates the recovery from colds by cutting down the recovery time by as much as 25 to 30% and it also does have some cancer protective effects (Ref.2). Higher doses seem to be more beneficial, but 1500 mg per day seems to now be the consensus of a reasonable upper dose limit per day.

What about kidney stones? Several studies in the past have warned about vitamin C being broken down in some people into calcium oxalate kidney stones. Here is a brief review of the literature with regard to kidney stone formation. A study regarding the DASH diet, which is used for people with high blood pressure, showed that the incidence of kidney stones is almost half for both men and women compared to controls on a normal North American diet.

There has been a concern among the medical community that vitamin C as a supplement would increase kidney stones (oxalate stones). However a 2014 study showed that when both vitamin C and vitamin E are taken as supplements, the kidney stone formation goes down.

Many inhabitants of industrialized countries including the population in the US and other countries are magnesium deficient and this can be a major factor for forming calcium oxalate stones. But it has been known for decades that those who develop kidney stones excrete more oxalates in their urine (so-called “oxalate excreters”). Here is a 1996 study that measured this in detail.

If you are taking in a lot of green smoothies from green leaf vegetables (spinach, kale, Swiss chard) that are high in water-soluble vitamins, you may not require any vitamin C supplements. In other words, think about what else you do and eat and add it up, so you do not exceed a total of 1500 mg to 2000 mg of vitamin C per day.

If you are taking in a lot of green smoothies from green leaf vegetables (spinach, kale, Swiss chard) that are high in water-soluble vitamins, you may not require any vitamin C supplements. In other words, think about what else you do and eat and add it up, so you do not exceed a total of 1500 mg of vitamin C per day.

3. Calcium supplements:

Calcium is a key mineral in the body, important not only for healthy bone structure, but also to balance the electrolytes within the blood, in the extra cellular fluid space and within our cells. If calcium is low, the brain is more prone to seizures and the heart can produce dangerously irregular heart beats. We definitely need a balance of calcium! Because calcium is so central to our wellbeing, several factors work together to keep our calcium levels stable: the kidneys, the thyroid, the parathyroid glands, the adrenal glands, the bone as a reservoir of calcium, the gastrointestinal tract for absorption and a good, balanced nutrition. The chapter on “Vitamins and Minerals” of Ref.3 points out that 4000 mg of calcium per day definitely causes toxicity (hypercalcemia and milk-alkali syndrome).

Absorption is dose dependent meaning that only 500mg of calcium carbonate is absorbed at a time. Vitamin D3 deficiency leads to reduced calcium absorption. But with high doses of vitamin D3, which is now often recommended, more calcium is absorbed, so it is important not to take too many calcium supplements. They can also interfere with iron and zinc absorption and when more than 2600 mg of calcium is taken magnesium absorption is inhibited as well. Calcium can interfere with thyroid hormone supplements (take 4 hours apart) and may reduce the effect of calcium channel blockers, drugs used for angina or high blood pressure.  There is a balance between calcium stored in bone (99% of total body calcium) and the circulating portion of 1% of calcium in the blood. The parathyroid hormone and calcitonin are also involved in this balance. Hypercalcemia is the condition when calcium is too high. Common causes are the improper use of diuretics (thiazide diuretics), overuse of calcium carbonate supplementation (often for osteoporosis) and overuse of vitamin D3, which increases the absorption of calcium (Ref.3). See your family doctor for blood tests and advice what to do in your case.

4. High protein diets and protein (amino acid) supplements:

Many protein supplements are available through health food stores and vitamin stores. The advertisers often state that our food would be substandard and these supplements would help “to regain strength”.  Athletes hope to get stronger muscles from amino acid supplements because they are the building block for protein that builds up muscles. Fact is that no supplements are needed when you eat balanced meals containing meat and fish and you exercise regularly. The protein in your food will be broken down into amino acids and your body metabolizes this into your own protein. Here is a website that reviews the subject of supplementation with amino acids.

It is clear from this that this is a rather complex problem. Vegetarians may require these supplements to replace protein for the missing meat intake. But the rest of us have to guard ourselves against overdosing with too much meat, amino acids supplements or protein supplements.

High protein diets (Atkins diet and others) have been glorified as being helpful for weight loss. But the long-term effect of such diets lead to chronic kidney damage in those with diabetes and high blood pressure as evidenced by protein leakage in the urine (called ”microalbuminuria”, Ref.4).

According to this reference the average protein requirement is 0.6 g of protein/kg body weight/day. This text comments that this would be compatible with the World Health Organization (WHO) recommendation for protein intake. For a person weighing 140 lbs. this translates into about 50 grams of protein per day. Here is a website that explains the upper limit of meat intake with the example of an 8-ounce portion of top sirloin steak.

Protein supplements have become very popular, but you need to be careful when you supplement with this that you do not get an overdose of amino acids. Amino acid profiling has been useful for physicians and naturopaths to examine deficiencies in children or adults checking for essential amino acids in the blood.  However, in the industrialized countries such as the US, Canada and others the larger concern is now the overuse of meat in our food (e.g. Atkins-like diets) and protein supplements. The same amino acid screening tests will find several of the ingredients (amino acids) in these protein supplements to be too high. In this case it is imperative to stop the protein supplements to prevent amino acid toxicity.

This study warns that not enough is known how performance-enhancing supplements affect the metabolism of the body. There are discussions that perhaps upper limits for amino acid supplements need to be established:

5. Creatine supplementation:

Other supplements of concern are creatine supplementation in the sports-minded and in athletes who want to build up muscle mass. Creatine is synthesized by the liver form amino acids derived from fish and meat that is broken down into the amino acids arginine, glycine and methionine. So, there is no shortage, but athletes and sports minded people want to push the envelope and take in additional creatine that helps their energy metabolism (ATP production) in the muscles to increase their performance (Ref. 5) Creatine is vital for the brain, the heart, the kidneys and the eyes (retina). It is a buffer for lactic acid during anaerobic exercise. Some of the side effects are muscle cramps, diarrhea, fluid retention and kidney failure when exposed to high heat and dehydration. There are no long-term studies of the use of creatine supplements, yet some athletes are taking them long-term.

Conclusion:

We are tempted by various merchants and infomercials to take in more and more vitamins and supplements including protein and amino acid supplements. But when you eat well-balanced meals, preferably organic food, you already have enough protein, nutrients, calcium, vitamin C and vitamin A contained in food. So you may be inadvertently putting a strain on your kidneys that have to eliminate whatever it is that is too much for your body to take. Your liver may also be quietly working overtime as well. Your brain gets overactive by the surplus of amino acids that are utilized by the brain to make brain hormones. Your system can only take so much; at one point a surplus of supplements will make you sick! So, be vigilant and think about what your regular food intake already provides. Do you really need that supplement or do you already get enough from your food intake? Are you falling for some marketing scheme? Remember, you are the steward of your own health!

References:

1.Shannon: Chapter 69: The Vitamins. Haddad and Winchester’s Clinical Management of Poisoning and Drug Overdose, 4th ed.© 2007 Saunders

2. Mandell: “Water-Soluble Vitamins”. Mandell, Douglas, and Bennett’s Principles and Practice of Infectious Diseases, 7th ed. © 2009 Churchill Livingstone

3. Rakel: Chapter “Disturbances in Calcium and Phosphate” and chapter entitled “Vitamins and Minerals”. Textbook of Family Medicine, 8th ed. © 2011 Saunders

4. “High Dietary Protein Intake” in “Taal: Brenner and Rector’s The Kidney”, 9th ed. © 2011 Saunders

5. DeLee: DeLee and Drez’s Orthopaedic Sports Medicine, 3rd ed. © 2009 Saunders

Last edited April 30, 2014

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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

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Jan
18
2014

The Super Powers Of Vitamin D

Originally, when vitamin D was found to be the missing ingredient in preventing rickets in growing children the recommended daily allowance (RDA) to prevent rickets was found to be 400 IU of vitamin D. The active metabolite has been identified as vitamin D3 for which the body has receptors on all vital organs (heart, brain, bones, kidneys, liver). In recent years new insights have been gained as it turns out that the RDA’s were set much too low for many diseases that can develop when vitamin D intake is too low, particularly in the aging population. Higher doses of vitamin D3 in the range of 800 to 1000 IU per day have been shown to prevent osteoporosis, falls and fractures in older adults and in nursing home populations. But the immune system of everybody is dependent on higher doses of vitamin D3. Recently (Dec. 12 to 15, 2013) I attended a lecture at the A4M conference in Las Vegas where Dr. Eisenstein reviewed the latest on vitamin D3. It is now known that 2/3 of the US population is deficient for vitamin D as measured by blood tests (less than 25 ng/ml).  The standard test is the 25-hydroxy-vitamin D level (abbreviated as 25(OH)D level). It is now known that you require at least a level of more than 40 to 60 ng/ml of 25(OH)D as measured in the US, which translates to more than 100 to 150 nmol/L measured in metric units in other countries, to prevent cancer.

The Super Powers Of Vitamin D

The Super Powers Of Vitamin D

Metabolism of vitamin D3

90% of the vitamin D3 that we need comes from exposure to sunlight, which transforms a cholesterol metabolite (7-dehydrocholesterol) into the vitamin D precursor (vitamin D3 or cholecalciferol). This is what we absorb from naturally occurring fish oil and oily fish, but otherwise this does not naturally occur in foodstuffs (Ref. 1). Dr. Eisenstein pointed out that it is well known that people living north of the 37th degree latitude lack vitamin D3 because of a lack of sun exposure, particularly in the winter season. People south of the 37th degree latitude have enough sun exposure, but wherever you live, it is advisable to have your vitamin D3 level measured (as 25(OH)D level). If you do not eat enough fish or fish oil, the levels likely are too low as is the case for 2/3 of the US population. Vitamin D3 supplements will have to be taken by those whose levels are too low. Vitamin D3 is further metabolized by the liver and then by the kidneys into the active vitamin D compound, called 1,25(OH)2D3 (which is called “calcitriol”). The main effect of calcitriol is to absorb calcium and phosphate from the intestine into the blood stream. Together with vitamin K2 as explained in a prior blog these minerals are then taken up by the bone to prevent osteoporosis or rickets in the growing child. What has not been known for a long time is that vitamin D3 is also necessary for normal cell metabolism by most of your body cells, but particularly by the vital organs like the brain, the heart, the kidneys, the liver, the immune system and the bone. However, doses of 5000 IU to 10,000 IU of vitamin D3 capsules per day are required for optimal vitamin D3 health. This will lead to levels of below 200 ng/ml of 25(OH)D levels, which have been proven to be safe. According to Dr. Eisenstein no toxicity has been found below 30,000 IU of vitamin D3 per day, but based on other authors a dose of 10,000IU should be adequate for most people. Strangely enough colored people also have to take vitamin D3 supplements as their the higher melanin pigment in the skin filters out UV light so effectively that their 25(OH)D level can be low. Always err on the cautious side and have your vitamin D3 blood level taken.

Vitamin D3 has a characteristic stereotactic configuration (cis-triene structure), which allows it to bind free radicals and function as an antioxidant (Ref.2).

What are some of the clinical effects of vitamin D3?

1. Vitamin D3 has diverse effects on organs systems as Dr. Eisenstein summarized: vitamin D3 lifts depression and has been found to be of particular value for drug resistant depression. Take 5000 to 10,000 IU of vitamin D3 per day.

2. Muscle power increases with vitamin D3, particularly in those who work out regularly.

3. Many fertility clinics pay attention to vitamin D3 levels, as the higher the blood levels of vitamin D3 in a man, the faster this sperms move! And the more vitamin D3 she has on board, the better she ovulates. The end result is a higher pregnancy success rate when both partners take 5000 to 10,000 IU of vitamin D3 per day

4. Also, if a woman takes vitamin D3 during her pregnancy, the first set of teeth in the offspring will have fewer cavities.

5. Brain development in autistic children is much improved with vitamin D3 in higher doses. This needs to be combined with detoxification methods and supervised by one of the DAN physicians.

6.Chronic pain typically improves when vitamin D3 deficiency, which almost always is present in patients with chronic pain, is treated with vitamin D3 supplementation.

7. To prevent flus and colds and other infectious diseases, take higher doses of vitamin D3. When you come down with a flu, it is safe to increase your daily vitamin D3 intake to 30,000 IU of vitamin D3 for a few days until your symptoms improve, then resume your maintenance dose of 5000 IU to 10,000 IU per day.  This year’s dominant flu is the type A, subtype H1N1 – also known as the swine flu. Children should get 50% of the dose regimen detailed for adults when they develop a flu (for children: 15,000IU for three to five days , with tapering to a maintenance dose of 2500 to 5000 IU until blood levels of 25(OH)D are available). Here is a website of Dr. Cannell where he discusses dosages as well.

8. Asthmatic patients do better with vitamin D3 supplements requiring less maintenance anti-asthmatic medicine to keep them balanced with regard to their airways.

9. Chronic low vitamin D3 levels cause brain damage including Alzheimer’s disease. In this context it is important to know that the enzymatic conversion in the liver and kidneys slow down as we age requiring higher doses in older patients. This may have been the reason for the confusion about relatively low doses of 400 IU of vitamin D3 preventing rickets in children versus the need of vitamin D3 in middle aged and older patients where much higher doses are required as already explained.

10. High blood pressure is linked to vitamin D3 deficiency and it is better manageable with medication when vitamin D3 levels are normalized.

11. Live longer with vitamin D3. How is this possible, you might ask: the answer has been found in the telomeres, the shoelace like structures at the end of the DNA strand of each cell. Vitamin D3 lengthens the telomeres and promotes telomere repair; this is associated with a longer life span. Centenarians have longer telomeres. You can measure telomere length, but it is a pricey test, which is not for everyone, contrary to supplementation with vitamin D3 that should be taken by everyone!

12. As already indicated, vitamin D3 strengthens the immune system, but it also modulates the inflammatory response from muscle damage, so athletes can perform better. Patients with multiple sclerosis will improve as it slows down the inflammatory process. But other inflammatory diseases like arthritis, inflammatory bowel disease and even cancer will respond favorably to higher doses of vitamin D3 (20,000 to 30,000 IU of vitamin D3 in these cases). This is information that has not yet percolated into mainstream medicine, but will do so in the next few years (or decades?).

13. Higher percentages of cardiovascular disease are found in patients who have lower than 15 ng/ml  25-Hydroxy- vitamin D3 levels in their blood meaning that vitamin D3 supplementation prevents heart disease (Ref.3).

What are toxic vitamin D levels?

What is known about the safety of vitamin D3, particularly the higher vitamin D3 doses? First, it is wise to have your 25(OH)D blood levels taken from time to time. If any of these levels exceed 200 ng/ml it would be prudent to reduce the vitamin D dose or stop supplementation for a while. Otherwise it has been difficult to establish a toxic range.

This website claims that 40,000 IU of vitamin D3 or more would lead to toxic levels where the blood calcium levels would be increased, which can be measured as hypercalcemia. However, another study done in 2007 showed in MS patients that took 40,000 IU per day and that led to a blood level of 400 ng/ml of 25(OH)D did not lead to increased calcium levels and did not lead to hypercalciuria (too much calcium in the urine). So, all of the papers that either indicated to the public that it would be unsafe or unnecessary to take vitamin D3 seem to have other agendas than communicating the truth. Had it been true that calcium would be released from the bones or calcium were absorbed too much from the gut, this would have caused calcification of the bones, soft tissues, heart and kidneys. Also, kidney stones would have developed. However, a low calcium diet combined with corticosteroid drugs usually leads to a full recovery within a month. Interesting that all of the dire predictions regarding toxic vitamin D3 levels did not materialize. Here is another website discussing vitamin D3 dosing.

I talked to a participant of the conference (who has a fellowship degree of the A4M) about what is really known about vitamin D3 toxicity. He told me that there has been an unintentional overdose where a compounding pharmacy made a mistake, so that a patient accidentally received a dosage of 500,000 Units of vitamin D3 per day for a full three months, before the mistake was uncovered. The patient felt sluggish, but did not have any other symptoms. He was told to stop the vitamin D3 compound. He had an uneventful recovery with no detrimental effects. At this point no overdose of vitamin D3 has been established.

Conclusion

Vitamin D3 is a vital supplement that has been shown to prevent not only rickets in children, but also depression, MS, infections and even many cancers (Ref. 4). As usual there will be many critiques that doubt the validity of the above statements. But I have found that all of these effects described above were confirmed in several sources of various medical information. Keep in mind that negative rumours have a tendency to linger on for years.

More information on vitamin D3 for prevention of osteoporosis and hardening of arteries: https://www.askdrray.com/calcium-vitamin-d3-and-vitamin-k2-needed-for-bone-health/

Vitamin D3 deficiency can cause pancreatic cancer: http://nethealthbook.com/news/insufficient-vitamin-d3-linked-to-pancreatic-cancer/

References

1. McPherson: Henry’s Clinical Diagnosis and Management by Laboratory Methods, 22nd ed.,  © 2011 Saunders

2. Rheumatic Diseases Clinics of North America – Volume 38, Issue 1 (February 2012) , © 2012 W. B. Saunders Company

3. Wang TJ, Pencina MJ, Booth SL, et al:  Vitamin D deficiency and risk of  cardiovascular disease.   Circulation 117. (4): 503-511.2008.

4. “Recognition and Management of Vitamin D Deficiency”: American Family Physician – Volume 80, Issue 8 (October 2009),  © 2009 American Academy of Family Physicians

Last edited Nov. 7, 2014

Jan
11
2014

From Inflammation To Heart Attacks, Strokes And Arthritis

Have you ever wondered why people who limp from arthritis in their hip also often get heart attacks? And have you ever wondered why people with high blood pressure get strokes and/or heart attacks?

It is not that difficult to understand, although many people do not like to hear the truth.

After the holidays with lots of sweet presents and rich food it is a good time to reflect about the internal connections between our organs.

Let’s follow what foods can do to our system, then you will understand what to do to get out of a trap, where food is not friendly but damaging to your body.

1.    Sugar, omega-6 fatty acids and trans fats enter your system

When you opened the cheap chocolate bars, ate the pastas, the turkey gravy and the ice cream for dessert, your stomach faithfully digested all that food and broke it down into glucose (a simple sugar), omega-6 fatty acids and highly reactive trans fat with free radicals (from deep fried foods, margarine, shortening, pie crusts, cake mixes, frostings and non dairy coffee creamers just to mention a few).  Within ½ hour the sugar molecules from the digested meal will enter your blood stream.

2.    The metabolism sets in

We know from years and years of research that the glucose in the blood triggers the release of insulin from the pancreas, which facilitates absorption of sugar into your liver and muscles where it is stored as glycogen. This is meant to be a storage form of sugar, just in case you do not eat for a few hours, but need energy to burn for your physical activity. When you have saturated the glycogen storage in liver and muscles, your liver metabolizes sugar into fatty acids and triglycerides. There is the transport LDL cholesterol that is supposed to supply the brain and heart with healthy cholesterol for these organs to replace cell membranes. Instead, the LDL cholesterol that is supposed to be balanced by the protective HDL cholesterol gets oxidized from the extra sugar and from the free radicals of the TRANS fats that are now being outlawed by the FDA for exactly that reason. So, the oxidized LDL cholesterol turns into the vicious VDLDL particles, which can be measured as a special blood test by your doctor. The overabundance of omega-6 fatty acids start an internal fire by stimulating the arachidonic acid pathway, which causes inflammation in your arteries, your joints and your immune system.

From Inflammation To Heart Attacks, Strokes And Arthritis

From Inflammation To Heart Attacks, Strokes And Arthritis

3.    The consequences of eating foods which spike your blood sugar levels

The end result is hardening of your arteries and the beginning of arthritis in your joints. Mind you, this does not happen overnight, but when you eat this way decade after decade it takes its toll. Typically in your forties or fifties you will notice some swollen knuckles. Don’t just let this happen. Think that this is a sign that something is festering in you! If you don’t interfere, there could be one wrong move, when you play sports and a meniscal tear in your knee could put an end to the fun. Sure, you will find a reason that the angle of your jump was unfortunate and this was simply enough for your meniscus to tear. But could it be that there were inflammatory changes in your meniscus long before this incident, the meniscal material softened up, dried up because of a lack of proper nourishing synovial fluid? I found when I was in primary care practice that this was what caused the majority of meniscal tears. A normal meniscus does not tear easily, but decades of malnutrition will lead to these hidden changes, where a meniscus can be softened and is prone to damage without a warning.

Arthritis in your joints is similar to the process of what I described regarding meniscal degeneration. An imbalance of the omega-6/omega-3 ratio where people take in 12 to 16 times as much omega-6 fatty acids from processed food compared to omega-3 fatty acids from fish oil or fish consumed, causes inflammation of the joints via the arachidonic acid metabolism.

What about the arteries? It is no secret that many people in their 60’s have suddenly an episode of chest pain that leads to a referral to a cardiologist who will do a heart catheterization. A stent or two may have to be placed because of hardening and narrowing of the coronary arteries. In many trials where people with coronary artery disease were followed laboratory tests showed that these individuals had low 25-hydroxy-vitamin D levels in their blood and the calcium that was meant to make their bones strong, ended up in the arteries. Vitamin K2 is often also missing because of malnutrition.

People with high blood pressure often do not have enough nitric oxide production from their arteries, because they do not eat enough vegetables, they are too sessile and they eat too many sweets and starchy foods. As a result  the liver overproduces triglycerides and fat, and oxidized LDL cholesterol damages the lining of the arteries. Just treating high blood pressure with blood pressure lowering medications will not correct the underlying metabolic disbalance. This is why people who had 2 or three stents for coronary artery hardening will come back 5 or 10 years later and need more stents until they die of a full-blown heart attack. You must stop the underlying metabolic derangement, if you want to prevent further deterioration.

4.    Inflammation takes its toll

But what do the lining of the arteries, the inflamed joints, a degenerative meniscus and heart attacks and strokes have in common? It is the INFLAMMATION that changes the body chemistry. It gets even more complicated, because the extra calories that we consume get stored as visceral fat. This is done automatically when you eat too much sugar and starchy foods as you may have done over the holidays. Remember, our ancestors were hunters and gatherers, and our genetic make-up is still the same. So, when the glycogen stores are full, any surplus sugar gets metabolized by the liver into triglycerides, fatty acids and LDL cholesterol and gets stored as body fat. The most active fat is the visceral fat between our guts and around our body organs. This produces interleukins and other inflammatory cytokines that circulate in the blood causing inflammation in all our arteries.

This is the link between the various manifestations of inflammatory conditions in our bodies. We rarely think of all of these various conditions as being linked. We concentrate on each disaster as it strikes, but think that it is only a one-point-in-time event. We do not see the years of abuse of our bodies that have preceded any of these events.

5.    Disaster strikes in different ways

We usually hear about a person who just got a heart attack. Now it is an emergency!  Nobody thinks about the years of inappropriate food intake and the lack of exercise that led up to this heart attack event.

The same is true for a sudden stroke. The patient arrives at the hospital in an ambulance and cannot move one arm and one leg. Initially the patient may be unconscious. There is too much action required by the emergency personnel to ask the question why it had to come to this. The truth though is that the blood vessel deterioration in the brain vessels that led to the stroke have quietly happened years before the acute event.

And then there is the aging 75-year-old man with a stiffening hip and arthritis in the hands. The inflammation has been quietly developing in the synovial membranes of the joints for more than a decade. The patient probably swallowed anti-inflammatory medications for years for arthritis symptoms, which as you guessed has not changed the underlying biochemistry. But now it has come to the point where a total hip replacement is required, just to be able to continue to walk. I have experienced that scenario in the hospital setting many times. Many patients went through the total hip replacement surgery with no problems. But other patients had their total hip replacement done and they developed a heart attack under the general anesthetic, because unbeknown to the orthopedic surgeon the patient also had severe hardening of the arteries that had not shown up on the pre-surgical electrocardiogram. A stress test or a Thallium heart scan when the patient still could exercise would have shown this hidden cardiac condition before the surgery, so that a cardiologist could have addressed this condition before the surgery. After that the total hip replacement would most likely have been uneventful.

6.Prevention is the key

The lesson to be learned from all of this is: prevent these disasters from happening in the first place. Do the following:

1) Good, balanced nutrition

2) Regular exercise.

3) Take vitamins and mineral supplements for bone health.

4) As you age, have your hormones measured and replace what is missing.

5) Avoid toxins. Use detoxification.

6) Avoid junk foods.

I have covered these topics in many blogs before as indicated in the above links.

Conclusion

Health disasters are mostly not accidental, but are rather caused by not paying attention to the silent metabolic changes based on improper nutrition and a lack of exercise, which could also be termed as a lack of prevention. It takes some time, often even some suffering to understand the deeper meaning of what I discussed above (that prevention is much more powerful on the long-term than curative medicine). I speak from experience having worked in the medical field for more than 30 years. Curative medicine will take care of an emergency, but the underlying inflammation and metabolic derangement will persist, if this is not changed through the steps mentioned above. Treat inflammation and LDL oxidation by modifying your lifestyle. Think prevention!

More information on inflammation medicine: https://www.askdrray.com/chronic-inflammation-causes-cancer-heart-attacks-and-more/

Last edited Nov. 7, 2014

Dec
07
2013

Slow Down Aging And Prevent Disabilities

You have seen it many times before: a man or a woman retires at age 65; for a while you see them around at social functions; then they are not seen any more and they return in a wheel chair only to die prematurely. You ask yourself: what can I do better to avoid this death trap?

There are several aspects to this equation: first, we would like to slow down the aging process. Part of this is to retain our physical functioning. In the following I am discussing the ingredients that are necessary to achieve the goal of aging in dignity, but avoiding disability.

It starts with a healthy mind set

You need to be optimistic and have a mindset of believing in yourself that you can do it. With a negative attitude, you will manage to find something to complain about, no matter how perfect the day has been. Negative thinking is rampant, and depression tends to be higher in the older population. If you suffer from depression or you had negative events such as accidents or abuse in the past, it is important to do some house cleaning. Do not be hesitant seeking professional help and counseling from a health professional to help you build up your self-esteem.

Regular exercise is important

A regular exercise program helps you to get your day organized. If you think that you are too busy to find the time to exercise, you are sacrificing your wellness and in fact you sabotage your health. It’s time to rethink your lifestyle! The reason you need exercise is to set the automatic pilot on staying healthy and active. If you are accustomed to sitting down in front of the computer or television set for hours, your muscles do not get the exercise they need. Fast-forward several decades and you will be one of those who rely on walkers, wheel chairs and assisted living establishments. Without training your muscles you are more prone to falls and injuries. Your balance organ is not getting the impulses it needs on an ongoing basis to prevent you from falls later in life. People in their 80’s are often stable up to the point where they trip and fall. I have seen many patients like this arrive in an ambulance where I was doing my shift as the emergency physician in a community hospital. When I summarize the fate of all of the people in their 80’s who had falls and broke their hips over the years, 50% of them made it through the surgery and went back home (often with a walker or in a wheel chair) or ended up in a nursing home; the other 50% died from complications of the surgery, often from heart attacks during the surgery or from clots in their pelvic veins or in the leg veins that dislodged and turned into pulmonary emboli. A fracture and in particular a hip fracture in your 80’s is a serious, potentially deadly accident. So, you need strong muscles and joints and you need strong bones. All of this comes free to you from years of regular exercise in your 60’s and 70’s.

Slow Down Aging And Prevent Disabilities

Slow Down Aging And Prevent Disabilities

You guessed right: good nutrition is important!

Eat right and your body will function right. This is where a lot of people are sent on the wrong path due to clever advertising from the Agro Industry, Big Pharma, the American Dietetic Association and the United States Department Of Agriculture. So they preach that wheat and wheat products are good for you, but the lab tests show that it induces hyperinsulinemia and leads to diabetes. The genetic changes of wheat (“accomplished” through forced chemical hybridization in the 1970’s) are responsible for the metabolically very active wheat belly (accumulation of visceral fat) that Ref. 1 has described in detail. But others have researched this topic as well. Ref. 2 for instance confirms that gliadin, the glue in wheat, which allows dough to stick and makes it easy to create bread, bagels and pasta, is responsible for neurological issues like numbness of fingers and feet (peripheral neuropathy), balance problems and cognitive decline all the way to Alzheimer’s disease. If you continue to eat wheat and wheat products (all contained in conveniently packaged “processed” foods), you may very well find that your balance and muscle control will deteriorate by the time you are in your eighties. This condition is not new: one of the lecturers I listened to at McMaster University in Hamilton, Ontario in 1977 referred to those unfortunate individuals who were severely disabled as the “tea and toasters”. The tea in this case was probably the lesser evil, but the wheat induced malabsorption and malnutrition was a reality already in the mid and late 1970’s.

However, if you start eating organic foods to avoid the chemicals and estrogen-like xenoestrogens from pesticides, and you cut out sugar, high-density carbs and wheat products, you will no longer have problems with weight control and you will maintain your muscle, brain and nerve function. This is not what you learn from the regular agencies mentioned at the beginning of this paragraph, but Ref. 1 and 2 will fill you in on the details. Essentially, I follow a Mediterranean diet without sugar, starchy foods and wheat or wheat products. Ref. 2 stressed the importance of enough saturated and healthy fat (omega-3 fatty acid rich oils) in a balanced diet consisting of 20% protein and low carbs. No specific numbers were given regarding the %-age of fat. I would say that a limit of about 25 to 35% for fat would be reasonable except for the Inuit who are used to a fat content in their diet of 80%. The new thinking is that healthy fats are good for your brain and heart. Healthy fats are omega-3 fatty acids (EPA and DHA) derived from fish oil as they are very protective (anti-inflammatory) oils, so is olive oil and coconut oil. These latter two are anti-inflammatory monounsaturated fatty acids. Keep in mind that you want to change the ratio of omega-3 to omega-6 fatty acids (the ratio in this link is cited as omega-6 to omega-3) more in the direction of omega-3 fatty acids, so that the ratio will be between 1:1 and 1:3. Most Americans are exposed to ratios of 1:8 to 1:16 (too many omega-6 fatty acids in fast food and processed foods), which leads to inflammation of the arteries as well. Omega-6 fatty acids, found in safflower oil, sun flower oil, grape seed oil and canola oil are bad for you when not balanced by enough omega-3’s (flax seed oil and fish oil) as they lead to inflammation through the arachidonic acid system in the body. It may be a surprise to you that saturated fats are OK: animal fat like butter, lard, cream, ghee (clarified butter), and other animal fats provided they come from clean (not antibiotic or bovine growth hormone treated) animals. Buy organic and buy organic meats as well such as grass fed beef and bison, chicken and turkey.

Here is an example of what a day would look like nutritionally in terms of a breakfast, lunch and dinner (recipes by Christina Schilling):

Breakfast:  Great Greens Omelet

(2 servings)

1 tablespoon olive oil or coconut oil

3 chopped green onions

3 cups spinach leaves or a mix of greens: kale, spinach, Swiss chard

1 red pepper cut into strips

3 eggs and 3 egg whites

2 tablespoons grated Parmigiano

In non-stick pan sauté green onion, greens and pepper strips in oil, stir eggs and egg whites and pour over the vegetables, sprinkle with Parmigiano. Cook on medium heat, till the egg mixture has started to set. Turn over and briefly let cook. Remove from pan, divide into two portions and sprinkle with a bit of salt (optional). Serve with salsa and guacamole.

Lunch: Oriental Salad

(2 portions)

1 small Sui choy cabbage (Napa cabbage)

2 cups mung bean sprouts

1 small daikon radish, shredded to yield 1 cup

1 red pepper, cut into thin slices

3 green onions, chopped

1 medium sized carrot, cut into matchstick size pieces

1 can sliced water chestnuts, rinsed.

Dressing: 2 tablespoons sesame oil,

2 tablespoons rice vinegar,(light balsamic vinegar works too)

1-tablespoon tamari soy sauce

1 tablespoon Thai sweet chilli sauce

1-teaspoon fresh grated ginger

3 tablespoons chopped fresh cilantro

Prepare all vegetables and put into salad bowl. Stir all dressing ingredients together and pour over vegetable mix. Stir gently, cover and refrigerate. This salad can be consumed immediately or kept refrigerted for a day. To complete the salad with a protein portion add your choice of 6 oz. cooked shrimp or the same quantity of cubed or sliced grilled chicken.

Dinner:  Florentine Chicken

(2 servings)

1 large boneless chicken breast

1 tablespoon of chopped fresh basil-alternatively use 1 teaspoon dried basil.

1 tablespoon grated Parmigiano

4 thin slices prosciutto

1 tablespoon olive oil

2 tomatoes- cut into halves

3 chopped green onions

2 cups baby spinach leaves

pinch of salt

Spread chicken breast flat and top it with the basil, Parmigiano and prosciutto slices. Fold into half an hold the stuffed chicken breast together at the edges with a toothpick or two. Heat olive oil in frying pan, add onion and tomato slices and put the chicken breast on top. Put lid on the pan, and cook at medium heat till the chicken is cooked through. If you test with a fork, the juices will be clear. Remove vegetables and chicken from pan, put on serving plate and keep warm. Remove toothpicks from meat, and cut chicken breast into two portions. Put spinach into pan and let the leaves wilt at medium heat (cover with lid). Put spinach on the side of the chicken and tomatoes, and sprinkle with a bit of salt.

Dessert after dinner: Berry Sorbet

(2 servings)

2 cups of deep frozen berries (strawberries, blueberries or a berry mix, no sugar added)

¾ cup of organic yogourt or goat’s milk yogurt

a few drops of liquid stevia or small amount of powdered stevia-to taste.

Put into blender and process till smooth. You will have to open the blender jar to stir the contents in between. Serve with a dollop of whipped cream,  if desired.

What about the “slow down” of menopause and andropause?

It is a fact that as we age, our hormone glands do not produce as much hormones as when we were in our 20’s and 30’s. But if you find a health care provider who is interested in anti-aging medicine (there are about 26,000 physicians, chiropractors and naturopaths who are members in the A4M), your hormones can be measured accurately from saliva and blood tests. This will tell whether you are hypothyroid, deficient in sex hormones and whether you should be supplemented with the missing hormones in adequate doses through bio-identical hormones. For instance, women are often deficient in progesterone in menopause and men deficient in testosterone. Treatment needs persistence and patience, as it often takes months for the patient to feel better and up to 2 years, to find the exact balance for you where the hormones are re-balanced and your symptoms of tiredness, insomnia, hot flushes etc. disappear. All our body cells have hormone receptors that require stimulation for the cells to function normally. Your health professional needs to pay attention to this and not just treat your symptoms symptomatically. When your hormones are in balance and you take a few supplements, your bones will be strong (no osteoporosis), your brain will be clear, your hearing perfect, and your balance great. You will be much less likely in your eighties to fall and break a bone and your mind will be clear and sharp.

Stress management

As the baby boomers age, they need to be aware of the stress in their lives. You may have been accustomed to having lots of energy when you were in your child rearing years or in your active professional career. Often we do not even notice that there may be stress in our lives. But your adrenal glands know. This is really a subpart of what I said of hormones: they need to be in balance. But cortisol, which is produced in your adrenal glands, is different from the menopause/andropause hormones. Corticotrophin-releasing hormone (CRH) from the hypothalamus and adrenocorticotrophin hormone (ACTH) from the pituitary gland are the rulers of the adrenal glands. And it is how you handle stress when you are in your 40’s, 50’s and 60’s which will determine whether you come down with adrenal fatigue, various degrees of adrenal insufficiency or not. Ref. 3 is a whole book that deals with this topic. Here I like to mention only that the best test to diagnose adrenal problems is a four-point saliva hormone test for cortisol. You connect the four points and get a curve where the cortisol level is expressed as a function of time. If this curve is below the lower normal range, which the laboratory provides for you, you need to be managed by a knowledgeable health care professional in order to build up the reserves of your adrenal glands. Yoga, meditation, deep prayer, self-hypnosis and enough regular sleep are all proven methods to overcome any stress related issues. Sometimes more effort is needed to rebuild the adrenals by specific herbs or porcine adrenal gland cortex extracts. Your health care provider can tell you more regarding this.

Useful supplements

1. On March 17, 2013 I wrote in a blog about prevention of osteoporosis the following summary:

“The best combination is 1000 mg (or 1200 mg as per National Osteoporosis Foundation recommendation) of calcium per day together with 400 to 800 IU of vitamin D3 (for cancer prevention you may want to take 4000 IU to 5000 IU of vitamin D3 per day instead monitored by a 25-hydroxyvitamin D blood level test through your physician) and 100 micrograms of vitamin K2 (also called MK-7). In the age group above 50 missing hormones such as bioidentical testosterone in men and bioidentical progesterone/estrogen combinations in women should be given as well. This works best, if you also watch your weight, cut down your alcohol consumption to a minimum (or better cut alcohol out altogether), exercise regularly (this builds up bone and muscle strength) and stick to a balanced diet resembling a Mediterranean or zone type diet (low-glycemic,  low fat, wheat free and no sugar).” I would add in view of Ref. 1 and 2 that “low fat” should now be replaced by “balanced fat diet”. With this I mean that nuts, almonds, olive oil, unsalted butter are allowed within reason. Lately there have been new insights that some cholesterol is needed for normal hormone production. What needs to be cut out are omega-6 fats and trans fats.

2. Omega-3-fatty acid supplements from molecularly distilled fish oil at a good dosage (3 to 6 capsules a day) will prevent chronic inflammation that often causes arthritis. Chicken cartilage (UC-II) from the health food store will desensitize your system in case you have rheumatoid arthritis or osteoarthritis. This will prevent crippling arthritic disease down the road.

3. Mitochondrial aging (the mitochondria are the energy packages in each body cell) is slowed down by the two supplements ubiquinol (=Co-Q-10, take 400 mg per day) and 20 mg of PQQ (=Pyrroloquinoline quinone). Co-Q-10 repairs DNA damage to your mitochondria and PQQ stimulates your healthy mitochondria to multiply. Between the two supplements you will have more energy.

4. Vitamin C 1000 to 2000 mg per day and a multivitamin supplement help to support the rest of your metabolism. Some may want to add PS (Phosphatylserine) 100 to 200 mg per day, which works together with vitamin D3 for Alzheimer’s prevention.

Conclusion

By now you noticed that nothing comes from ignoring the fact that we are aging. We need to pay attention to our body functions and think about what we can do to make us stronger. In the end we are our own caregivers. When we are in our eighties, we should still be active and our brains should function with a lot more experience than in our past. Our bones will be strong and our balance should prevent us from falling. I do not want to use assisted living and I do not like the confinement of a wheel chair. In the meantime I am going to carry on dancing.

More information on:

1. Fitness: http://nethealthbook.com/health-nutrition-and-fitness/fitness/

2. Nutrition: http://nethealthbook.com/health-nutrition-and-fitness/nutrition/

3. Vitamins, minerals and supplements: http://nethealthbook.com/health-nutrition-and-fitness/nutrition/vitamins-minerals-supplements/

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. David Perlmutter, MD: “Grain Brain. The Surprising Truth About Wheat, Carbs, And Sugar-Your Brain’s Silent Killers.” Little, Brown and Company, New York, 2013.

3. James L. Wilson, ND, DC, PhD: “Adrenal Fatigue, the 21sty Century Stress Syndrome – what is it and how you can recover”; Second printing 2002 by Smart Publications, Petaluma, Ca, USA

Last edited Nov. 7, 2014

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Mar
17
2013

Calcium, Vitamin D3 and Vitamin K2 Are Needed For Bone Health

Introduction

I am reviewing in this blog why calcium, vitamin D3 and vitamin K2 are needed for bone health. Recently there has been a lot of coverage in the press regarding postmenopausal treatment of women to prevent osteoporosis. It is all based on this original publication February 26, 2013.

Essentially, there are a number of studies where researchers did a meta-analysis of several trials. They studied osteoporotic bone fracture frequency in female subjects taking 400 IU vitamin D and 1000 mg calcium daily. The researchers measured the frequency of osteoporotic fractures as the indicator  for osteoporosis in these postmenopausal women. The conclusion was that there was no value in taking these supplements to prevent osteoporosis. Many other media publications carried this story.

No kidney stones in study with calcium and vitamin D3

Just two days earlier (Feb. 24, 2013) another study was released with a much larger patient base of 36,282 postmenopausal women of the Women’s Health initiative in the US who were followed up for 7 years. Initially there confusion how compliant the patients were taking their supplements. The required supplementation consisted of 1000 mg of calcium carbonate and 400 IU of vitamin D3. 7 years into the trial the researchers compared the supplement compliant group with the control group taking placebos.

Calcium and vitamin D3 supplementation significantly reduces risk of hip fractures

The study group had 35% to 38% less fractures of the hip than the placebo group. This supplementation did not cause kidney stones in the study group. This was in contrast to what previous smaller studies showed. Some physicians insisted citing the older studies that vitamin D3 and calcium supplementation would cause kidney stones. But the above study refutes the causation of kidney stones by supplementing with vitamin D3 and calcium. In other words, all of these kidney stone concern you have so often read in the media are not true.

Outline of this review

In order to make sense of supplementation as osteoporosis prevention I will first review what a normal bone metabolism requires.  I will then comment on what is missing in some of the studies and why it still makes sense to supplement to prevent osteoporosis. In addition, at the end of this blog I will also recommend a sensible supplementation regimen.  All this is based on a balanced review of the medical literature.

Calcium, Vitamin D3 and Vitamin K2 Needed For Bone Health

Calcium, Vitamin D3 and Vitamin K2 Needed For Bone Health

Bone metabolism

But vitamin D3, vitamin K2 and strontium together have also been shown to build up bone density within one year.

So, how does vitamin K2 deposit calcium into the bone? Vitamin K2 stimulates a hormone, called calcitonin, which is produced by specialized C cells (parafollicular cells) inside the thyroid gland and released into the bloodstream. Calcitonin arrives in the bone where it binds firmly with receptors of osteoclasts (bone remodeling cells), which stops breakdown of bone. Calcitonin is helped by another hormone, called osteocalcin, which is produced by the bone producing cells with the name osteoblasts.

Vitamin K2 controls osteocalcin, which is a calcium-regulating hormone

The physician can measure osteocalcin levels in the blood and use this as a research tool to see whether a medication is effective in building up bone mass density (BMD). Vitamin K2 control osteocalcin as a calcium-regulating hormone. If vitamin K2 is present, carboxylation of osteocalcin will lead to mineralization of the bone (new bone formation); if vitamin K2 is absent, osteoporosis sets in.

The skeleton of an average adult contains 1–1.3 kg of calcium and 99% of this is mostly in the form of hydroxyapatite.

The key vitamins for bone metabolism are vitamin D and vitamin K2

Calcium absorption from the small intestine requires vitamin D3 (Ref.1). To transport calcium from the blood into the bone we require both vitamin D3 and vitamin K2 (=menaquinone). This blog explains that several studies have shown that vitamin K2 (or MK-7) plays a double role of preventing calcification of the arteries and bringing the calcium into the bones of osteoporotic women.

Apart from Vitamin K2 that is necessary for osteoporosis prevention other factors have shown to be of importance. For instance, testosterone is an anabolic hormone (meaning a hormone that builds up) and it has clearly been shown that it is bone building: It does so by stimulating osteoblasts, which are bone producing cells that reside inside the bone.

Vitamin D3, vitamin K2, Calcitonin and osteocalcin

But vitamin D3, vitamin K2 and strontium together have also been shown to build up bone density within one year.

So, how does vitamin K2 deposit calcium into the bone? It does so by stimulating a hormone, called calcitonin, which is produced by specialized C cells (parafollicular cells) inside the thyroid gland and released into the blood stream. Calcitonin arrives in the bone where it binds firmly with receptors of osteoclasts (bone remodeling cells), which stops breakdown of bone. Calcitonin is helped by another hormone, called osteocalcin, which is produced by the bone producing cells with the name osteoblasts.

Vitamin K2 controls osteocalcin, which is a calcium-regulating hormone

Osteocalcin levels in the blood can be measured and used as a research tool to see whether a medication is effective in building up bone mass density (BMD). Vitamin K2 controls osteocalcin as a calcium-regulating hormone. If vitamin K2 is present, carboxylation of osteocalcin will lead to mineralization of the bone (new bone formation); if vitamin K2 is absent, osteoporosis sets in.

Vitamin K2 also prevents heart attacks and strokes

Vitamin K2 has a second function: it removes calcium from the arterial walls and tissues. How does it do this?

Matrix GLA protein is found in tissues of the heart, lungs, kidneys and blood vessels. When vitamin K2 stimulates carboxylation of this protein, it will function like a broom and clean out calcium deposits (calcification) from blood vessels and organ tissues. As vitamin K2 is needed for this carboxylation process, it appears that nature had in mind to remove calcium from soft tissue organs and blood vessels and form hydroxyapatite in the bone for bone strength.

Vitamin K2 is the key to deposit calcium into the bone

It seems that vitamin K2 is the key vitamin necessary to do this job. Another player is magnesium, which is part of of the normal function of more than 300 cellular enzyme systems. In terms of hormones the three hormones parathyroid hormone (PTH), vitamin D3 and calcitonin need to interact normally, all requiring magnesium as cofactor. In addition, zinc, copper, boron, and manganese are also essential as trace minerals. They act as cofactors with regard to specific enzymes of the bone metabolism (Ref. 1).

Bioidentical hormone replacement essential after menopause and andropause

In the aging person hormonal deficiencies are also factors for causing osteoporosis to develop. As this link shows, Dr. John Lee found bioidentical progesterone topical cream very helpful in women with respect to increasing bone mass density by 15% over 3 years.

When bloods tests show testosterone depletion men need to replace what is missing with bioidentical testosterone. So, bioidentical hormone replacement in both men and women is part of a bone health management program to prevent osteoporosis.

Some trials that demonstrate how you can build up bone

  • In this paper parathyroid hormone  was used in combination with 1000 mg of calcium and 400 IU of vitamin D3 in a group of postmenopausal women with osteoporosis. Within 3 month of treatment there was an increase of bone mass density in the lower back (lumbar spine) of 4.7%, which translates into a yearly increase of bone mass density of 18.8%. In the past when physicians tested other agents for bone regeneration, this type of result never occurred. There is a  variation of this hormone,  a parathyroid hormone look-alike with the name Teriparatide (PTH 1-34). The patient administers this once daily as an injection of 20 mcg up to 2 years. Physicians found this useful in treating fractures of the vertebrae and other fractures in osteoporotic postmenopausal women (Ref.2).

Effect of Vitamin K2, estrogen and calcium citrate supplementation

Calcitonin and calcium strontium

  • Calcitonin is very effective in reducing bone pain when the patient has compression fractures from osteoporosis; the physician can prescribe it as an intranasal spray of 200 units daily (Ref. 2). However, on March 5, 2013 the FDA announced that salmon calcitonin would not be safe for humans as there is a slight risk that cancer can develop as a “side-effect”.
  • According to Ref. 2 physicians sometimes use strontium ranelate in Europe for the treatment of postmenopausal osteoporosis. Researcher showed that strontium ranelate builds up bone and decreases the amount of bone resorption. Side effects include nausea and diarrhea.

The team players of bone metabolism to build strong bone

We are now in a position to analyze why the researchers of the first paper (citation above) concluded that calcium and vitamin D3 supplementation were not enough to make a statistical difference in the treatment of postmenopausal women in comparison to placebos. As explained bone metabolism is a complex process involving several team players, where the key player is vitamin K2, which the researchers of that study ignored completely. The examples I mentioned above in point form show that exercise and calcium are also important. Vitamin K2 by itself worked quite well as it is so powerful. Hormones like PTH and calcitonin are effective, but more difficult to take for the average consumer and the FDA now has banned calcitonin.

Importance of vitamin D3 as a supplement

Vitamin D3 is important for absorption of calcium from the intestine, but also for depositing calcium into the bone in addition to vitamin K2. The WHI study mentioned above is highly significant because of a 1/3 reduction of hip fractures after 7 years of vitamin D3 and 1000 mg of calcium per day supplementation. If you add vitamin K2, exercise and bioidentical hormone replacement in postmenopausal women who need it, the prevention of hip fractures, wrist fractures and vertebral compression fractures likely will be as high as 50% in those who are taking their supplements regularly (compliance issues like forgetting the supplements or deliberately not taking them were mentioned in several of the studies).

Vitamin K2 helps to reduce heart attacks, strokes and osteoporosis

With the right supplementation, which includes vitamin K2 as mentioned above, you achieve that you lower your heart attack and stroke risk as the vitamin K2 removes the calcium from the blood vessels and deposits it into the bones, while at the same time strengthening your bones. Attention to proper nutrition, exercise and your hormone balance (using only bio-identical hormones to replace what’s missing) will also reinforce osteoporosis prevention. The bonus of using bioidentical hormone replacement therapy is that you prevent heart attacks and strokes in addition to preventing osteoporosis. I think that this is a good deal!

An easy-to-follow osteoporosis prevention program

The best combination is 1000 mg (or 1200 mg as per National Osteoporosis Foundation recommendation) of calcium per day together with 400 to 800 IU of vitamin D3 (for cancer prevention you may want to take 4000 IU to 5000 IU of vitamin D3 per day instead monitored by a 25-hydroxyvitamin D blood level test through your physician) and 100 to 200 micrograms of vitamin K2 (also called MK-7). In the age group above 50 several hormones can be missing.

Hormone depletion in menopause and andropause

That’s why the doctor recommends bioidentical testosterone in men and bioidentical progesterone/estrogen combinations in women with hormone depletion. This works best, if you also watch your weight and cut down your alcohol consumption to a minimum. Cutting alcohol out completely would be even better. In addition, exercise regularly as this builds up bone and muscle strength.  It also helps, if you stick to a balanced diet (Mediterranean or Zone type diet). These diets are low-glycemic, low fat, wheat free and without sugar).

If you want to age gracefully, you need not only a healthy heart and a healthy brain. You also need healthy bones as this prevents disabilities.

References

  1. McPherson: Henry’s Clinical Diagnosis and Management by Laboratory Methods, 22nd ed. Copyright © 2011 Saunders, An Imprint of Elsevier
  2. Rakel: Integrative Medicine, 3rd ed. Copyright © 2012 Saunders, An Imprint of Elsevier

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I received the following feedback (Originally on Nov. 10, 2013)

 Dr. Ray, I read your March 17 Blog entry which suggested 100 ug of Vitamin K2 with 5000 IU of D3.   I have atherosclerosis and have radically changed my diet (plant only), but also now take an average of about 3000 IU of Vitamin D3. Dr. Kate Rhéaume-Bleue (book on K2) recommended taking about 200 ug per day of K2, but increasing K2 to about 1,000 ug if taking around 5,000 IU of D3 to ensure proper activation of MGP. What is your opinion with regard to a D3/K2 ration?  Thank you

 Answer from Dr. Ray (Originally on Nov. 12, 2013, modified April 29, 2021)

I appreciate your question about what doses of vitamin K2 to take. There are varied recommendations, but I like to go by human trials and what they have actually shown. In this review in 2010 from the Life Extension Magazine a study is cited that showed that only 45 micrograms of vitamin K2 was enough to get the calcium out of the arterial walls and into the bones.

200 micrograms of Vitamin K2 daily

Dr. Mercola reviewed the literature and found that most investigators were now using 180 to 200 micrograms. In the past I took 100 micrograms of vitamin K2 per day. However, a few years ago I increased it to 200 micrograms per day. With regard to vitamin D3 absorption my anti-aging doctor found that I have an absorption problem regarding vitamin D3. This is why I need 10,000 IU of vitamin D3 daily. This brings my vitamin D blood level up into the high normal range (between 50 and 80 ng/mL). Toxic vitamin D blood levels start only above 150 ng/mL.

Avoid sugar and too much starch consumption

Remember that other risks for cardiovascular disease are sugar and starch consumption. The liver turns this into triglycerides and too much LDL cholesterol, which plugs up your arteries. Avoid wheat because of the gliadin content. This causes an addiction to wheat and sugary foods. Here is a summary how leaky gut syndrome and autoimmune illnesses may develop from this. If you want to consume beef, reduce your consumption to once or twice per week. It id best to stick to only eat grass fed, antibiotic free beef). But I rather prefer to eat organic chicken, turkey and lean pork. I understand that you have a plant only based diet, but I would recommend to you to reconsider that. Ask your doctor to check your ferritin from time to time. This way you do not miss an iron deficiency that may develop. For other readers: Don’t forget your vegetables (organic, please).

More information about osteoporosis: http://nethealthbook.com/arthritis/osteoporosis/

Last updated Nov. 6, 2014

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