16.2: Calcium

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Almost everyone knows that calcium—the most abundant body mineral—is a basic component of bones and teeth. (The dairy people hardly let us forget.) But most of us tend to liken the human skeleton to the steel framework of a building—solid, fixed, and constructed but once in the original building process. Actually, our bones are constantly changing and interacting with the rest of the body.

Bone is well supplied with blood, and minerals constantly move in and out of bone throughout the lifespan. Furthermore, certain bones contain red marrow, which makes red and white blood cells. Our skeleton is very much alive.

In addition to its functions of support, protection, movement, and blood-cell production, bone serves as a mineral reservoir—about 99% of the body’s calcium, 85% of the body’s phosphorus, and 60% of the body’s magnesium are found in bone. These minerals are crucial to body chemistry. Without calcium, blood can’t clot, muscles can’t contract, and nerve cells can’t send their messages. Phosphorus is a key component of ATP (the energy molecule), and magnesium is needed to regenerate ATP.

Calcium, phosphorus, and magnesium are needed in only tiny amounts for these purposes, but their presence is crucial, and the body is wisely constructed in a way that insures that it never runs out. Whenever there’s a demand to fill the needs for body chemistry, bone minerals are readily mobilized to make up for any shortfall.

Calcium levels are kept quite constant in the blood. Whenever blood calcium rises, one hormone (calcitonin) takes calcium out of the blood and deposits it in bone; whenever blood calcium falls, another hormone (parathormone) draws calcium out of bone (see Fig. 16-2).

Figure 16-1: Minerals in a 130-Pound Adult: Major minerals and the most common trace minerals.

Problems occur when the blood-calcium level gets outside of its narrow range. For example, nerve cells become more easily excitable with an abnormal drop in blood calcium. This can result in tetany, where there’s such a rapid stimulation of muscle nerves that the muscle cramps or “freezes” in contraction.

Some popular health sources falsely attribute tetany to a deficiency of calcium in the diet. We’re easily convinced of this if we’re under the illusion that 99% of body calcium is immutably locked in the skeleton. In fact, dietary calcium doesn’t ordinarily alter blood-calcium levels.

Disturbances in blood calcium come from disturbances in the levels either of vitamin D, or of one of the hormones that regulate the movement of calcium in and out of bone. (We saw in the last chapter that calcium and vitamin D are closely intertwined, and that a deficiency of either can cause the bone diseases rickets and osteomalacia.

Over the long run, we can’t wisely continue to borrow from bone more calcium than we deposit. There will be an over-all loss of calcium, and eventually bone health will be compromised. The object of good nutrition is to provide enough calcium for strong bones, and of course to supply proportionately larger amounts to children and adolescents, whose skeletons are growing. For similar reasons, pregnant or nursing mothers also have greater calcium needs.

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