The thyroid gland, is a very vascular structure that consists of two large lobes connected by a broad isthmus. It is located just below the larynx on either side and in front of the trachea. It has a special ability to remove iodine from the blood.
Structure of the Gland
The thyroid gland is covered by a capsule of connective tissue and is made up of many secretory parts called follicles. The cavities of the follicles are lined with a single layer of Cuboidal epithelial cells and are filled with a clear, viscous Glycoprotein called colloid. The follicle cells produce and secrete hormones that may be stored in the colloid or released into the blood of nearby capillaries.
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| Structure of the Gland |
Thyroid Hormones and Their Functions
The thyroid gland produces several hormones that have marked effects on the metabolic rates of most body cells and one hormone that influences the level of blood calcium. Of the hormones that affect metabolic rates, the most important are thyroxine and triiodothyronine.
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| Thyroxine and Triodothyronine |
They act to increase the rate of energy release from carbohydrates and the rate of protein synthesis. They also accelerate growth in young persons and stimulate activities of the nervous system. As was explained earlier, the release of these hormones is controlled by the hypothalamus and pituitary gland.
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| Thyroid Gland |
Before follicle cells can produce thyroxine and triiodothyronine, they must be supplied with iodine salts (iodides). Such salts are normally obtained from foods, and after they have been absorbed from the intestine, they are carried by the blood to the thyroid gland.
An efficient active transport mechanism called the iodine pump moves the iodides into the follicle cells, where they are used together with an amino acid (tyrosine) in the synthesis of the hormones Follicle cells also secrete the substance called thyroglobulin, which is the main ingredient of thyroid colloid.
Thvroglobulin is used to store thyroid hormones whenever they are produced in excess. The stored hormones are bonded to the thyroglobulin until the hormone concentration of the body fluids drops below a certain level; then enzymes cause the hormones to be released from the colloid, and they diffuse into the blood.
Once they are in the blood, thyroid hormones combine with blood proteins (alpha globulins) and are transported to body cells in this form.
Although triiodothyronine is nearly five times more potent, thyroxine accounts for at least 95% of the circulating thyroid hormone.
The thyroid hormone that influences blood calcium levels is a polypeptide called calcitonin.
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| Calcitonin |
This substance helps regulate the calcium level by inhibiting the rate at which calcium leaves the bones and enters the extracellular fluids.
This is accomplished by decreasing the bone resorbing activity of osteoclasts. At the same time, calcitonin causes an increase in the rate of calcium deposit in bone matrix by stimulating the activity of osteoblasts.
Thus, calcitonin acts to lower the concentration of blood calcium—an effect exactly opposite that promoted by parathyroid hormone.
The secretion of calcitonin is thought to be controlled directly by the blood calcium level. As this level increases, so does the secretion of calcitonin.
Following chart reviews the actions and controls of the thyroid hormones -
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| Actions and controls of the thyroid hormones |
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