0-1 Chapter 17 - Endocrine System Flashcards

Question 1

Q

four principal mechanisms of communication between cells

Answer

A

gap junctions
neurotransmitters
paracrine (local) hormones
Hormones

Question 2

Q

gap junctions

Answer

A

pores in cell membrane allow signaling molecules, nutrients, and electrolytes to move from cell to cell

Question 3

Q

neurotransmitters

Answer

A

released from neurons to travel across synaptic cleft to second cell

Question 4

Q

paracrine (local) hormones

Answer

A

secreted into tissue fluids to affect nearby cells

Question 5

Q

hormones

Answer

A

chemical messengers that travel in the bloodstream to other tissues and organs

Question 6

Q

endocrine system

Answer

A

glands, tissues, and cells that secrete hormones

Question 7

Q

endocrinology

Answer

A

the study of this system and the diagnosis and treatment of its disorders

Question 8

Q

endocrine glands

Answer

A

organs that are traditional sources of hormones

Question 9

Q

hormones

Answer

A

chemical messengers that are transported by the bloodstream and stimulate physiological responses in cells of another tissue or organ, often a considerable distance away

Question 10

Q

major organs of endocrine system

Answer

A

pineal gland
hypothalamus
pituitary gland
thyroid gland
thymus
adrenal gland
pancreas
parathyroid gland
gonads

Question 11

Q

exocrine glands

Answer

A

–have ducts carry secretion to an epithelial surface or the mucosa of the digestive tract –‘external secretions’
–extracellular effects (food digestion)

Question 12

Q

endocrine glands

Answer

A

–no ducts
–contain dense, fenestrated capillary networks which allows easy uptake of hormones into bloodstream
–‘internal secretions’
–intracellular effects such as altering target cell metabolism

Question 13

Q

liver cells defy rigid classification

Answer

A

releases hormones, releases bile into ducts, releases albumin and blood-clotting factors into blood (not hormones)

Question 14

Q

Comparison of Nervous and Endocrine Systems (Differences)

both serve for internal communication

Answer

A

–nervous -both electrical and chemical

–endocrine -only chemical

Question 15

Q

Comparison of Nervous and Endocrine Systems (Differences)

speed and persistence of response

Answer

A

–nervous -reacts quickly (1 -10 msec), stops quickly

–endocrine -reacts slowly (hormone release in seconds or days), effect may continue for weeks

Question 16

Q

Comparison of Nervous and Endocrine Systems (Differences)

adaptation to long-term stimuli

Answer

A

–nervous -response declines (adapts quickly)

–endocrine -response persists (adapts slowly)

Question 17

Q

Comparison of Nervous and Endocrine Systems (Differences)

area of effect

Answer

A

–nervous -targeted and specific (one organ)

–endocrine -general, widespread effects (many organs)

Question 18

Q

Nervous and Endocrine Systems (Similarities)

several chemicals function as both hormones and neurotransmitters

Answer

A

–norepinephrine, cholecystokinin, thyrotropin-releasing hormone, dopamine and antidiuretic hormone

Question 19

Q

Nervous and Endocrine Systems (Similarities)

some hormones secreted by neuroendocrine cells

Answer

A

(neurons) that release their secretion into the bloodstream

–oxytocin and catecholamines

Question 20

Q

Nervous and Endocrine Systems (Similarities)

both systems with overlapping effects on same target cells

Answer

A

–norepinephrine and glucagon cause glycogen hydrolysis in liver

Question 21

Q

Nervous and Endocrine Systems (Similarities)

systems regulate each other

Answer

A

–neurons trigger hormone secretion

–hormones stimulate or inhibit neurons

Question 22

Q

target organs or cells

Answer

A

those organs or cells that have receptorsfor a hormone and can respond to it.

Question 23

Q

Anatomy of Hypothalamus

Answer

A

shaped like a flattened funnel
forms floor and walls of third ventricle of the brain
regulates primitive functions of the body from water balance and thermoregulation to sex drive and childbirth
many of its functions carried out by pituitary gland

Question 24

Q

Pituitary Gland

Answer

A

(Hypophysis)
•suspended from hypothalamus by a stalk –infundibulum
•location and size
–housed in sella turcica of sphenoid bone
–size and shape of kidney bean

Question 25

Q

infundibulum

Answer

A

suspends pituitary gland from hypothalamus

Question 26

Q

Pituitary Gland composed of two structures

Answer

A

composed of two structures with independent origins and separate functions
–adenohypophysis (anterior pituitary)
–neurohypophysis(posterior pituitary)

Question 27

Q

adenohypophysis

Answer

A

(anterior pituitary)
constitutes anterior three-quarters of pituitary
–has two segments:
•anterior lobe (pars distalis)
•pars tuberalissmall mass of cells adhering to stalk
–linked to hypothalamus by hypophyseal portal system

Question 28

Q

hypophysealportal system

Answer

A

hypothalamic releasing and inhibiting hormones travel in hypophyseal portal system from hypothalamus to anterior pituitary
hormones secreted by anterior pituitary

Question 29

Q

neurohypophysis

Answer

A

constitutes the posterior one-quarter of the pituitary
–has 3 parts:
•median eminence, infundibulum, and the posterior lobe (pars nervosa)

Question 30

Q

neurohypophysis is

Answer

A

nerve tissue, not a true gland
•nerve cell bodies in hypothalamus pass down the stalk as hypothalamo-hypophysealtract and end in posterior lobe
•hypothalamic neurons secrete hormones that are stored in neurohypophysis until released into blood

Question 31

Q

eight hormones produced in hypothalamus

Answer

A

–six regulate the anterior pituitary
–two are released into capillaries in the posterior pituitary when hypothalamic neurons are stimulated (oxytocin and antidiuretic hormone)

Question 32

Q

six releasing and inhibiting hormones stimulate or inhibit the anterior pituitary

Answer

A

–TRH, CRH, GnRH, and GHRH are releasing hormones that affect anterior pituitary secretion of TSH, PRL, ACTH, FSH, LH, and GH
–PIH inhibits secretion of prolactin, and somatostatin inhibits secretion growth hormone & thyroid stimulating hormone by the anterior pituitary

Question 33

Q

Hypothalamic Hormones

two other hypothalamic hormones are

Answer

A

oxytocin (OT)and antidiuretic hormone (ADH)
–both stored and released by posterior pituitary
–right and left paraventricular nuclei produce oxytocin(OT)
–supraoptic nuclei produce antidiuretic hormone (ADH)
–posterior pituitary does not synthesize them

Question 34

Q

anterior lobe of the pituitary synthesizes and secretes six principal hormones

Answer

A

•two gonadotropin hormones that target gonads
–FSH (follicle stimulating hormone)
–LH (luteinizing hormone)
•TSH (thyroid stimulating hormone)
•ACTH (adrenocorticotropic hormone)
•PRL (prolactin)
•GH (growth hormone)

Question 35

Q

FSH

Answer

A

FSH (follicle stimulating hormone)

•stimulates secretion of ovarian sex hormones, development of ovarian follicles, and sperm production

Question 36

Q

LH

Answer

A

(luteinizing hormone)

•stimulates ovulation, stimulates corpus luteum to secrete progesterone, stimulates testes to secrete testosterone

Question 37

Q

TSH

Answer

A

(thyroid stimulating hormone)

–stimulates secretion of thyroid hormone

Question 38

Q

ACTH

Answer

A

(adrenocorticotropic hormone)

–stimulates adrenal cortex to secrete glucocorticoids

Question 39

Q

PRL

Answer

A

(prolactin)

–after birth stimulates mammary glands to synthesize milk, enhances secretion of testosterone by testes

Question 40

Q

GH

Answer

A

(growth hormone)

–stimulates mitosis and cellular differentiation

Question 41

Q

Posterior Pituitary Hormones

Answer

A

produced in hypothalamus
–transported by hypothalamo-hypophyseal tract to posterior lobe
–releases hormones when hypothalamic neurons are stimulated
•ADH(antidiuretic hormone)
•OT(oxytocin)

Question 42

Q

ADH

Answer

A

(antidiuretic hormone)
–increases water retention thus reducing urine volume and prevents dehydration
–also called vasopressin because it can cause vasoconstriction

Question 43

Q

OT

Answer

A

(oxytocin)
–surge of hormone released during sexual arousal and orgasm
•stimulate uterine contractions and propulsion of semen
–promotes feelings of sexual satisfaction and emotional bonding between partners
–stimulates labor contractions during childbirth
–stimulates flow of milk during lactation
–promotes emotional bonding between lactating mother and infant

Question 44

Q

Control of Pituitary Secretion

Answer

A

rates of secretion are not constant

–regulated by hypothalamus, other brain centers, and feedback from target organs

Question 45

Q

anterior lobe control

Answer

A

releasing hormones and inhibiting hormones from hypothalamus

•in cold weather, pituitary stimulated by hypothalamus to release TSH, leads to generation of body heat

Question 46

Q

posterior lobe control

Answer

A

neuroendocrine reflexes

Question 47

Q

neuroendocrine reflex

Answer

A

hormone release in response to nervous system signals

Question 48

Q

negative feedback

Answer

A

increased target organ hormone levels inhibits release of hormones

Question 49

Q

positive feedback

Answer

A

stretching of uterus increases OT release, causes contractions, causing more stretching of uterus, etc. until delivery

Question 50

Q

Growth Hormone

Answer

A

GH has widespread effects on the body tissues
–especially cartilage, bone, muscle, and fat
•induces liver to produce growth stimulants

Question 51

Q

insulin-like growth factors (IGF-I) or somatomedins(IGF-II)

Answer

A

stimulate target cells in diverse tissues
IGF-I prolongs the action of GH
hormone half-life –the time required for 50% of the hormone to be cleared from the blood

Question 52

Q

insulin-like growth factors (IGF-I) or somatomedins(IGF-II)

causes

Answer

A

protein synthesis increases
lipid metabolism increased
carbohydrate metabolism
electrolyte balance

Question 53

Q

pineal gland

Answer

A

attached to roof of third ventricle beneath the posterior end of corpus callosum
•after age 7, it undergoes involution(shrinkage)

Question 54

Q

pineal gland

main function

Answer

A

may synchronize physiological function with 24-hour circadian rhythms of daylight and darkness
–synthesizes melatonin from serotonin during the night

Question 55

Q

seasonal affective disorder

Answer

A

(SAD) occurs in winter or northern climates
–symptoms -depression, sleepiness, irritability and carbohydrate craving
–2 to 3 hours of exposure to bright light each day reduces the melatonin levels and the symptoms (phototherapy)

Question 56

Q

Thymus

Answer

A

•thymus plays a role in three systems: endocrine, lymphatic, and immune
•bilobed gland in the mediastinum superior to the heart
–goes through involution after puberty
•site of maturation of T cells important in immune defense

Question 57

Q

Thymus secretes

Answer

A

secretes hormones (thymopoietin, thymosin, and thymulin) that stimulate development of other lymphatic organs and activity of T-lymphocytes

Question 58

Q

Thyroid Gland Anatomy

Answer

A

largest endocrine gland
–composed of two lobes and an isthmus below the larynx
–dark reddish brown color due to rich blood supply

Question 59

Q

thyroid follicles

Answer

A

sacs that compose most of thyroid
–contain protein rich colloid
–follicular cells –simple cuboidal epithelium that lines follicles

Question 60

Q

thyroid follicles secrete

Answer

A

secretes thyroxine (T4 because of 4 iodine atoms) and triiodothyronine (T3) –T4 which is converted to T3
–increases metabolic rate, O2consumption, heat production (calorigenic effect), appetite, growth hormone secretion, alertness and quicker reflexes

Question 61

Q

parafollicular (C or clear) cellssecrete

Answer

A

calcitonin with rising blood calcium

–stimulates osteoblast activity and bone formation

Question 62

Q

thyroid follicles are filled with

Answer

A

colloid and lined with simple cuboidal epithelial cells (follicular cells).

Question 63

Q

Parathyroid Glands

Answer

A

usually four glands partially embedded in posterior surface of thyroid gland
–can be found from as high as hyoid bone to as low as aortic arch

Question 64

Q

Parathyroid Glands secrete

Answer

A

secrete parathyroid hormone (PTH)
–increases blood Ca2+ levels
•promotes synthesis of calcitriol
•increases absorption of Ca2+
•decreases urinary excretion
•increases bone resorption

Answer 65

A

small gland that sits on top of each kidney
•they are retroperitoneal like the kidney
•adrenal cortex and medulla formed by merger of two fetal glands with different origins and functions

Answer 66

A

inner core, 10% to 20% of gland

•has dual nature acting as an endocrine gland and sympathetic ganglion of sympathetic nervous system

Answer 67

A

innervated by sympathetic preganglionic fibers

Answer 68

A

catecholamines(epinephrineand norepinephrine) and a trace of dopamine directly into the bloodstream

Answer 69

A

effect is longer lasting than neurotransmitters
–increases alertness and prepares body for physical activity –
•mobilize high energy fuels, lactate, fatty acids, and glucose
•glycogenolysisand gluconeogenesisboost glucose levels
•glucose-sparing effect because inhibits insulin secretion
–muscles use fatty acids saving glucose for brain
–increasesblood pressure, heart rate, blood flow to muscles, pulmonary air flow and metabolic rate
–decreasesdigestion and urine production

Answer 70

A

surrounds adrenal medulla and produces more than 25 steroid hormones called corticosteroidsor corticoids

Answer 71

A

zona glomerulosa
zona fasciculate
zona reticularis

Answer 72

A

(thin, outer layer)
•cells are arranged in rounded clusters
•secretes mineralocorticoid–regulate the body’s electrolyte balance

Answer 73

A

(thick, middle layer)
•cells arranged in fascicles separated by capillaries
•secretes glucocorticoids

Answer 74

A

(narrow, inner layer)
•cells in branching network
•secretes sex steroids

Answer 75

A

zona glomerulosa
–regulate electrolyte balance
–aldosterone stimulates Na+retention and K+excretion, water is retained with sodium by osmosis, so blood volume and blood pressure are maintained

Answer 76

A

–regulate metabolism of glucose and other fuels
–especially cortisol, stimulates fat and protein catabolism, gluconeogenesis(glucose from amino acids and fatty acids) and release of fatty acids and glucose into blood
–helps body adapt to stress and repair tissues
–anti-inflammatory effect becomes immune suppression with long-term use

Answer 77

A

zona reticularis
–androgens –sets libido throughout life; large role in prenatal male development (includes DHEA which other tissues convert to testosterone)
–estradiol–small quantity, but important after menopause for sustaining adult bone mass; fat converts androgens into estrogen

Answer 78

A

medulla and cortex of adrenal gland are not functionally independent
•medulla atrophies without the stimulation of cortisol
•some chromaffin cells of medullary origin extend into the cortex
–they stimulate the cortex to secrete corticosteroids when stress activates the sympathetic nervous system

Answer 79

A

exocrine digestive gland and endocrine cell clusters (pancreatic islets) found retroperitoneal, inferior and posterior to stomach

Answer 80

A

1-2 million pancreatic islets (Islets of Langerhans) produce hormones
–other 98% of pancreas cells produces digestive enzymes

Answer 81

A

B or beta () cells
–secreted during and after meal when glucose and amino acid blood levels are rising
–stimulates cells to absorb these nutrients and store or metabolize them lowering blood glucose levels

Answer 82

A

insufficiency or inaction is cause of diabetes mellitus

Answer 83

A

glucagon
somatostatin
pancreatic polypeptide
gastrin

Answer 84

A

secreted by A or alpha () cells
–released between meals when blood glucose concentration is falling
–in liver, stimulates gluconeogenesis, glycogenolysis, and the release of glucose into the circulation raising blood glucose level
–in adipose tissue, stimulates fat catabolism and release of free fatty acids
–glucagon also released to rising amino acid levels in blood, promotes amino acid absorption, and provides cells with raw material for gluconeogenesis

Answer 85

A

secreted by D or delta () cells
–partially suppresses secretion of glucagon and insulin
–inhibits nutrient digestion and absorption

Answer 86

A

secreted by PP cells or F cells)

–inhibits gallbladder contraction and secretion pancreatic digestive enzymes

Answer 87

A

secreted by G cells

–stimulates stomach acid secretion, motility and emptying

Answer 88

A

raise blood glucose concentration

–glucagon, growth hormone, epinephrine, norepinephrine, cortisol, and corticosterone

Answer 89

A

blood glucose

–insulin

Answer 90

A

ovaries and testes are both endocrine and exocrine

Answer 91

A

whole cells -eggs and sperm (cytogenic glands)

Answer 92

A

gonadal hormones –mostly steroids

Answer 93

A

–estradiol, progesterone, and inhibin

Answer 94

A

testosterone, weaker androgens, estrogen and inhibin

Answer 95

A

–development of female reproductive system and physique including adolescent bone growth
–regulate menstrual cycle, sustain pregnancy
–prepare mammary glands for lactation

Answer 96

A

inhibin suppresses FSH secretion from anterior pituitary

Answer 97

A

testosterone and other steroids from interstitial cells (cells of Leydig) nestled between the tubules
–inhibinfrom

Answer 98

A

testosterone and other steroids from interstitial cells (cells of Leydig) nestled between the tubules
•stimulates development of male reproductive system in fetus and adolescent, and sex drive
•sustains sperm production

Answer 99

A

inhibin from sustentacular (Sertoli) cells

•limits FSH secretion in order to regulate sperm production

Answer 100

A

keratinocytes convert a cholesterol-like steroid into cholecalciferol using UV from sun –Vitamin D is a steroid hormone

Answer 101

A

involved in the production of at least five hormones
–converts cholecalciferol into calcidiol
–secretes angiotensinogen(a prohormone)
•precursor of angiotensin II (a regulator of blood pressure)
–secretes 15% oferythropoietin (stimulates bone marrow)
–hepcidin –promotes intestinal absorption of iron
–source of IGF-I that controls action of growth hormone

Answer 102

A

plays role in production of three hormones
–converts calcidiol to calcitriol, the active form of vitamin D
•increases Ca2+ absorption by intestine and inhibits loss in the urine
–secrete renin that converts angiotensinogen to angiotensin I
•angiotensin II created by converting enzyme in lungs
–constricts blood vessels and raises blood pressure
–produces 85% of erythropoietin–
•stimulates bone marrow to produce RBCs

Answer 103

A

–cardiac muscle secretes atrial and brain natriuretic peptides (ANP and BNP) in response to an increase in blood pressure

Answer 104

A

secrete at least ten enteric hormones secreted by enteroendocrine cells

Answer 105

A

secretes leptin

–slows appetite

Answer 106

A

osteocalcinsecreted by osteoblasts
–increases number of pancreatic beta cells, pancreatic output of insulin, and insulin sensitivity of other body tissues
–inhibits weight gain and onset of type II diabetes mellitus

Answer 107

A

secretes estrogen, progesterone and others

Answer 108

A

three chemical classes
–steroids
-peptides and glycoproteins
–monoamines (biogenic amines)
•all hormones are made from either cholesterol or amino acids with carbohydrate added to make glycoproteins

Answer 109

A

derived from cholesterol
secreted by gonads and adrenal glands
estrogens, progesterone, testosterone, cortisol, corticosterone, aldosterone, DHEA, and calcitriol (vitamin D)

Answer 110

A

created from chains of amino acids
secreted by pituitary and hypothalamus
oxytocin, antidiuretic hormone, releasing and inhibiting hormones, and anterior pituitary hormones

Answer 111

A

derived from amino acids
secreted by adrenal, pineal, and thyroid glands
epinephrine, norepinephrine, melatonin, and thyroid hormone

Answer 112

A

synthesized from cholesterol –differs in functional groups attached to 4-ringed steroid backbone

Answer 113

A

synthesized in same way as any protein
at first is an inactive preprohormone
first several amino acids is a signal peptide that guides it into cisterna of rough endoplasmic reticulum
signal peptide removed to form prohormone
Golgi does final transformation to hormonepackaged for secretion

Answer 114

A

begins as preproinsulin, then becomes proinsulin

•when connecting peptideis removed, two polypeptide chains are formed that make up insulin

Answer 115

A

melatonin is synthesized from amino acid tryptophan, and other monoamines from amino acid tyrosine
–thyroid hormone is composed of 2 tyrosines

Answer 116

A

follicular cells

TSH

Answer 117

A

–absorb iodide(I-)ions from blood and store in lumen as a reactive form of iodine
–synthesize thyroglobulin and store in lumen
•forms colloid
•contains lots of tyrosine
–tyrosine and iodine combine to form thyroxine (T4) bound to thyroglobulin
–stored in follicle

Answer 118

A

–stimulates follicular cells to remove T4from thyroglobulin for release into plasma
–most T3is produced in liver or by target cells removing an iodine from circulating T4
–95% T4and 5% T3

Answer 119

A

MIT contains one iodine atom, DIT has twoT3-combination of MIT plus DITT4 -combination of two DITs

Answer 120

A

most monoamines and peptides are hydrophilic

–mix easily with blood plasma

Answer 121

A

steroids and thyroid hormone are hydrophobic
–bind to transport proteins (albumins and globulins synthesized by the liver)
–bound hormones have longer half-life
•protected from liver enzymes and kidney filtration
–only unbound hormone leaves capillaries to reach target cell

Answer 122

A

thyroid hormone binds to three transport proteins in the plasma
–albumin, thyretin and TBG (thyroxine-binding globulin)
–more than 99% of circulating TH is protein bound

Answer 123

A

bind to globulins

–transcortin –the transport protein for cortisol

Answer 124

A

short half-life; 85% unbound, 15% binds weakly to albumin and others

Answer 125

A

hormones stimulate only those cells that have receptors for them

Answer 126

A

receptors are protein or glycoprotein molecules:
–on plasma membrane, in the cytoplasm, or in the nucleus
•receptors act like switches turning on metabolic pathways when hormone binds to them
•usually each target cell has a few thousand receptors for a given hormone

Answer 127

A

specificity and saturation

Answer 128

A

specific receptor for each hormone

Answer 129

A

saturated when all receptor molecules are occupied by hormone molecules

Answer 130

A

–penetrate plasma membrane and enter nucleus
–act directly on the genes changing target cell physiology
–estrogen, progesterone, thyroid hormone act on nuclear receptors
–take several hours to days to show effect due to lag for protein synthesis

Answer 131

A

–cannot penetrate into target cell

–must stimulate physiology indirectly

Answer 132

A

thyroid hormone enters target cell by diffusion –mostly as T4with little metabolic effect
•within target cell, T4is converted to more potent T3
•T3enters target cells and binds to receptors in chromatin
•activates genes

Answer 133

A

hormone binds to cell-surface receptor
•receptor linked to second messenger system on other side of the membrane
•activates G protein which
•activates adenylate cyclase
•produces cAMP
•activates or inhibits enzymes
•metabolic reactions:
–synthesis
–secretion
–change membrane potentials

Answer 134

A

diacylglycerol (diglyceride) second-messenger system
inositol triphosphate second-messenger system
act on cell metabolism in a variety of ways

Answer 135

A

hormones are extraordinarily potent chemicals
one hormone molecule can trigger the synthesis of many enzyme molecules.
very small stimulus can produce very large effect
circulating concentrations very low

Answer 136

A

target cell sensitivity adjusted by changing the number of receptors

Answer 137

A

regulation means number of receptors is increased

–sensitivity is increased

Answer 138

A

regulation reduces number of receptors
–cell less sensitive to hormone
–happens with long-term exposure to high hormone concentrations
•bind to other receptors
•converted to different hormone

Answer 139

A

most cells sensitive to more than one hormone and exhibit interactive effects

Answer 140

A

–multiple hormones act together for greater effect

•synergism between FSH and testosterone on sperm production

Answer 141

A

–one hormone enhances the target organ’s response to a second later hormone
•estrogen prepares uterus for action of progesterone

Answer 142

A

–one hormone opposes the action of another

•insulin lowers blood glucose and glucagon raises it

Answer 143

A

•hormone signals must be turned off when they have served their purpose
•most hormones are taken up and degraded by liver and kidney
–excreted in bile or urine

Answer 144

A

(MCR)
–rate of hormone removal from the blood
–half-life-time required to clear 50% of hormone from the blood
–faster the MCF, the shorter is the half-life

Answer 145

A

caused by any situation that upsets homeostasis and threatens one’s physical or emotional well-being
•injury, surgery, infection, intense exercise, pain, grief, depression, anger, etc

Answer 146

A

(GAS)
–the consistent way body reacts to stress –typically involves elevated levels of epinephrine and glucocorticoids (especially cortisol)

Answer 147

A

alarm reaction
stage of resistance
stage of exhaustion

Answer 148

A

•initial response
•mediated by norepinephrine from the sympathetic nervous system and epinephrine from the adrenal medulla
–prepare body to fight or flight
–stored glycogen is consumed
–increase in aldosterone and angiotensin levels
•angiotensin helps raise blood pressure
•aldosterone promotes sodium and water conservation

Answer 149

A

after a few hours, glycogen reserves gone, but brain still needs glucose
•provide alternate fuels for metabolism
•stage dominated by cortisol
•hypothalamus secretes corticotropin-releasing hormone
•pituitary secretes an increase in ACTH

Answer 150

A

–stimulates the adrenal cortex to secrete cortisol and other glucocorticoids
–promotes the breakdown of fat and protein into glycerol, fatty acids, and amino acids –for gluconeogenesis

Answer 151

A

cortisol has glucose-sparing effect –inhibits protein synthesis leaving free amino acids for gluconeogenesis
–adverse effects of excessive cortisol
–depresses immune function
–Increases susceptibility to infection and ulcers
–lymphoid tissues atrophy, antibody levels drop, and wounds heal poorly

Answer 152

A

•when stress continues several months, and fat reserves are gone, homeostasis is overwhelmed
–marked by rapid decline and death
•protein breakdown and muscle wasting
•loss of glucose homeostasis because adrenal cortex stops producing glucocorticoids
•aldosterone promotes water retention and hypertension
–conserves sodium and hastens elimination of K+and H+
–hypokalemia and alkalosis leads to death
•death results from heart and kidney failure or overwhelming infection

Answer 153

A

chemical messengers that diffuse short distances and stimulate nearby cells
–unlike neurotransmitters not produced in neurons
–unlike hormones not transported in blood

Answer 154

A

a hormone, paracrine, or even neurotransmitter in different locations

Answer 155

A

from mast cells in connective tissue

* causes relaxation of blood vessel smooth muscle

Answer 156

A

•from endothelium of blood vessels, causes vasodilation

Answer 157

A

•from gamma cells, inhibits secretion of alpha and beta cells

Answer 158

A

•diffuse from adrenal medulla to cortex

Answer 159

A

important family of paracrines

–derived from fatty acid called arachidonic acid

Answer 160

A

converts arachidonic acid into leukotrienes

Answer 161

A

mediates allergic and inflammatory reactions

Answer 162

A

converts arachidonic acid to three other types of eicosanoids

Answer 163

A

•inhibits blood clotting and vasoconstriction

Answer 164

A

produced by blood platelets after injury
overrides prostacyclin
stimulates vasoconstriction and clotting

Answer 165

A

PGE: relaxes smooth muscle in bladder, intestines, bronchioles, uterus and stimulates contraction of blood vessels
PGF: opposite effects

Answer 166

A

cortisol and corticosterone

* aspirin, ibuprofen, & celecoxib (Celebrex)

Answer 167

A

–steroidal anti-inflammatory drugs (SAIDs)
–inhibit inflammation by blocking release of arachidonic acid from plasma membrane and inhibit synthesis of eicosanoids
•disadvantage –produce symptoms of Cushing syndrome

Answer 168

A

–nonsteroidal anti-inflammatory drugs (NSAIDs)
•COX inhibitors since block cyclooxygenase (COX)
•do not affect lipoxygenase function or leukotriene production
•useful in treatment of fever and thrombosis
–inhibit prostaglandin and thromboxane synthesis

Answer 169

A

variations in hormone concentration and target cell sensitivity have noticeable effects on body

Answer 170

A

inadequate hormone release

–tumor or lesion destroys gland or interferes with its ability to receive signals from another gland

Answer 171

A

excessive hormone release

–tumors or autoimmune disorder

Answer 172

A

tumor of adrenal medulla secretes excessive epinephrine and norepinephrine

Answer 173

A

(graves disease) –autoantibodies mimic effect of TSH on the thyroid causing thyroid hypersecretion

Answer 174

A

hypersecretion of growth hormone (GH)

Answer 175

A

thickening of bones and soft tissues in adults
•especially hands, feet and face
–problems in childhood or adolescence

Answer 176

A

gigantism if hypersecretion

Answer 177

A

pituitary dwarfism if hyposecretion –rare since growth hormone is now made by genetically engineered bacteria

Answer 178

A

congenital hypothyroidism
myxedema
goiter

Answer 179

A

(decreased TH)
–hyposecretion present a birth (formerly cretinism)
–treat with oral thyroid hormone

Answer 180

A

(decreased TH)
–adult hypothyroidism
–treat with oral thyroid hormone

Answer 181

A

any pathological enlargement of the thyroid gland

Answer 182

A

•dietary iodine deficiency, no TH, no feedback, increased TSH stimulates hypertrophy

Answer 183

A

(Graves disease)
•autoantibodies mimic the effect of TSH on the thyroid causing hypersecretion
•overgrown thyroid produces functional TH

Answer 184

A

hypoparathyroidism

Answer 185

A

surgical excision during thyroid surgery

* fatal tetany in 3 -4 days due to rapid decline in blood calcium level

Answer 186

A

excess PTH secretion
•parathyroid tumor
•bones become soft, fragile, and deformed
•Ca2+ and phosphate blood levels increase
•promotes renal calculi formation

Answer 187

A

Cushing syndrome
adrenogenital syndrome (AGS)

Answer 188

A

excess cortisol secretion
–hyperglycemia, hypertension, weakness, edema
–rapid muscle and bone loss due to protein catabolism
–abnormal fat deposition
•moon face and buffalo hump

Answer 189

A

most prevalent metabolic disease in world

–disruption of metabolism due to hyposecretion or inaction of insulin

Answer 190

A

polyuria(excess urine output), polydipsia(intense thirst) and polyphagia(hunger)
revealed by elevated blood glucose, glucose in urine and ketones in the urine

Answer 191

A

excess urine output

Answer 192

A

intense thirst

Answer 193

A

limit to how fast the glucose transporters can work to reabsorb
–excess glucose enters urine and water follows it
•causes polyuria, dehydration, and thirst

Answer 194

A

Type 1

Type 2

Answer 195

A

(IDDM) –5 to 10% of cases in US
–insulin is always used to treat Type 1
•insulin injections, insulin pump, or dry insulin inhaler
•monitoring blood glucose levels and controlled diet
–hereditary susceptibility if infected with certain viruses (rubella, cytomegalovirus)
–autoantibodies attack and destroy pancreatic beta cells

Answer 196

A

(NIDDM) –90 to 95% of diabetics
–problem is insulin resistance
•failure of target cells to respond to insulin
–risk factors are heredity, age (40+),obesity, and ethnicity –Native American, Hispanic, and Asian
–treated with weight loss program and exercise since:
•loss of muscle mass causes difficulty with regulation of glycemia
•adipose signals interfere with glucose uptake into most cells
–oral medications improve insulin secretion or target cell sensitivity

Answer 197

A

cells cannot absorb glucose, must rely on fat and proteins for energy needs -weight loss and weakness
–fat catabolism increases free fatty acids and ketones in blood

Answer 198

A

ketonuria promotes osmotic diuresis, loss of Na+ and K+, irregular heartbeat, and neurological issues

Answer 199

A

ketoacidosis occurs as ketones decrease blood pH

–deep, gasping breathing and diabetic coma are terminal result

Answer 200

A

leads to neuropathy and cardiovascular damage from atherosclerosis and microvascular disease
•arterial damage in retina and kidneys (common in type I), atherosclerosis leads to heart failure (common in type II)

Answer 201

A

nerve damage from impoverished blood flow can lead to erectile dysfunction, incontinence, poor wound healing, and loss of sensation from area

Brainscape's Knowledge GenomeTM

0-1 Chapter 17 - Endocrine System Flashcards

Brainscape's Knowledge Genome^TM