Patho Ch 40

While reviewing the major actions of follicle-stimulating hormone (FSH), the faculty points out that in males this hormone is responsible for the: size of gonads. sperm production. testosterone levels. size of muscles.

sperm production. Explanation: FSH in males stimulates sperm production. GH stimulates growth of bone and muscle. LH stimulates secretions of testosterone. Androgens affect the development of male sex organs.

A client with a history of brain tumors that resulted in partial removal of the pituitary gland years ago expresses concern to the health care provider about whether she will be able to breast-feed her infant. Which physiologic function of the pituitary gland facilitates breast milk production? Oxytocin Growth hormone (GH) Prolactin Corticotropin-releasing hormone (CRH)

Prolactin Explanation: The anterior pituitary gland or adenohypophysis contains five cell types: (1) thyrotrophs, which produce thyrotropin, also called TSH; (2) corticotrophs, which produce corticotropin, also called ACTH; (3) gonadotrophs, which produce the gonadotropins, LH and FSH; (4) somatotrophs, which produce GH; and (5) lactotrophs, which produce prolactin that is involved with breast growth and milk production.

A nurse who works in the office of an endocrinologist is orienting a new staff member. Which teaching point should the nurse include in the orientation? "The regulation of homeostasis requires that hormones be absent from the body when their effect is not needed." "Sometimes hormones act locally on the area where they were produced, as in the case of endocrine actions." "It's uncommon for production of hormones to be far removed from the tissue where they ultimately exert their effect." "A single hormone can act on not only one process or organ but often on several different locations or processes."

"A single hormone can act on not only one process or organ but often on several different locations or processes." Explanation: A single hormone can exert various effects in different tissues, or conversely, a single function can be regulated by several different hormones. Hormones act both distantly from their source and more locally, as in the case of autocrine and paracrine actions. Hormones are normally present at all times.

Select the category of hormones that include norepinephrine and epinephrine. Amines and amino acids Peptides Glycoproteins Steroids

Amines and amino acids Explanation: Hormones can be divided into three categories: (1) amines and amino acids; (2) peptides, polypeptides, proteins, and glycoproteins; and (3) steroids. The amines include norepinephrine and epinephrine. The second category, the peptides, includes polypeptides, proteins, and glycoproteins. The third category consists of the steroid hormones, which are derivatives of cholesterol.

A client has developed a tumor of the posterior pituitary gland. The client is at risk for problems with secretions of: Somatostatin and prolactin Adrenocorticotropic hormone (ACTH) and vasopressin Growth hormone-releasing hormone (GHRH) and dopamine Antidiuretic hormone (ADH) and oxytocin

Antidiuretic hormone (ADH) and oxytocin Explanation: The posterior pituitary secretes ADH and oxytocin/vasopressin, while the anterior pituitary secretes the hormones listed in the other choices.

To prevent the accumulation of hormones in our bodies, the hormones are constantly being metabolized and excreted. Where are adrenal and gonadal steroid hormones excreted? Bile and urine Feces and urine Cell metabolites and lungs Bile and lungs

Bile and urine Explanation: Unbound adrenal and gonadal steroid hormones are conjugated in the liver, which renders them inactive, and then excreted in the bile or urine. Adrenal and gonadal steroid hormones are not excreted in the feces, cell metabolites, or the lungs.

The nurse is planning to collect a 24-hour urine sample for hormone assay. In which situation does the nurse collaborate with the health care provider to find an alternate type of testing? Client has diabetes. Client has hypothyroidism. Client has anuria. Client has anemia.

Client has anuria. Explanation: The advantages of a urine test include the relative ease of obtaining urine samples and the fact that blood sampling is not required. The disadvantage is that reliably timed urine collections often are difficult to obtain and rely on adequate renal function. Anuria refers to the absence of urine output.

After having a very stressful day in pathophysiology class, the student knows that which hormone (secreted by the adrenal cortex) will help decrease the effects of stress? Dehydroepiandrosterone, an adrenal androgen Aldosterone, a mineralocorticosteroid Androstenedione, an adrenal androgen Cortisol, a glucocorticoid

Cortisol, a glucocorticoid Explanation: Glucocorticoids, mainly cortisol, affect metabolism of all nutrients; regulate blood glucose levels; affect growth; have anti-inflammatory action; and decrease effects of stress. The other hormones do not affect stress levels.

An adult client with a possible growth hormone (GH)-secreting tumor is undergoning testing. If a glucose load is given, which response by the body would confirm the client has a GH-secreting tumor? Suppresion of the GH level Elevated GH level after a glucose load No change in blood level after the glucose load Development of gigantism

Elevated GH level after a glucose load Explanation: When a GH-secreting tumor is suspectred, the GH response to a glucose load is measured as part of the diagnostic workup. Normally, a glucose load would suppress GH levels. However, in adults with GH-secreting tumors (a condition known as acromegaly), GH levels are not suppressed.

A nurse examines the laboratory values of a client in heart failure. Which value indicates a compensatory hormone mechanism? Elevated serum pH Decreased red blood cell count Decreased hematocrit Elevated atrial natriuretic hormone

Elevated atrial natriuretic hormone Explanation: In heart failure, the client experiences fluid backlog in the heart as venous blood continues to return, but cardiac output is reduced. This stretches the atria, which secrete atrial natriuretic hormone (or peptide) to stimulate vasodilation and increased renal excretion of sodium and water. This reduces the volume and the strain in the heart.

When hypofunction of an endocrine organ is suspected, which type of diagnostic test can be administered to measure and assess target gland response? 24-hour urine Antibody binding Hormone stimulation Agglutination

Hormone stimulation Explanation: Stimulating hormone can be given to identify (determine hypofunction) if the target gland is able to increase hormone response to increased stimulation. Agglutination with enzymes is a way of measuring hormone antigen levels. The 24-hour urine sample measures hormone metabolite excretion. Radioactive hormone-antibody binding levels provide a method of measuring plasma levels.

Release and synthesis of anterior pituitary hormones are mainly regulated by which part of the body? Hypothalamus Cell receptors Adrenal gland Thymus gland

Hypothalamus Explanation: The hypophysis (pituitary plus hypothalamus) and hypothalamus stimulatory hormones regulate the release and synthesis of anterior pituitary hormones. The adrenal gland and thymus gland hormones are regulated by the hypothalamus. Cell receptors are involved with the target cell response to the hormones.

An infant whose mother had myxedema during the pregnancy has failed to meet standards for growth and is developmentally delayed. Which hormonal imbalance is this child exhibiting? Hypoglycemia Dopamine insufficiency Hypothyroidism Calcium insufficiency

Hypothyroidism Explanation: Thyroid hormone is necessary for metabolism at all ages, as well as growth and development during childhood. Uncorrected thyroid insufficiency in childhood leads to cretinism, a condition with marked physical and intellectual disability. Myxedema is the term used for thyroid insufficiency in adults.

Which are examples of a negative feedback system? Select all that apply. Insulin and glucagon Somatostatin and thyroid-stimulating hormone (TSH) Cortisol and adrenocorticotropic hormone Estradiol and follicle-stimulating hormone (FSH) Calcium and parathyroid hormone

Insulin and glucagon Cortisol and adrenocorticotropic hormone Somatostatin and thyroid-stimulating hormone (TSH) Calcium and parathyroid hormone Explanation: In negative feedback, sensors detect a change in hormone levels and adjust hormone secretion to maintain optimal levels. In positive feedback control, rising levels of a hormone cause another gland to release a hormone that stimulates the first. Release of the female hormone estradiol during the follicular stage of the menstrual cycle causes increased release of gonadotropin (FSH), which further increases release of estradiol until the follicle dies and ceases production.

The hormone levels in the body need to be kept within an appropriate range. How is this accomplished for many of the hormones in the body? Positive feedback loop Negative feedback loop Regulated feedback loop Sensory feedback loop

Negative feedback loop Explanation: The level of many of the hormones in the body is regulated by negative feedback mechanisms.

An adult client with suspected hypothyroidism is scheduled for a thyrotropin-releasing hormone (TRH) stimulation test to evaluate pituitary response. Which test results would confirm secondary hypothyroidism? No increase in TSH Increased thyroid-stimulating hormone (TSH) Increased calcitonin No increase in calcitonin

No increase in TSH Explanation: A stimulation test is intended to determine if an organ that is undersecreting will produce an increased response. A normal response to the TRH stimulation test would be for the pituitary to produce an increased amount of TSH. If the pituitary gland responds with increased production, then hypothalamic undersecretion may be the cause of the condition. If the pituitary does not increase secretion, it can indicate secondary hypothyroidism. Calcitonin is not secreted by the pituitary.

Which structure controls the functions of the greatest number of target glands and cells? Pancreas Thyroid gland Pituitary gland Adrenal cortex

Pituitary gland Explanation: The pituitary gland has been called the master gland because its hormones control the functions of many target glands and cells. It supersedes the importance of the thyroid, adrenal cortex, or pancreas in this regulatory role.

As part of maintaining homeostasis, why are hormones, secreted by endocrine cells, continuously inactivated? Stimulate production Free receptor sites Absorb metabolic waste Prevent accumulation

Prevent accumulation Explanation: Continuous inactivation of secreted hormones is necessary to prevent accumulation that could disrupt the feedback mechanism. Increased secretion stimulates production of more receptor sites. Metabolic waste absorption is not a function of the endocrine system.

Which manifestation would a nurse expect when assessing a child with insufficient growth hormone (GH) secretion? Lower blood calcium levels Mental sluggishness Increased susceptibility to infection Rank below 10% on the growth chart

Rank below 10% on the growth chart Explanation: GH stimulates growth of bone and muscle and promotes protein synthesis and fat metabolism and decreased carbohydrate metabolism. A child lacking sufficient GH would demonstrate lack of growth but not the mental delays seen in childhood hypothyroidism.

Hormones are chemical messengers that provide which function in the body? Cause one specific tissue effect Regulate body functions Initiate immune reactions Transport fatty acids and lipids

Regulate body functions Explanation: Hormones regulate and integrate body functions. Hormones act on specific target cells, but they cause a variety of effects on tissues. Hormones do not transport other substances; hormones are transported and present in body fluids at all times.

A client has received an injection containing thyrotropin-releasing hormone (TRH) and is now being assessed for serum levels of thyroid-stimulating hormone (TSH). Which type of diagnostic testing is this client undergoing? Stimulation testing Autoantibody testing Radioimmunoassay (RIA) Suppression testing

Stimulation testing Explanation: Introduction of TRH tests the pituitary gland's ability to produce TSH, and is an example of a stimulation test. Suppression testing examines a gland's response to a stimulus that would normally result in decreased hormone production. RIA and autoantibody testing are examples of direct and indirect measurement of serum levels of a hormone.

The nurse is teaching a client who has been newly diagnosed with hypothyroidism about the function of the thyroid. Which statement about the role of the thyroid gland is most accurate? The thyroid gland is responsible for regulating serum calcium levels. The thyroid gland promotes development of secondary sex characteristics. The thyroid gland releases neurotransmitters when the "flight or flight" mechanism is stimulated. The thyroid gland is responsible for increasing the metabolic rate.

The thyroid gland is responsible for increasing the metabolic rate. Explanation: The thyroid gland produces thyroid hormones, T3 and T4. These hormones increase the metabolic rate; increase protein and bone turnover; increase responsiveness to catecholamines; are necessary for fetal and infant growth and development. The parathyroid gland regulates calcium metabolism. The adrenal glands regulate "flight or fight" and the testes or ovaries regulate development of secondary sex characteristics.

Which hormones cross cell membranes to connect to nuclear receptors? Select all that apply. Parathyroid hormone Vitamin D Glucocorticoids Thyroid hormones Glucagon

Vitamin D Thyroid hormones Glucocorticoids Explanation: Steroids, vitamin D, and thyroid hormone are fat soluble and they can cross the cell membrane, where they then connect to intracellular receptors that move to the nucleus and bind with receptors on the target gene.

When hormones act locally rather than being secreted into the bloodstream, their actions are termed: Autocrine and paracrine Preventers and inhibitors Autocratic and paracratic Localized and influential

Autocrine and paracrine Explanation: When hormones act locally on cells other than those that produced the hormone, the action is called paracrine. Hormones also can exert an autocrine action on the cells from which they were produced.

A nursing instructor is teaching a group of students about the action of hormones. The instructor determined that teaching was effective when the students recognize the local action of hormones as: Autocrine Pancreatic Hormonal Paracrine

Paracrine Explanation: When hormones act locally on cells other than those that produced the hormone, the action is called paracrine. Hormones can also exert an autocrine action on the cells in which they were produced. Pancreatic and hormonal are not actions.

Which gland is often referred to as the master gland because it secretes many hormones? Thyroid Hypothalamus Pancreas Pituitary

Pituitary Explanation: The pituitary gland has been called the master gland because its hormones control the functions of many target glands and cells. That is not a term used to refer to the other options.

Which of the following are examples of amines? Select all that apply. Norepinephrine Epinephrine Growth hormone (GH) Follicle stimulating hormone (FSH) Thyrotropin-releasing hormone (TRH)

Norepinephrine Epinephrine Explanation: The amines include only norepinephrine and epinephrine. The remaining options are classified as peptides.

Which gland acts as a signal relaying bridge between multiple body systems and the pituitary gland? Hypothalamus Thyroid Posterior pituitary Parathyroid

Hypothalamus Explanation: The activity of the hypothalamus is regulated by both hormonally mediated signals (e.g., negative feedback signals) and by neuronal input from a number of sources. Neuronal signals are mediated by neurotransmitters such as acetylcholine, dopamine, norepinephrine, serotonin, gamma-aminobutyric acid (GABA), and opioids. Cytokines that are involved in immune and inflammatory responses, such as the interleukins, also are involved in the regulation of hypothalamic function. This is particularly true of the hormones involved in the hypothalamic-pituitary-adrenal axis. Thus, the hypothalamus can be viewed as a bridge by which signals from multiple systems are relayed to the pituitary gland. This cannot be said of the other options.

The nurse is discussing positive feedback mechanisms. Which example best explains this mechanism? Decreased thyroid hormone (TH) increases thyroid-stimulating hormone (TSH) levels. Decreased cortisone levels increase blood levels of adrenocorticotropic hormone (ACTH). Increased estradiol production causes increased follicle-stimulating hormone (FSH) production. Increased glucose levels in the blood decreases growth hormone (GH) levels.

Increased estradiol production causes increased follicle-stimulating hormone (FSH) production. Explanation: The positive feedback mechanism regulates hormones as follows: a rising level of a hormone causes another gland to release a hormone that is stimulating to the first. The other choices represent negative feedback mechanisms of control.