Show transcribed image text Endocrine System Study Guide 1. Pituitary gland They inchude 3. Thyroid gland eland S. Adrenal glands Some organs contain endocrine cells thus act as glands 2.
Testes Refer to Toble 17.2 on page 656 and released in one part of the body that are caried by the blood to another part of the cause an effect are called Functions of the system: nontostasis boed compouit a. Glucose, calcium, potassium, sodium, chloride, POs, RBC's, WBC's, platelets 1. Maintain development and function 2.
Regulate our development, growth, and el abalism 4. Control process systems regulate homeostasisl RECALL: Endocrine and Nervous System Endocrine System Hormones (blood) Other neurons & effectors Release Target Reaction Effect Duration Quick Long-lasting (minutes-weeks).
Despite the huge variety of hormones, there are really only two mechanisms by which hormones trigger changes in cells. The endocrine system controls water by regulating the solute concentration of the blood. Growth, metabolism, and tissue maturation. The endocrine system controls the growth of many tissues, like the bone and, and the degree of metabolism of various tissues, which aids in the maintenance of the normal body temperature and normal mental functions. Maturation of tissues, which appears in the development of adult features and adult behavior, are also determined by the endocrine system.
Heart rate and management. The endocrine system assists in managing the heart rate and and aids in preparing the body for physical motion. Immune system control. The endocrine system helps regulate the production and functions of immune cells. Reproductive function controls. The endocrine system regulates the development and the functions of the reproductive systems in males and females. Uterine contractions and milk release. The endocrine system controls uterine contractions throughout the of the and stimulates milk release from the breasts in lactating females.
Ion management. The endocrine system regulates Na +, K +, and Ca 2+ concentrations in the blood. Blood regulator. The endocrine system controls blood levels and other nutrient levels in the blood. Direct gene activation. Being lipid-soluble molecules, the steroid hormones can diffuse through membranes of their target cells; once inside, the steroid hormone enters the nucleus and binds to a specific receptor protein there; then, the hormone-receptor complex binds to specific sites on the cell’s DNA, activating certain genes to transcribe messenger RNA; the mRNA then is translated in the cytoplasm, resulting in the synthesis of new proteins. Second messenger system.
Water-soluble, nonsteroidal hormones-protein, and peptide hormones- are unable to enter the target cells, so instead, they bind to receptors situated on the target cell’s membrane and utilize a second messenger system. Anatomy of the Endocrine System Compared to other organs of the body, the organs of the endocrine system are small and unimpressive, however, functionally the endocrine organs are very impressive, and when their role in maintaining body is considered, they are true giants. The major endocrine organs of the body include the pituitary, thyroid, parathyroid, adrenal, pineal and thymus glands, the, and the gonads. The, which is part of the, is also considered as a major endocrine organ because it produces several hormones. It is an important autonomic and endocrine control center of the located inferior to the. Mixed functions.
Although the function of some hormone-producing glands is purely endocrine, the function of others ( and gonads) is mixed- both endocrine and exocrine. Pituitary Gland The pituitary gland is approximately the size of a pea. The pituitary gland hangs by a stalk from the inferior surface of the of the, where it is snugly surrounded by the “Turk’s saddle” of the. It has two functional lobes- the anterior pituitary (glandular tissue) and the posterior pituitary (nervous tissue). Hormones of the Anterior Pituitary There are several hormones of the anterior pituitary hormones that affect many body organs. Growth hormone (GH).
Growth hormone is a general metabolic hormone, however, its major effects are directed to the growth of skeletal muscles and long of the body; it is a protein-sparing and anabolic hormone that causes amino acids to be built into proteins and stimulates most target cells to grow in size and divide. Is a protein hormone structurally similar to growth hormone; its only known target in humans is the breast because, after childbirth, it stimulates and maintains milk production by the mother’s breast. Adrenocorticotropic hormone (ACTH). ACTH regulates the endocrine activity of the cortex portion of the adrenal gland. Thyroid-stimulating hormone (TSH). TSH, also called thyrotropin hormone influences the growth and activity of the thyroid gland.
Gonadotropic hormones. The gonadotropic hormones regulate the hormonal activity of gonads (ovaries and testes). Follicles-stimulating hormone (FSH). FSH stimulates follicle development in the ovaries; as the follicles mature, they produce and eggs that are readied for ovulation; in men, FSH stimulates sperm development by the testes. Luteinizing hormone (LH).
LH triggers ovulation of an egg from the ovary and causes the ruptured follicle to produce and some; in men, LH stimulates production by the interstitial cells of the testes. Hormones of the Posterior Pituitary The posterior pituitary is not an endocrine gland in the strict sense because it does not make the peptide hormones it releases, but it simply acts as a storage area for hormones made by hypothalamic. Is released in significant amount only during childbirth and in nursing women; it stimulates powerful contractions of the uterine during, during sexual relations, and during and also causes milk ejection (let-down reflex) in a nursing woman. ADH causes the kidneys to reabsorb more water from the forming of; as a result, urine volume decreases and blood volume increases; in larger amounts, ADH also increases by causing constriction of the arterioles, so it is sometimes referred to as vasopressin.
Thyroid Gland The thyroid gland is a hormone-producing gland that is familiar to most people primarily because many obese individuals blame their overweight condition on their “glands” (thyroid). The thyroid gland is located at the base of the throat, just inferior to the Adam’s apple, where it is easily palpated during a physical examination. It is a fairly large gland consisting of two lobes joined by a central mass, or isthmus. Composition. Internally, the thyroid gland is composed of hollow structures called follicles, which store a sticky colloidal material. Types of thyroid hormones.
Thyroid hormone often referred to as the body’s major metabolic hormone, is actually two active, iodine-containing hormones, thyroxine or T4, and triiodothyronine or T3. Thyroxine is the major hormone secreted by the thyroid follicles. Triiodothyronine. Most triiodothyronine is formed at the target tissues by conversion of the thyroxine to triiodothyronine. Thyroid hormone controls the rate at which glucose is “burned” oxidized, and converted to body heat and chemical energy; it is also important for normal tissue growth and development. Calcitonin. Calcitonin decreases blood levels by causing to be deposited in the; calcitonin is made by the so-called parafollicular cells found in the connective tissues between the follicles.
The are mostly tiny masses of glandular tissue. The are located on the posterior surface of the thyroid gland. Parathormone.
The parathyroids secrete parathyroid hormone (PTH) or parathormone, which is the most important regulator of ion of the blood; PTH is a hypercalcemic hormone (that is, it acts to increase blood levels of ), whereas calcitonin is a hypocalcemic hormone.; PTH also stimulates the kidneys and intestines to absorb more. Adrenal Glands Although the adrenal gland looks like a single organ, it is structurally and functionally two endocrine organs in one. Hormones of the Adrenal Cortex The adrenal cortex produces three major groups of steroid hormones, which are collectively called corticosteroids– mineralocorticoids, glucocorticoids, and sex hormones.
Mineralocorticoids. The mineralocorticoids, primarily aldosterone, are produced by the outermost adrenal cortex cell layer; mineralocorticoids are important in regulating the mineral (or salt) content of the blood, particularly the concentrations of and ions and they also help in regulating the water and electrolyte balance in the body. Renin, am enzyme produced by the kidneys when the drops, also cause the release of aldosterone by triggering a series of reactions that form angiotensin II, a potent stimulator of aldosterone release. Atrial natriuretic peptide (ANP). ANP prevents aldosterone release, its goal being to reduce blood volume and.
Glucocorticoids. The middle cortical layer mainly produces glucocorticoids, which include cortisone and cortisol; glucocorticoids promote normal cell metabolism and help the body to resist long-term stressors, primarily by increasing blood glucose levels, thus it is said to be a hyperglycemic hormone; it also reduce and inflammation by inhibiting some -causing molecules called prostaglandins. Sex hormones. Both male and female sex hormones are produced by the adrenal cortex throughout life in relatively small amounts; although the bulk of sex hormones produced by the innermost cortex layer are (male sex hormones), some estrogens (female sex hormones), are also formed. Hormones of the Adrenal Medulla The adrenal medulla, like the posterior pituitary, develops from a knot of nervous tissue. Catecholamines.
When the medulla is stimulated by sympathetic, its cells release two similar hormones, also called adrenaline, and ( noradrenaline), into the bloodstream; collectively, these hormones are referred to as catecholamines. Basically, the Catecholamines increase heart rate, blood pressure, and blood glucose levels and dilate the small passageways of the; the catecholamines of the adrenal medulla prepare the body to cope with a brief or short-term stressful situation and cause the so-called alarm stage of the response. Pancreatic Islets The, located close to the in the abdominal cavity, is a mixed gland. Islets of Langerhans.The islets of Langerhans also called pancreatic islets, are little masses of hormone-producing tissue that are scattered among the enzyme-producing acinar tissue of the. Two important hormones produced by the islet cells are and. Islet cells.
Islet cells act as fuel sensors, secreting and appropriately during fed and fasting states. Beta cells. High levels of glucose in the blood stimulate the release of insulin from the beta cells of the islets.
Alpha cells. ‘s release by the alpha cells of the islets is stimulated by low blood glucose levels. Insulin acts on just about all the body cells and increases their ability to transport glucose across their membranes; because insulin sweeps glucose out of the blood, its effect is said to be hypoglycemic. Glucagon acts as an antagonist of insulin; that is, it helps to regulate blood glucose levels but in a way opposite that of insulin; its action is basically hyperglycemic and its primary target organ is the, which it stimulates to break down stored glycogen into glucose and release the glucose into the blood. Pineal Gland The pineal gland, also called the pineal body, is a small cone-shaped gland.
The pineal gland hangs from the roof of the third of the. Melatonin is the only hormone that appears to be secreted in substantial amounts by the pineal gland; the levels of melatonin rise and fall during the course of the day and night; peak levels occur at night and make us drowsy as melatonin is believed to be the “sleep trigger” that plays an important role in establishing the body’s day-night cycle. The is large in infants and children and decreases in size throughout adulthood. The is located in the upper thorax, posterior to the. The thymus produces a hormone called thymosin and others that appear to be essential for normal development of a special group of (T-, or ) and the immune response.
Gonads Main Article: and The female and male gonads produce sex hormones that are identical to those produced by adrenal cortex cells; the major difference are the source and relative amount produced. Hormones of the Ovaries The female gonads or ovaries are a pair of almond-sized organs. The female gonads are located in the pelvic cavity. Steroid hormones. Besides producing female sex cells, ovaries produce two groups of steroid hormones, and.
Alone, the estrogens are responsible for the development of sex characteristics in women at puberty; acting with, estrogens promote breast development and cyclic changes in the uterine lining. Acts with to bring about the; during pregnancy, it quiets the muscles of the uterus so that an implanted embryo will not be aborted and helps prepare breast tissue for lactation.
Hormones of the Testes The testes of the male are paired oval organs in a sac. The testes are suspended in a sac, the scrotum, outside the pelvic cavity. Male sex hormones. In addition to male sex cells, or sperm, the testes also produce male sex hormones, or, of which is the most important.
At puberty, promotes the growth and maturation of the reproductive system organs to prepare the young man for reproduction; it also causes the male’s secondary sex characteristics to appear and stimulates male sex drive; is also necessary for the continuous production of sperm. Other Hormone-Producing Tissues and Organs Besides the major endocrine organs, pockets of hormone-producing cells are found in fatty tissue and in the walls of the small, stomach, kidneys, and heart- organs whose chief functions have little to do with hormone production. The is a remarkable organ formed temporarily in the uterus of pregnant women. In addition to its roles as the respiratory, excretory, and nutrition systems for the fetus, it also produces several proteins and steroid hormones that help to maintain the pregnancy and pave the way for of the baby. During very early pregnancy, a hormone called human (hCG) is produced by the developing embryo and then by the fetal part of the; hCG stimulates the ovaries to continue producing and so that the lining of the uterus is not sloughed off in the menses. Human placental lactogen (hPL). HPL works cooperatively with and in preparing the breasts for lactation.
Relaxin, another placental hormone, causes the mother’s pelvic ligaments and the pubic symphysis to relax and become more flexible, which eases birth passage. Physiology of the Endocrine System Although hormones have widespread effects, the major processes they control are reproduction, growth, and development; mobilizing the body’s defenses against stressors; maintaining electrolyte, water, and nutrient balance of the blood; and regulating cellular metabolism and energy balance. The Chemistry of Hormones The key to the incredible power of the endocrine glands is the hormones they produce and secrete. Hormones may be defined as chemical substances that are secreted by endocrine cells into the extracellular fluids and regulate the metabolic activity of other cells in the body. Classification. Although many different hormones are produced, nearly all of them can be classified chemically as either amino acid-based molecules (including proteins, peptides, and ) or steroids.
Steroid hormones. Steroid hormones (made from cholesterol) include the sex hormones made by the gonads and hormones produced by the adrenal cortex.
Amino acid-based hormones. All the others are nonsteroidal amino acid derivatives. Mechanisms of Hormone Action Although the blood-borne hormones circulate to all the organs of the body, a given hormone affects only certain tissue cells or organs. Target cells. For a target cell to respond to the hormone, specific protein receptors must be present on its plasma membrane or in its interior to which that hormone can attach; only when this binding occurs can the hormone influence the workings of cells. Function of hormones.
The hormones bring about their effects on, the body cells primarily by altering cellular activity- that is, by increasing or decreasing the rate of a normal, or usual, metabolic process rather than stimulating a new one. Changes in hormone binding. The precise changes that follow hormone binding depend on the specific hormone and the target cell type, but typically one or more of the following occurs:. Changes in plasma membrane permeability or electrical state. Synthesis of protein or certain regulatory molecules (such as enzymes) in the cell.’.
Activation or inactivation of enzymes. Stimulation of mitosis. Promotion of secretory activity.
Control of Hormone Release What prompts the endocrine glands to release or not release their hormones?. Negative feedback mechanisms. Negative feedback mechanisms are the chief means of regulating blood levels of nearly all hormones.
Endocrine gland stimuli. The stimuli that activate the endocrine organs fall into three major categories- hormonal, humoral, and neural. Hormonal stimuli. The most common stimulus is a hormonal stimulus, in which the endocrine organs are prodded into action by other hormones; for example, hypothalamic hormones stimulate the anterior pituitary gland to secrete its hormones, and many anterior pituitary hormones stimulate other endocrine organs to release their hormones into the blood.
Humoral stimuli. Changing blood levels of certain ions and nutrients may also stimulate hormone release, and this is referred to as humoral stimuli; for example, the release of parathyroid hormone (PTH) by cells of the parathyroid glands is prompted by decreasing blood calcium levels. Neural stimuli. In isolated cases, nerve fibers stimulate hormone release, and the target cells are said to respond to neural stimuli; a classic example is sympathetic stimulation of the adrenal medulla to release and during periods of. Practice Quiz: Endocrine System Anatomy and Physiology Here’s a 10-item quiz about the study guide.
This is a function of the peripheral circulation wherein the system directs blood to tissues when increased blood flow is required to maintain homeostasis. A: The endocrine system helps control the production and function of the immune cells. B: The endocrine system helps controls the development and functions of the reproductive systems in males and females. C: The endocrine system helps regulate heart rate and blood pressure and helps prepare the body for physical exertion. D: The endocrine system regulates water balance by controlling the solute concentration of the blood. D: T3 and T4 are released throughout the body to direct the body's metabolism.
They stimulate all cells within the body to increase metabolic rate. A: Insulin lowers blood glucose levels, and promotes the formation of glycogen. B: Calcitonin is a hormone that the C-cells in the thyroid gland produces and release. It opposes the action of the parathyroid hormone, helping to regulate the blood’s calcium and phosphate levels.
C: Body growth is controlled by growth hormone (GH), produced by the anterior pituitary gland. C: Follicle-stimulating hormone stimulates the growth of ovarian follicles in the ovary in females and acts on the Sertoli cells of the testes to stimulate sperm production (spermatogenesis) in males.
A: Luteinizing hormone. For women, the hormone stimulates the ovaries to produce oestradiol. For men, it stimulates the production of testosterone from Leydig cells in the testes B: The primary function of somatostatin is to inhibit the production of other hormones and also prevent the unnatural rapid reproduction of cells (such as those in tumors).
D: Thymosin enhances the ability of the immune system to function. A: Somatomedin C also called, insulin-like growth factor 1 (IGF-1), is a protein that plays an important role in childhood growth and continues to have anabolic effects in adults.
B: Gonadotropins are hormones that bind to membrane-bound receptors on the cells of the gonads. C: Prostaglandins play an important role in regulating smooth muscle contraction and inflammation. D: Prolactin helps promote the development of the breast during pregnancy and stimulates the production of milk in the breast following pregnancy. This is a function of the peripheral circulation wherein the system directs blood to tissues when increased blood flow is required to maintain homeostasis. A: The endocrine system helps control the production and function of the immune cells. B: The endocrine system helps controls the development and functions of the reproductive systems in males and females. C: The endocrine system helps regulate heart rate and blood pressure and helps prepare the body for physical exertion.
D: The endocrine system regulates water balance by controlling the solute concentration of the blood. D: T3 and T4 are released throughout the body to direct the body's metabolism. They stimulate all cells within the body to increase metabolic rate. A: Insulin lowers blood glucose levels, and promotes the formation of glycogen.
B: Calcitonin is a hormone that the C-cells in the thyroid gland produces and release. It opposes the action of the parathyroid hormone, helping to regulate the blood’s calcium and phosphate levels. C: Body growth is controlled by growth hormone (GH), produced by the anterior pituitary gland. C: Follicle-stimulating hormone stimulates the growth of ovarian follicles in the ovary in females and acts on the Sertoli cells of the testes to stimulate sperm production (spermatogenesis) in males. A: Luteinizing hormone. For women, the hormone stimulates the ovaries to produce oestradiol.
For men, it stimulates the production of testosterone from Leydig cells in the testes B: The primary function of somatostatin is to inhibit the production of other hormones and also prevent the unnatural rapid reproduction of cells (such as those in tumors). D: Thymosin enhances the ability of the immune system to function.
A: Somatomedin C also called, insulin-like growth factor 1 (IGF-1), is a protein that plays an important role in childhood growth and continues to have anabolic effects in adults. B: Gonadotropins are hormones that bind to membrane-bound receptors on the cells of the gonads. C: Prostaglandins play an important role in regulating smooth muscle contraction and inflammation. D: Prolactin helps promote the development of the breast during pregnancy and stimulates the production of milk in the breast following pregnancy. Text Mode:All questions and answers are given on a single page for reading and answering at your own pace. Be sure to grab a pen and paper to write down your answers. The following are the functions of the endocrine system, except?
Regulates immune system B. Controls reproductive function C. Regulate heart rate and blood pressure D. Water balance E. Direct blood flow 1. Answer: E. Direct blood flow. E. This is a function of the peripheral circulation wherein the system directs blood to tissues when increased blood flow is required to maintain. A: The endocrine system helps control the production and function of the immune cells.
B: The endocrine system helps controls the development and functions of the reproductive systems in males and females. C: The endocrine system helps regulate heart rate and blood pressure and helps prepare the body for physical exertion. D: The endocrine system regulates water balance by controlling the solute concentration of the blood.
2. The primary function of T3 and T4 is to: A. Reduce blood glucose levels B. Release calcitonin C. Regulate bone growth D. Increase metabolic rate 2. Answer: D. Increase metabolic rate. D: T3 and T4 are released throughout the body to direct the body’s metabolism. They stimulate all cells within the body to increase metabolic rate.
A: Insulin lowers blood glucose levels, and promotes the formation of glycogen. B: Calcitonin is a hormone that the C-cells in the thyroid gland produces and release. It opposes the action of the parathyroid hormone, helping to regulate the blood’s calcium and phosphate levels.
C: Body growth is controlled by growth hormone (GH), produced by the anterior pituitary gland. And oxytocin are stored and released by the: A. Adrenal cortex B. Posterior pituitary gland C. Thyroid gland D. Pineal gland 3. Posterior pituitary gland.
B: The posterior pituitary gland releases two hormones ( and oxytocin). A: The two major hormones produced by the adrenal cortex are the mineralocorticoids and the glucocorticoids.
C: The Thyroid glandis involved in the production of the hormones T3 (triiodothyronine) and T4 (thyroxine). D: The main hormone produced and secreted by the pineal gland is melatonin. Which hormone stimulates the male testes to produce sperm and stimulates the development of the follicle in the female on a monthly cycle. Luteinizing hormone B. Somatostatin C. Follicle-stimulating hormone D. Thymosin 4. Follicle-stimulating hormone.
C: Follicle-stimulating hormone stimulates the growth of ovarian follicles in the ovary in females and acts on the Sertoli cells of the testes to stimulate sperm production (spermatogenesis) in males. A: Luteinizing hormone. For women, the hormone stimulates the ovaries to produce oestradiol. For men, it stimulates the production of from Leydig cells in the testes. B: The primary function of somatostatin is to inhibit the production of other hormones and also prevent the unnatural rapid reproduction of cells (such as those in tumors). D: Thymosin enhances the ability of the immune system to function.
A client with a history of is admitted due to primary hyperaldosteronism. This diagnosis indicates that the client’s is caused by excessive hormone secretion from which gland? Adrenal cortex C. Thymus gland D. Adrenal medulla 5. Adrenal cortex.
B: Excessive aldosterone secretion in the adrenal cortex is responsible for the client’s hypertension. A: Pancreas secretes hormones involved in glucose metabolism.
C: Thymus gland secretes thymosin, which stimulates the development of disease-fighting. D: Adrenal medullasecretes the catecholamines ( and ). The mineralocorticoids produced by the adrenal glands are produced within the? Parafollicular cells B. Zona reticularis C. Zona glomerulosa D. Zona fasciculata 6. Answer: C. Zona glomerulosa. C: The zona glomerulosa is responsible for synthesis of aldosterone as well as some other corticosteroids such as glucocorticoid. A: Calcitonin is produced by the parafollicular cells found in the connective tissues between the follicles.
B&D: Zona reticularis acts in collaboration with the Zona fasciculata and is primarily involved in the synthesis as well as secretion of different sex hormones that work as a substitute for gonadal hormones. Which of the following glands is both an endocrine gland and an, except? A. Pancreas B. Pituitary gland 7. Pituitary gland. D: Pituitary glandhas only an endocrine component. A, B, and C: Endocrine component of glands with both an endocrine and an exocrine function.
These include the pancreas, and gonads. 8. Which of the following is not true with melatonin? Melatonin induces heat loss, reduces arousal and related activity and delays production of cortisol. B. It helps regulate biological rhythms such as sleep and wake cycles. The secretion of melatonin is inhibited by darkness and triggered by light. The pineal gland produces and secretes the hormone.
The secretion of melatonin is inhibited by darkness and triggered by light. C: Light exposure resets the circadian rhythm of melatonin and acutely inhibits melatonin synthesis while the secretion of melatonin is triggered by darkness. 9. Part of the effect of growth hormone is influenced by a group of protein chemical signals called: A. Somatomedin-C. B. Gonadotropins C. Prostaglandin D. Answer: A. Somatomedin-C.
A: Somatomedin C also called, insulin-like growth factor 1 (IGF-1), is a protein that plays an important role in childhood growth and continues to have anabolic effects in adults. B: Gonadotropins are hormones that bind to membrane-bound receptors on the cells of the gonads. C: Prostaglandins play an important role in regulating smooth muscle contraction and inflammation. D: helps promote the development of the breast during pregnancy and stimulates the production of milk in the breast following pregnancy. A client arrived at the emergency department with a possible diagnosis of hyperparathyroidism. The nurse anticipates which serum finding would be abnormal?
Select all that apply A. Phosphorus 10. Phosphorus. B & E: A client with a parathormone deficiency has abnormal calcium and phosphorus values because parathormone regulates these two.
A, C, & D:, chloride, have no effect on a parathyroid hormone deficiency See Also Other anatomy and physiology study guides:. Further Reading.