The Calcium Myth

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The Calcium Myth

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By Dr. E. Brown, PhD

Center for Better Bones

For many years, a popular chorus of wisdom about calcium and bone health

has been playing. Its refrain goes something like this: Calcium is essential

to bone health. Variations on this theme are also heard. Drink your milk

for healthy bones… Take a calcium-based antacid, and it will help your bones

while it soothes your stomach… Look, this food, or that one, is fortified

with calcium for healthier bones! In the well-known “Got Milk?†campaign,

one ad has Superman promising “bones of steel†if you drink milk!

This focus on calcium as the silver bullet for bone health is not entirely

restricted to mass media marketing messages. You’ll see calcium emphasized

in osteoporosis websites and pamphlets, research reports, and even in the

Surgeon General’s bone health recommendations. In our society, where calcium

is so widely available and its benefits are so widely known, bone

disorders like osteoporosis (fragile bones) and osteopenia (reduced bone

mineral

density) are still prevalent. Why is this?

The reasons for this paradox fly in the face of popular understanding:

bone loss is not caused by low calcium intake. Furthermore, calcium by itself

will prevent neither bone loss nor needless osteoporotic fractures.

Bone health depends not so much on calcium intake, but rather on its

metabolism and utilization. The major players in this regard are vitamin D,

vitamin K, and magnesium — which are woefully under-publicized in the

campaign

against osteoporosis. This article will discuss these nutrients, and help

you understand how critical they are for maintaining bone health.

Calcium’s role in bone health

Calcium is the most abundant mineral in the human body and serves several

important functions. Two percent of our total body weight is made of

calcium, and more than 99% of total body calcium is stored in the bones and

teeth, where it supports their structure. The body gets the calcium it needs for

everyday, minute-to-minute physiological functioning in two ways. One way

is from the intake of calcium-rich foods. Yes, these include dairy products,

which have a high concentration per serving of highly absorbable calcium —

but also many, many other foods, such as dark, leafy greens, nuts, beans,

and seeds, which have varying amounts of highly absorbable calcium.

When blood levels of calcium drop too low and dietary calcium intake is

insufficient, the body will obtain calcium by extracting it from the bones.

Ideally, calcium that is taken from the bones will be replaced when calcium

levels are replenished. But before you reach for that glass of milk,

realize that to replace the calcium in your bones an intricate process

involving

intake, metabolism and utilization must take place.

This is the crux of the myth — while calcium is clearly important, there

are at least 19 other key nutrients that each play a vital role in the

structural integrity and overall health of our bones. To put the larger picture

in context, I find it is sometimes useful to think of bone as a brick wall,

where the bricks are made of calcium and the other key nutrients make up

the mortar. Without mortar, the wall is unstable. Bricks may fall out, making

the wall even weaker. Just like a brick wall without mortar, bone without

vitamin D, vitamin K, and magnesium will lose its calcium.

So, let’s turn our attention to the major players to understand their role

in the process.

Calcium and vitamin D

The last few years have witnessed a virtual explosion of research on

vitamin D. We now know that this “sunshine vitamin†plays a key role in the

prevention of many chronic diseases including cancer, heart disease, diabetes,

auto-immune disease and osteoporosis. When it comes to bone, we now know

that vitamin D is the key to calcium absorption. To paraphrase noted vitamin

D researcher Dr. Holick, you can swim in calcium and it will do no

good unless you have adequate vitamin D. Specifically, without vitamin D

your body can only absorb 10–15% of dietary calcium — so even if calcium is

present, the body can’t use it! When vitamin D is added, the absorption of

dietary calcium increases to 30–40%. So, both calcium and vitamin D are

necessary to prevent osteoporosis — including postmenopausal osteoporosis.

Most Americans don’t get enough vitamin D — especially during the winter

months, when there is less sunlight. Certain people may also be at a high

risk for vitamin D deficiency, including the elderly, the obese,

dark-skinned individuals, teenage girls, those who spend little time outdoors,

and

those who regularly use sunscreens. Because it is a fat-soluble vitamin,

vitamin D deficiencies also occur in people with fat malabsorption syndromes

such as in celiac disease, cystic fibrosis, and inflammatory bowel disease.

Calcium and vitamin K

We have recently learned that vitamin K is critical for calcium

utilization and regulation. Vitamin K helps proteins bind to calcium and

transports

them to where they are needed in bones, organs, and other tissues. Vitamin K

is also needed in the bone to produce a protein called osteocalcin, which,

as the name suggests, helps bind calcium to the bone.

Low vitamin K status is associated with higher levels of bone turnover and

increased fracture risk, while adequate levels of vitamin K have been

shown to protect from a loss of calcium in the urine. French researchers have

noted in their studies that low vitamin K status predicts the subsequent

risk of hip fracture. So, without adequate vitamin K, more bone is lost and

fracture risk increases. While vitamin K deficiency is common among all ages,

studies show that younger adults and postmenopausal women tend to have

particularly low levels of vitamin K.

Calcium and magnesium

Overall, and through many mechanisms, magnesium is needed for calcium

absorption and bone formation. Magnesium is an essential cofactor in 80% of all

cellular enzymes — including the thyroid hormone calcitonin, which

regulates bone turnover. Magnesium is also needed by the liver enzymes that

convert vitamin D into its active form, known as calcitriol. Recall that

vitamin

D is needed for proper calcium absorption — and magnesium deficiency can

lead to a syndrome known as vitamin D resistance. The activity of another

critical enzyme for bone formation, alkaline phosphatase, also depends on

magnesium. This enzyme is needed to solidify calcium and other soluble factors

into bone. In fact, much of the body’s magnesium (60%) is stored in the

bone, and it is released into the blood when it is needed by other tissues.

Magnesium deficiency is known to impair parathyroid hormone secretion and

action, and contributes to the development of osteopenia and bone fragility.

While it is extremely important to maintain an adequate magnesium intake,

most US adults consume less than 68% of the daily requirement of this

mineral. With all the roles magnesium plays in bone formation, it is not

surprising that even a mild deficiency is considered to be a leading risk factor

for osteoporosis.

It matters what kind of calcium you get

Calcium comes in many different forms. Even with the other nutrients

needed for its absorption, some forms are not as readily absorbed as others.

Women often ask me, “What about this or that type of calcium?†With all the

different kinds of calcium supplements available, how do you choose, and how

should you take them? Use the following points as a guide:

-- Calcium citrate is a highly absorbable calcium compound. This form does

not require the hydrochloric acid (HCl) in the stomach to be absorbed.

Thus, calcium citrate is very readily absorbed or bioavailable, and a good

choice for people with low stomach acid.

-- Calcium ascorbate and calcium carbonate are generally not as easily

absorbed as the citrate forms if stomach HCl is low. However, they are

absorbed quite readily when taken with food.

-- Generally speaking, all types of calcium are absorbed more easily if

taken with meals — no matter what form you choose.

I am sometimes asked my thoughts about microcrystalline hydroxyapatite

(MCHC), an interesting calcium-containing substance derived from animal bones.

This supplement may have its merits (especially for older people, perhaps,

with very low-phosphorus diets, or those who don’t get enough meat or

protein — which are not problems for the average American). It is quite

costly,

its amino acid content varies depending on how it’s processed, it does not

contain magnesium, and there are actually few supportive studies on it. So

all in all, I do not think microcrystalline hydroxyapatite is “way

superiorâ€

to other forms of calcium, and perhaps the premium on it may be somewhat

misplaced.

Regardless of what form you choose, calcium supplements (even MCHC) should

always be balanced with magnesium. I recommend supplementing with at least

half as much magnesium as calcium (a ratio of one part magnesium to two

parts calcium), but my preference as a clinician is for nearly as much

magnesium as calcium. People with inflammatory changes such as osteoarthritis,

in

particular, want to use equal amounts of magnesium and calcium. Some bone

specialists even favor magnesium-centered formulations with equal or

slightly more magnesium than calcium.

Though bioavailability differs among different calcium forms, the type of

calcium you choose may not be as hypercritical as your body’s own ability

to absorb it. This depends on a complex interplay of hormones, nutrients and

other factors. Besides vitamin D, vitamin K, and magnesium, there are

numerous other nutrients that help support your bones (see our detailed page on

20 key nutrients

_http://www.womentowomen.com/bonehealth/20keybonenutrients.aspx_

(http://www.womentowomen.com/bonehealth/20keybonenutrients.aspx)

). Moreover, the body’s innate ability to absorb calcium will vary

significantly from one person to the next. One prominent calcium researcher has

determined that variation in people’s ability to absorb different kinds of

calcium can vary up to threefold!

The dairy dilemma

Here in America, the popular-wisdom solution to our calcium needs is to

eat lots (and lots!) of dairy products. Milk products are high in calcium —

as everyone who has seen the ubiquitous milk-mustache posters knows — so it

seems to make sense to drink plenty of milk or eat yogurt, cheese, and ice

cream.

There are two problems with this logic: first, there are many people who

are lactose-intolerant or otherwise sensitive to proteins in milk, which

means that they have trouble digesting it and aren’t necessarily absorbing

all

that calcium. And second, dairy products are generally acid-forming foods,

which means that taken in excess, and without counterbalancing alkalizing

foods, they tend to promote a pH imbalance in the body that leads to

further calcium loss from the bones. So while dairy products do contain a great

deal of calcium, dairy alone does not provide the **quick fix** to bone

health many Americans assume it does — and if you rely solely on dairy’s

calcium for bone health, you could be in for a letdown!

A balanced approach — how to make calcium work for your bones and your body

Here are some guidelines for making calcium work to strengthen your bones:

-- Rebalance your calcium intake. There are many calcium-rich vegetables

that do double-duty for the bones by alkalizing the system. Beans and other

legumes, such as soy, as well as fish, seeds, and nuts offer additional

choices. See the table above for some of our favorite nondairy calcium-rich

foods.

-- Let the sun shine in! Our bodies were meant to be exposed to sunshine —

but do this in a way that is health-enhancing, not harmful. This will

allow your body to make adequate amounts of vitamin D3 (cholecalciferol).

-- Supplement with vitamin D. For maintaining adequate levels of vitamin D,

1000–2000 IU per day is safe and adequate. If you think you could be

vitamin D-deficient — as are some billion people worldwide — ask your

healthcare provider for vitamin D testing, then supplement accordingly.

-- Increase your intake of vitamin K. Most people get some, but not enough

vitamin K from their diet (from green leafy vegetables and fermented foods

like aged cheese). As a whole, however, we consume suboptimal amounts of

this key bone nutrient. For optimum bone health, supplementation with vitamin

K2 is recommended for nearly everyone. Exceptions include those using the

blood-thinning drug Coumadin (warfarin), as this vitamin can interfere with

the action of blood-thinner drugs.

Again, dairy is a fine addition to your bone health regimen — if tolerated

— but we urge you not to think of it as the centerpiece. And if you do

enjoy dairy foods, we encourage you to choose those that are organically

produced. You and your bones do not need the hormones, pesticide, and

antibiotic

residues found in conventionally produced milk — and organic dairy

products are now widely available.

More than just the milk moustache

When it comes to whole-body health, there are few “silver bullets†— and

calcium isn’t one, either, though it is undeniably important. Historically

and throughout the world today, there are many cultures whose bones remain

strong throughout the lifespan — without the overemphasis on dairy foods

commonplace in America today. By thinking of calcium as only part of a

well-rounded, alkalizing diet and lifestyle, you, too, can create better bones

—

and a better body!

Other resources

United States Department of Agriculture. Agricultural Research Service.

2002. USDA National Nutrient Database for Standard Reference, Release 21.

Calcium, Ca (mg) content of selected foods per common measure, sorted by

nutrient content. URL (PDF):

_http://www.nal.usda.gov/fnic/foodcomp/Data/SR21/nutrlist/sr21w301.pdf_

(http://www.nal.usda.gov/fnic/foodcomp/Data/SR21/nutrlist/sr21w301.pdf)

(accessed 10.13.2008).

Our Personal Program is a great place to start

At the Center for Better Bones we promote an all-natural approach to bone

regeneration and repair that works. Our Personal Program is an at-home

version of this approach, available through an exclusive partnership with Women

to Women, America's premier women's health clinic.

-- Visit the Women to Women website _http://www.womentowomen.com/_

(http://www.womentowomen.com/) to learn more about the Personal Program for

Better

Bones, the at-home version of our natural approach to bone health.

-- Take the Women to Women Bone Health Profile for personalized

recommendations on how to improve your bone health.

-- Learn more about Women to Women and our partnership that's behind the

Personal Program for Better Bones.

Questions about the Personal Program for Better Bones? Call toll-free at

1-877-200-1269.

Original Publication Date: 04/11/2000

Last Modified: 03/15/2010

Principal Author: Dr. E. Brown, PhD

My Note:

Additional Information & Resources

A Look Inside the Cell by noff PhD

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le & id=290:a-look-inside-the-cell-by-andrea-rosanoff & catid=91:calcium-magnesi

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Magnesium and Calcification

A healthy cell has high magnesium and low calcium levels. Calcium can

lodge anywhere in your body and cause serious harm if not balanced with

magnesium, which regulates the action of calcium. For instance, excess calcium

buildup around your bones and joints mimics arthritis. Too much calcium lodged

in your heart imitates arterial lesions. Calcification or calcium

poisoning can manifest as heart disease, cancer, wrinkled skin, kidney stones,

osteoporosis, dental problems, bone spurs, cataracts and many other health

problems. Along with hypomagnesemia, signs of severe magnesium deficiency

included hypocalcemia, low serum potassium levels (hypokalemia), retention of

sodium, low circulating levels of PTH, neurological and muscular symptoms

(tremor, muscle spasms, tetany), loss of appetite, nausea, vomiting, and

personality changes. " increasing magnesium intake increases bones density[7]

[7]

in the elderly and reduces the risk of osteoporosisWhen you load up your

system with excess calcium, you shut down magnesium’s ability to activate

thyrocalcitonin, a hormone that under normal circumstances would send calcium

to your bones.†Magnesium status is important for regulation of calcium

balance through parathyroid hormone-mediated reactions. [12] [12] When it

comes to magnesium and calcium neither can be divided from the other. One

is not divisible from the other in terms of overall effect. They are paired

minerals yet it is magnesium that holds the overall key for their paired

function. 18 References.

_http://magnesiumforlife.com/medical-application/magnesium-and-calcification

/_

(http://magnesiumforlife.com/medical-application/magnesium-and-calcification/)

Calcification and Its Treatment with Magnesium and Sodium Thiosulfate

Magnesium deficiency leads to an increase in myocardial levels of both

sodium and calcium. This is a problem because Coronary Artery calcium is a

predictor of near-term coronary heart disease events. In the face of growing

magnesium deficiencies calcium becomes increasingly more toxic to human

physiology. Unabsorbed calcium can lodge anywhere in our body. For instances,

if it lodges in your bones and joints, it mimics arthritis; if it lodges in

you heart, it mimics arterial lesions. Calcification or calcium poisoning

can manifest as heart disease, cancer, wrinkled skin, kidney stones,

osteoporosis, dental problems, bone spurs, cataracts and many other health

problems. Calcium deposits in the joints are called arthritis; in the blood

vessels it is hardening of the arteries; in the heart it is heart disease, and

in

the brain it is senility. It is magnesium that actually controls bone

density not calcium. While calcium affects muscle contractions, magnesium

balances that effect and relaxes muscles. Calcium tightens the muscles;

magnesium

relaxes the muscles. With insufficient magnesium the muscles stay tense

and through the years may cause a cramp in the muscle. This could happen when

you have too much calcium or too little magnesium. Too much calcium causes

the heart to go into a spasm and it can’t relax. This is a heart attack.

Calcification consists of calcium and phosphorous and is a normal process

for building healthy bones and teeth. But it also plays a

central role in disease conditions such as strokes and heart attacks.The

body borrows calcium from the bones in order to balance pH.

Dr. Dean makes this clear when she says in her book The Magnesium Miracle,

“To understand how you can create a calcium/magnesium imbalance in your

own body, try this experiment in your kitchen. Crush a calcium pill and see

how much dissolves in 1 oz of water. Then crush a magnesium pill and slowly

stir it into the calcium water. When you introduce the magnesium, the

remaining calcium dissolves; it becomes more water-soluble. The same thing

happens in your bloodstream, heart, brain, kidneys, and all the tissues in your

body. If you don’t have enough magnesium to help keep calcium dissolved, you

may end up with calcium-excess muscle spasms, fibromyalgia, hardening of

the arteries, and even dental cavities. Another scenario plays out in the

kidneys. If there is too much calcium in the kidneys and not enough magnesium

to dissolve it, you can get kidney stones.â€

Magnesium inadequacy interferes with cellular metabolism and accelerates

the aging of most human tissues. Most human cells can only replicate a

limited number of times in cultures before they lose the ability to divide, a

phenomenon known as replicative senescence. Recent studies have shown that

culture in low magnesium accelerates the senescence of human endothelial cells

and fibroblasts.[6] Dr. Howenstein says “Calcification in cellular

tissues is a sign of tissue damage, cellular aging and impending cell death.

When cells are unable to regulate calcium and keep the calcium content of

cells down cellular function degenerates. Calcified arteries, calcium in

soft tissues and high levels of calcium within cells are all signs of aging.

At age 80 the average calcium content in the aorta is 140 times greater

than the levels of aortic calcification noted at age 40.â€

High calcium levels interfere with Vitamin D and subsequently inhibit the

vitamin’s cancer protective effect unless extra amounts of Vitamin D are

supplemented.[2]

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ment-with-magnesium-and-sodium-thiosulfate/_

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Strontium and osteoporosis II: On our own

By Sara S. DeHart, MSN, PhD

_http://onlinejournal.com/artman/publish/article_6185.shtml_

(http://onlinejournal.com/artman/publish/article_6185.shtml)