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Biotech / Medical : Mining Cholesterol -- Ignore unavailable to you. Want to Upgrade?

To: copperknob who wrote (214)	12/23/2006 4:31:20 PM
From: E. Charters	Respond to of 356

You get lots of calcium in many foods. OJ, skim milk, and many other foods, (vegetables galore) have OODLEs of CaO in them. No need to load up with calcium. Osteoporosity is NOT caused by lack of calcium in the diet. It is caused by TOO MUCH fatty acid in the food of the wrong kind, such as margarine and vegetable oil -- and not enough D3. If you take calciferol, and swear off vegetable oil and simple carbohydrates, you can forego the elemental calcium entirely. D3, which is usually deficient in northern climes because people don't get enough sun, causes an increased absorption of calcium, which is what you want, not loading up on the stuff. Too much calcium will cause calcium deposits, ringing in the ears, cracking of joints, and heart problems. Calcium ions are indicted in combining with apoliprotein b to form arterial plaque. They do this strangely enough in what is similar to an allergenic or histamine reaction, coursing along calcium channels in the artery walls in response to arterial signals precipitated by by endothelial damage. Hence the usage of "calcium channel blockers" to bring blood pressure down. EC<:-}

To: copperknob who wrote (214)	12/30/2006 11:26:56 PM
From: E. Charters	Respond to of 356

Go to the aor.ca site and read up on their Strontium supplement. aor.ca Note: their Canadian site is broken. You can still order from Calgary, but use the US site for product information. Take a look at this too. aor.ca EC:<-}

To: copperknob who wrote (214)	1/1/2007 3:49:04 PM
From: E. Charters	Respond to of 356

While Whitaker recommends to take 1000 mgs elemental calcium* a day, as well as about 1000 mgs of elemental magnesium** a day, (magnesium is THE natural calcium channel blocker, plus it's safe as houses) -- he also tells a very important story about exercise whose justification vis a vis bone building is echoed by recent archeaological discoveries about the Spanish occupation in the Americas and enslavement of the La Florida "Injuns". (They had it coming apparently. According to the Inquisition the natives were godless heathen savages, thus enslavement was necessary for their salvation and civilization.) That story's underlying thesis is also echoed by archeaology done on European monasteries where the diet of Medieval Monks was investigated. It was apparent that the bones of Indians of post-colonial times were markedly thicker than those of pre-colonial individuals. What this indicated was that the post-colonials were exposed to much harder work after the Spaniards had arrived. Similarly, the European Monks of the mentioned digs showed massive increase in bone mass over normal levels indicated by secular burials nearby. The diet of the monks was estimated to be about 6,000 calories a day, or more than an that of an Olympic athlete. Just carrying their around obese frames around was hard work, increasing their bone cross sections commensurately. What these examples point to, indicated by J. Whitaker (Reversing Heart Disease), is that exercise is the surest method of increasing bone mass. There is a mechanism that must increase calcium absorption in reaction to the need to bear increased weight or pressure, spurring calcium aborption concomittantly. The answer is that if you want your calcium to be absorbed, then exercise. Exercise. Exercise. Exercise is a sport that is approved by all commentators of all cultures. It is even beneficial for babies. The only people who cannot benefit by exercise are dead. It is probable that certain individuals who are genetically predisposed to osteoporosis will not be "cured" of bone loss by exercise, but any amount over present levels will help relatively. It is apparent by population studies of these kinds and other tests that frequent semi-aerobic and resistance exercise is the surest way to forestall bone and muscle mass loss among the elderly -- or any other group for that matter. The degradation and degeneration of a sedentary life style can only be completely reversed, in concert with an improved diet, by increasing activity levels. Diet may be adjusted to compensate for reduced activity however, with good results generally. It is probable that as an individual ages, his diet should be adjusted to reflect his reduced vitamin and hormone levels. In the future, diets will be routinely age-adjusted. It has long been averred by the medical community that vitamins such as D3, E, B12, folate and minerals such as magnesium, zinc, chromium, iodine, and and copper are found deficient in the "elderly", from the age of say, 45 onwards, in ever decreasing quantities as they age. Supplementation should be an integral part of a middle-aged diet. If foods were perfect it would be one thing, but we know there are tragic flaws of vitamin deficiency and a lack of mineral and fibre nutritive value in modern foods, as well as serious poisons that afflict the supply. The only way to overcome these problems temporarily is to supplement the naturally depreciated vitamin and mineral supply of the modern processed hybrid foods. * elemental calcium and magnesium can be calculated at about 40%-60% of the weight of the oxide or other compound weights. Sometimes the relative weight is on the bottle. 500 mgs of magnesium oxide yields 300 mgs of elemental magnesium. 500 mgs of calcium citrate or calcium carbonate yields about 200 mgs elemental calcium. PRobably calcium should not be taken without taking at least 1/2 that weight in magnesium per day as well. See below. In fact one should calculate the full amount of calcium one gets in food per day as well. If you are drinking orange juice and skim milk, and eating certain vegetables, you are getting plentiful calcium. They key is getting enough magnesium to allow the calcium absorption and promote cardiovascular health. The use of calcium without also supplementing magnesium may be a risk factor for developing magnesium depletion over time. Calcium and magnesium compete for the same absorption sites in the gut. Since magnesium is a central mineral player in many metabolic enzymes, an incremental decline in available magnesium could present serious problems, not the least of which is cardiac problems. Supplementing with calcium in some people may increase the risk of forming calcium kidney stones. Co-use of at least half as much magnesium lowers the risk of kidney stones. In older osteoporotic patients with compromised fat absorption, the optimal daily intake of fat soluble vitamin D should be clinically determined to insure that disease modifying absorption of dietary calcium, renal re-absorption of calcium, and vitamin D-dependent bone incorporation of calcium is occurring. Interactions Those seeking to arrest or reverse osteoporosis should be encouraged to supplement with magnesium at a ratio of 2 parts calcium to 1 part magnesium. Magnesium appears to enhance calcium crystal size and shape, beneficially influencing crystal strength, and therefore, bone strength. Those seeking to arrest or reverse osteoporosis should be encouraged to supplement with a multi-mineral, to enhance the availability of other important minerals normally found in the bones, including zinc, manganese, copper, strontium, and silicon. Zinc is depleted in many elderly people who also may be trying to reverse or arrest osteoporosis. Separate supplementation of zinc may be useful in the range of 30 to 60 mg per day. Boron and vitamin K cannot be supplemented in Canada but are key nutrients profoundly relevant to bone health. However, both of these nutrients can be supplied in a diet that emphasizes fruits and vegetables, especially green leafy vegetables and apples, which can contain as much as 3 mg of boron in the apple skin. If this is unlikely to happen on a consistent basis, regular use of a dehydrated plant food supplement should be recommended. Boron depletion in postmenopausal women contributes to urinary excretion of calcium and magnesium, and depressed serum concentrations of estrogen and testosterone, both hormones being important to bone remodeling. The following bullet points highlight known interactions. • Calcium absorption is dependent on the presence of adequate vitamin D. The recommended daily intake is 400 IU for ordinary needs. Those who are seeking to arrest osteoporosis should discuss 800 IU per day with a qualified health care professional. • Quinolones and tetracyclines combine with calcium, magnesium or other minerals. Concurrent use will render the antibiotics less effective. Minerals should be taken at least two hours apart from these antibiotics. Used long term, these antibiotics may produce mineral deficiencies. • Penicillamine absorption is impaired by magnesium and many of the minerals in a multi-mineral supplement. Such supplements should be taken at least two hours apart from the antibiotic. Long term use of Penicillamine can deplete the body of zinc and copper. • Loop diuretics may cause the loss of calcium and magnesium from the body, frustrating efforts to address osteoporosis. • Thiazide diuretics cause mineral losses, including calcium and magnesium. Long term use could deplete the body of these and other minerals. Since many of those using thiazides could also be osteoporotic, supplementation of minerals may be necessary. • Colchicine may impair magnesium absorption. • Corticosteroids interfere with calcium absorption and metabolism. Long term use may contribute to or exacerbate osteoporosis. • Barbiturates, phenobarbital, and dilantin interfere with the metabolism of vitamin D. Long term use may contribute to or exacerbate osteoporosis, or lead to osteomalacia. Vitamin D supplementation should be advised in proportion to needs. In older people where fat absorption is compromised, 800 IU may be appropriate. • Etidronate (Didronel) reacts with calcium and magnesium interfering with its absorption, if the respective dosing are not separated by at least two hours. However, this drug also alters vitamin D metabolism so that calcium deficiencies may result. • Calcium interferes with iron absorption. • Isoniazid alters vitamin D metabolism with possible reduction in calcium absorption. Supplementation with vitamin D at the optimal dose for individual needs should be advised. • High doses of magnesium, zinc, fiber, and oxalates interfere with calcium absorption. • Caffeine, alcohol, phosphates (from soft drinks, meat, and many can goods), protein (amino acids), sodium, and sugar increase calcium excretion. • Digitalis may adversely affect magnesium status. Magnesium depletion is associated with an adverse heart impact, including arrhythmia and coronary spasms. • High intake of calcium and vitamin D fortified dairy foods decrease magnesium absorption. Contraindications Patients with hyperparathyroidism or cancer should not supplement with calcium unless directed by a physician. EC<:-}

To: copperknob who wrote (214)	1/1/2007 5:01:06 PM
From: E. Charters	Read Replies (1) \| Respond to of 356

Pharmaceutical Commentary Calcium supplementation addresses osteoporosis prevention and treatment. However, this disorder is not principally due to a lack of calcium, but to an imbalance in the bone remodeling action of the osteoclast cells that break down bone, and the osteoblast cells that build up new bone. Remodeling imbalance presents a wider therapeutic issue that mineral supplementation cannot in itself address, however, achieving optimal mineral conditions is a critical step. Other factors like lifestyle or hormonal therapy will address remodeling imbalance. All calcium deficiencies if uncorrected will lead to bone disorders, especially in growing children, but not all cases of osteoporosis are the direct result of dietary calcium deficiency. Other considerations are important beyond calcium. The North American diet is loaded with potential for causing bone calcium “mobilization” that leads to what amounts to calcium wastage via urine excretion. High phosphate intake via meat and soft drinks, high sugar intake, and high meat intake leading to excess amino acids in the blood calling for calcium buffering, can present significant drains on calcium bone density over time. Important lifestyle factors that influence the mineral density of bones are exercise and smoking. Many adults who work in sedentary jobs stop exercising in meaningful ways early in life. Yet, daily minimal weight-bearing exercise is able to drive bone formation, assuming dietary needs are met. Smoking is thought to ultimately lead to the potential for lower blood pH due to compromised CO2 venting in the lungs, thus allowing higher levels of carbonic acid to accumulate in the blood. Accordingly, more bone minerals will be mobilized to buffer the blood. Perhaps no mineral has gained greater recognition and acceptance than that of calcium. We are constantly admonished to “take calcium”, in order to have strong bones now, and the acquired bone density needed for our latter years to avoid bone fractures due to osteoporosis. Osteoporosis concerns are well founded in North America, where approximately 1.3 million women suffer fractures each year as a result of osteoporosis. And to add concern, the rate of osteoporosis fractures has been gong up over the past three decades in a manner that cannot be fully explained simply by the increase in an aging population. However, part of the problem in curbing the incidence of osteoporosis has been a widespread singular focus on calcium, with little or no emphasis on magnesium and vitamin D, and often only lip service to other critical mineral factors and meaningful exercise. Avoiding osteoporosis is much more complex than simply increasing calcium intake, or even relying on appropriate supplementation alone. It is important to realize that osteoporosis is an infrequent disease in the so called third world, where calcium supplementation, and milk consumption for that matter, is virtually non-existent and daily dietary calcium intake is typically below the average intake of North Americans. As much as 50% of the body’s magnesium is found in the bones, pointing to the importance of magnesium to bone health. While calcium is the central mineral in bone mineralization or calcification, the quality of the calcium crystals formed is related to magnesium. When too little magnesium is available, the calcium crystals are weaker permitting fractures to occur, even when consistent efforts have been made to consume the recommended daily calcium supplements. Magnesium also provides a general alkalizing effect on the body’s pH thus helping to avoid the need to sacrifice bone calcium as a buffer. Vitamin D is important to facilitate calcium absorption from the intestinal tract and renal re-absorption. Those who are regularly exposed to sunlight are generally not regarded as being at risk of developing a vitamin D deficiency. However, as we grow older and perhaps spend more time inside, especially for those living north of the 49th parallel, a critical vitamin D deficiency is a very real possibility. Those suffering from diagnosed osteoporosis, should consider 800 international units per day to maximize calcium absorption.9,10 There is a wide margin of safety in vitamin D supplementation, with a potential for toxicity occurring at a daily dose of 2400 IU or greater. Thus, a daily amount of 800 IU. per day is safe, especially if the user is an older person for whom optimal direct sunlight is curtailed and absorption of supplemental vitamin D is somewhat inefficient. Other nutritional factors are known to participate in bone formation and renewal, such as Vitamin K, Manganese, Folic Acid, Boron, Vitamin B-6, Zinc, Strontium, Copper, Silicon, and Vitamin C. These can be obtained in a diet of fruit and vegetables and whole grains, as well as supplementing. Calcium supplementation has also been helpful in cases of salt-sensitive high blood pressure, as well as in pregnancy induced high blood pressure. References 1. Murray, Michael T., Encyclopedia of Nutritional Supplementation, Prima Publishing, Rocklin, CA, 1996 2. Whitaker, Julian, "Dr. Whitaker’s Guide to Natural Healing". Prima Publishing, Rocklin, CA, 1995 3. Editorial, Citrate for calcium nephrolithiasis, Lancet, I: 955, 1986 4. Teo, K.K., et al, "Role of Magnesium in Reducing Mortality in Acute Myocardial Infarction: A Review of the Evidence", Drugs, 46: 347-359, 1993 5. Turlapaty, P., et al, "Magnesium Deficiency Produces Spasms of Coronary Arteries: Relationship to Etiology of Sudden Ischemic Heart Disease", Science, 208: 199-200,1980 6. Gaby, Alan R., Preventing and Reversing Osteoporosis, Prima Publishing, Rocklin, CA, 1994 7. Cohen, L., Kitzes, R., "Infrared spectroscopy and magnesium content of bone mineral in osteoporotic women", Israel Journal of Medical Science, 17: 1123-1125, 1981 8. Graedon, Joe, Graedon, Teresa, Deadly Drug Interactions, St Martin’s Griffin, New York, 1995 9. Germano, Carl, The Osteoporosis Solution, Kensington Books, New York, 1999 10. Dawson-Hughes, B., et al, "Rates of bone loss in postmenopausal Women Randomly Assigned to One of Two Dosages of Vitamin D", American Journal of Clinical Nutrition, 61: 1140-1145, 1995 11. Belizan, J.M., et al, "Calcium supplementation to prevent hypertensive disorder of pregnancy", New England Journal of Medicine, 325: 1399-1405,1991 12. Knight, K.B., et al, "Calcium Supplementation on Normotensive and Hypertensive Pregnant Women, American Journal of Clinical Nutrition, 55: 891-895, 1992 13. He, J., Tell, G., Tang, Y., et al, "Effect of dietary electrolytes upon calcium excretion: The Yi People Study", Journal of Hypertension, 10: 671-676, 1992 14. Utiger, Robert D., Editorial, The Need For More Vitamin D, The New England Journal of Medicine, 338(12), March 19, 1998 15. Standing Committee on the Scientific Evaluation of Dietary Reference Intakes, Institute of Medicine, Dietary Reference Intakes: Calcium, phosphorus, magnesium, vitamin D, and fluoride, Washington, D.C., National Academy Press, 1997 16. Optimal Calcium Intake, NIH Consens Statement Online, 1994, June 6-8; 12(4):1-31