The Role of the Thyroid Gland Show
Location and size of the thyroid glandThe thyroid is located in the front of the neck just below the Adam’s apple. The thyroid is shaped like a butterfly with its wings spread, and it wraps around the trachea. From top to bottom, the thyroid is about 4 centimeters and weighs less than 20 grams. It is a thin and soft organ. If there is no swelling, the thyroid is difficult to locate by touch. However, if it swells slightly, you will be able feel it with your fingers. If the thyroid becomes larger, the swelling can be identified visually.
Thyroid FunctionVarious types of hormones are produced in the human body, such as estrogens, androgens, and corticosteroids. Organs that produce hormones are called endocrine organs. The thyroid is an endocrine organ and functions to produce thyroid hormones made from iodine contained in food (primarily seaweed). What are thyroid hormones?Proteins, fats, and carbohydrates consumed in food are metabolized and used as materials to make tissues and as sources of energy for the body to move. Thyroid hormones stimulate and facilitate these metabolic processes. In addition, thyroid hormones also play an important role in fetal development and childhood growth. There are two types of thyroid hormones: thyroxine (T4) and triiodothyronine (T3). T4 contains four iodine atoms while T3 contains three iodine atoms. The thyroid primarily synthesizes T4. When T4 is converted into T3 in the liver, it becomes an activated hormone. Most T4 and T3 are attached to proteins in the blood. The thyroid hormones that have effects on the body are free T4 (FT4) and free T3 (FT3), which are not attached to proteins. Blood tests can confirm the amounts these hormones. The role of the pituitary glandThe body has a mechanism for maintaining stable thyroid hormone levels in the blood. This mechanism is controlled by thyroid-stimulating hormone (TSH) which is secreted by the pituitary gland at the base of the brain. TSH works to stimulate the thyroid and promote the secretion of thyroid hormones T4 and T3. When thyroid hormones (T4 and T3) are in excess in the bloodstream, TSH secretion from the pituitary gland is suppressed, thereby reducing the secretion of T4 and T3. In contrast, when blood levels of T4 and T3 are low, TSH secretion increases to promote the secretion of T4 and T3. This feedback mechanism maintains T4 and T3 levels within a proper range. The thyroid gland's main function is to regulate your metabolism. It produces hormones that help control your heart and digestive system. In infants, thyroid hormones help the brain and bones develop. A normal functioning thyroid gland is critical to the development of children and to both the long-term and minute-to-minute well-being of adults. Thyroid HormonesThe thyroid is a butterfly-shaped organ located at the base of the neck in front of the trachea (windpipe). Measuring about 2 inches wide and weighing 20 to 60 grams, the thyroid's function is to make hormones that are vitally important to the body’s metabolism, growth, and development. The thyroid produces and releases two major hormones—thyroxine (T4) and triiodothyronine (T3). These hormones help to regulate many crucial bodily functions such as:
Verywell / Jessica Olah Iodine FactorThe distinguishing feature of these hormones is that they contain iodine atoms; T3 has three iodine atoms and T4 has four. Accordingly, the thyroid gland is unique in its specialized ability to pick up iodine from your bloodstream in order to incorporate it into your thyroid hormones. Because iodine isn't produced by the body naturally, it's important to make sure you're getting enough through your diet in order to keep your thyroid functioning well. T4 ProductionAll T4 in your body is produced by the thyroid gland—about 80 to 100 micrograms (mcg) per day. Roughly 10 times that amount of T4, about 1000 mcg, is constantly circulating in your blood. More than 99 percent of the circulating T4 is bound to proteins in the plasma, chiefly, to thyroid-binding globulin (TBG), where it can be released if it's needed. Only the small proportion of circulating T4 that is unbound, known as free T4, is immediately available for your body to use. T4 Conversion ProcessAbout 10 percent of the circulating T4, equivalent to the amount of new T4 released daily by your thyroid gland, is degraded each day. Generally, around half of this amount is converted to T3 by cleaving off one of its four iodine atoms. The remainder is converted to reverse T3 (rT3) by cleaving off an iodine atom from a different location. The thyroid's active hormone is T3, while rT3 is completely inactive. T3 ProductionOnly about 20 percent of the T3 in your body, about 30 to 40 mcg per day, is produced by the thyroid gland. The other 80 percent is produced from T4 within the tissues, particularly by your kidneys, liver, muscle, brain, skin, and, when applicable, the placenta. T3 is degraded much more rapidly than T4. Here's a useful way to look at the thyroid hormones:
What Happens in Your BodyThyroid hormones have an impact on every cell and every organ. Specifically, T3 directly controls the production of various proteins made by your body’s cells. T3 does this by binding to a cell’s DNA. Free T4 and free T3 circulating in your blood are available to immediately enter your body’s cells whenever they're needed; for instance, when you're cold or when your body is digesting food. Some of the intracellular T4 is converted to T3, and some of the T3 binds to specific T3-receptors in the nucleus of the cell. This bound T3 causes nuclear DNA to stimulate (or inhibit) the production of specific proteins. Among these proteins are various enzymes that, in turn, control the behavior of many important bodily functions mentioned above, such as how quickly your food is digested, your heart rate, body temperature, and how fast calories are burned. Though thyroid hormones regulate DNA in this way in all cases, different cells in your body have different kinds of T3-nuclear receptors and in different concentrations. As such, the effect of T3 on a cell is quite variable from tissue to tissue and under various circumstances. Thyroid System RegulationAny time a physiological system is this critical, there are complex layers of regulation aimed at assuring that it is finely tuned to do what it needs to do and that its function is controlled within a narrow range. This is certainly true when it comes to the thyroid, which is part of the endocrine system. Here's a brief look at the major layers of thyroid regulation: Pituitary-Thyroid AxisThe pituitary-thyroid axis provides the chief control over the thyroid gland itself. The pituitary gland, which is located deep within the brain, releases a thyroid stimulating hormone (TSH), causing the thyroid gland to increase its production and release of T3 and T4. At the same time, circulating thyroid hormone, specifically T3, inhibits TSH production by the pituitary gland, thus forming a negative feedback loop. So, as T3 blood levels increase, TSH levels fall. This feedback loop operates to keep the production of thyroid hormone by your thyroid gland within a narrow range. Hypothalamus-Pituitary AxisThe pituitary gland is also prompted to release TSH when the hypothalamus releases thyrotropin-releasing hormones (TRH). The hypothalamus is a primitive part of the brain that coordinates many of your body’s basic functions and responds to numerous stimuli, including light and dark, smell, autonomic tone, several hormones, emotional stress, and neural inputs from the heart and gut. Hormone release from the hypothalamus. When the hypothalamus releases TRH, this causes the pituitary gland to release more TSH, which in turn increases thyroid hormone production. Thus, thyroid hormone production is dependent on both TSH and on what the hypothalamus is “thinking and feeling” about the overall condition of your body and the environment. Protein BindingAs mentioned previously, over 99 percent of the thyroid hormone in your bloodstream is bound to proteins in your blood, chiefly TBG, rendering the hormone inactive. Only free T4 and T3 have any physiologic activity. This protein binding of the thyroid hormones serves several critical regulatory functions:
Intracellular RegulationAs we have seen, T3 and T4 do their important work inside of your cells. Their normal functioning within cells—including their transport across the cell membrane from the blood to the interior of the cells, the conversion of T4 to T3, the crossing of T3 into the cell’s nucleus, and the binding of T3 to DNA—is dependent on a myriad of regulatory and transport proteins inside the cells whose identities and characteristics are still being discovered. In summary, the thyroid system is regulated at many levels:
Thyroid DisordersGiven the complexity of all of this, it probably isn't hard to imagine that there's a lot of opportunity for something to go wrong. Thyroid disorders can occur with diseases affecting the thyroid gland itself or with conditions affecting the hypothalamus, pituitary, or blood proteins, or even with disorders affecting the handling of thyroid hormones by various tissues of the body. In general, disorders of the thyroid system tend to cause thyroid function to become either underactive (hypothyroid) or overactive (hyperthyroid). In addition to these general problems, the thyroid gland can become grossly enlarged, a condition called a goiter, and people can develop cancer of the thyroid. Any of these conditions are potentially very serious. SymptomsThe symptoms of thyroid disease can be quite variable from individual to individual. Common symptoms of hypothyroidism often include:
Common symptoms of hyperthyroidism include:
DiagnosisDiagnosing a thyroid disorder requires a careful analysis of screening thyroid blood tests and additional testing if a thyroid condition is suspected. In diagnosing a thyroid disorder, assessing the pituitary-thyroid relationship is particularly critical. This can generally be done by measuring the amount of total T3 and free T4 in your blood, as well as your TSH blood levels. In some cases, the proper interpretation of TSH levels can be tricky and controversial. If your TSH levels are elevated and your free T4 levels are low, this likely indicates that your thyroid gland is not producing enough hormone and your pituitary gland is attempting to whip up its function, which may indicate hypothyroidism. However, in rare instances high TSH levels could also be related to a pituitary tumor. If your TSH levels are low and your free T4 levels are high, it may mean that your thyroid gland is producing too much thyroid hormone, but low TSH levels could also signify pituitary disease. Your endocrinologist should be able to provide a comprehensive diagnosis for you and may recommend additional testing if necessary. A Word From VerywellThe thyroid gland and the hormones it produces are critically important to human development and a healthy life. The critical nature of thyroid function is reflected in the complex mechanisms that nature has established for the regulation of thyroid hormones. Because the thyroid system is so important to our everyday functioning, it's crucial to properly diagnose and treat any problems that occur. If you have symptoms of either hypothyroidism or hyperthyroidism, be sure to tell your healthcare provider so you can be tested. What does the thyroid gland produce and secrete?What is a thyroid gland? The thyroid gland is an endocrine gland in your neck. It makes two hormones that are secreted into the blood: thyroxine (T4) and triiodothyronine (T3). These hormones are necessary for all the cells in your body to work normally.
What are the 3 functions of the thyroid gland?Thyroid hormone (T3 and T4) affects every cell and all the organs in your body by:. Regulating the rate at which your body uses calories (energy). ... . Slowing down or speeding up your heart rate.. Raising or lowering your body temperature.. Influencing the speed at which food moves through your digestive tract.. What is thyroid gland and its function?The thyroid gland is a vital hormone gland: It plays a major role in the metabolism, growth and development of the human body. It helps to regulate many body functions by constantly releasing a steady amount of thyroid hormones into the bloodstream.
What does the thyroid gland secrete quizlet?what hormones does the thyroid gland secrete? -secretes thyroxine (T4), triiodothyronine (T3), and calcitonin.
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