Why I don’t Take Calcium–#2

In Why I don’t Take Calcium–#1″, we learned that, according to research, taking calcium supplements and/or increasing dietary intake of calcium does not reduce the risk of bone fracture. Also, that an excess build up of calcium in the body can increase the risk of heart disease, cancer, high blood pressure, stroke, and other degenerative diseases.

There’s no doubt that bones need calcium to build new bones, but Dr. Levy, in his book Death by Calcium, states that “Calcium migration from the bone is not the cause of osteoporosis, but rather a symptom of it.” So, then, what is the root cause?

It might surprise you to find out (it did me) that a vitamin C deficiency in the bone can lead to a severe loss of bone-building cells and an increase in bone-dissolving cells. Vitamin C acts as an anti-oxidant to protect bones from cellular damage, which contributes to osteoporosis. Studies have confirmed that oxidative stress plays a role in the cause of osteoporosis.

Collagen is necessary in both the formation and strengthening of new bone. Vitamin C is essential to making collagen.

Clinical observations show that a vitamin C deficiency decreases calcium deposition into bones and increases calcium excretion from bones. The excreted calcium can accumulate in other tissues, like arterial walls.

There is a loss of estrogen during menopause, which results in a loss of calcium from bones. Vitamin C has been shown to strengthen bones in both post-menopausal women and lab rats who had their ovaries removed to induce menopause.

The Framingham Osteoporosis Study found that those with the highest vitamin C intake had significantly fewer hip fractures compared to those with the lowest intake.

Research continues to find that the combination of excess calcium and vitamin C deficiency is found at the tissue sites of chronic degenerativediseases. Excess calcium deposits contribute to oxidative stress, and vitamin C is an anti-oxidant to help prevent damage caused by this stress. When oxidative stress is kept in check, calcium can stay in the bones.

In the case of atherosclerosis, the body uses calcium from the blood to produce plaque in the arteries to support weak vessels (due to chronic oxidative stress). The body then pulls calcium from bones into the bloodstream so it will be available for more arterial repair. Sufficient vitamin C levels would help reduce this stress on the arteries, diminishing the need for more calcium to support the arteries.

Besides the coronary arteries, excess blood calcium can be deposited into cells throughout the body (brain, breasts, prostate, etc.). Excess blood calcium can come from dietary calcium, calcium supplements, and/or calcium pulled out of bones. When there are optimal levels of vitamin C present, dietary calcium is deposited into the bones, and any excess is excreted via the kidneys.

Eliminating a vitamin C deficiency is one important step toward improving bone health, as well as reducing the risk of other chronic diseases.

In the next newsletter, I’ll explore various types and benefits of vitamin C supplements and their therapeutic uses.

Keep learning to be healthy!

Lisa Hernandez, Certified Nutritionist & Health Coach


1 Corinthians 10:31–“Whatever you eat or drink, or whatever you do, do it all for God’s glory!”

This information is for educational purposes only and is not intended to diagnose, treat, cure, or prevent disease. It does not take the place of any medical care that you may need. Consult your health care provider about making dietary and lifestyle changes that are right for you.