Calcium is what makes the bones in your body stronger. Strong bones help prevent osteoporosis, a disease in which bones become fragile and break easily. 99% of the calcium in your body is stores in your bones, and in later years, having an adequate calcium diet is essential in reducing calcium-loss.
There is a very strong relationship between calcium and bones. That is, calcium is one of the nutrients that helps bones stay hard. A lack of calcium will result in brittle bones and osteoporosis.
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True, blood calcium is very tightly regulated there are two types of bone cells that will either take up excess calcium if blood levels get too high or break down bone to release calcium if blood levels get to low. Both of these bone cells are controlled by the endocrine system in the body.
Parathyroid hormone (PTH), released by the parathyroid gland; and calcitonin, released by the thyroid gland, control the levels of phosphorus in the body. Most of the phosphorus in the body is stored in the form of phosphate (PO4) attached to calcium in the skeletal systems to form calcium phosphate [Ca3(PO4)2]. When PTH is released, excess phosphate is released into the urine and calcium is released from the skeletal system into the bloodstream. The calcitonin plays its part by helping form calcium phosphate molecules, where they become part of a mineral matrix in the bone. Because of the relationship between PTH and calcitonin, calcium and phosphate maintain proportionally inverse levels in the blood.
When blood calcium levels are low, it means that calcium is not being reabsorbed in the intestine or released from the bones. This could lead to uncontrollable twitching, known as a disorder called tetany, caused by low blood calcium levels.
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Parathyroid hormone opposes the effect of calcitonin, a hormone produced by the thyroid gland that regulates calcium levels. It removes calcium from its storage sites in bones and releases it into the bloodstream.
Yes the pH levels are different
True, blood calcium is very tightly regulated there are two types of bone cells that will either take up excess calcium if blood levels get too high or break down bone to release calcium if blood levels get to low. Both of these bone cells are controlled by the endocrine system in the body.
There is a direct relationship between management levels and Maslow's hierarchy of needs. It is a theory of human motivation which emphasizes on describing the stages of growth in human.
It increases the concentration of calcium in the blood. Calcitonin decreases blood calcium levels.
Parathyroid hormone (PTH), released by the parathyroid gland; and calcitonin, released by the thyroid gland, control the levels of phosphorus in the body. Most of the phosphorus in the body is stored in the form of phosphate (PO4) attached to calcium in the skeletal systems to form calcium phosphate [Ca3(PO4)2]. When PTH is released, excess phosphate is released into the urine and calcium is released from the skeletal system into the bloodstream. The calcitonin plays its part by helping form calcium phosphate molecules, where they become part of a mineral matrix in the bone. Because of the relationship between PTH and calcitonin, calcium and phosphate maintain proportionally inverse levels in the blood.
When calcium levels increase, parathyroid hormone decreases. When calcium levels decrease, parathyroid hormone increases. This is known as a negative feedback system.
Blood
When blood calcium levels are low, it means that calcium is not being reabsorbed in the intestine or released from the bones. This could lead to uncontrollable twitching, known as a disorder called tetany, caused by low blood calcium levels.