endocrine pathology (bikman)

Question 1

describe the hypothalamic-pituitary axis (primary, secondary, tertiary)

Answer 1

feedback regulation of the endocrine system, where the tertiary organ is the hypothalamus, secondary is the ant pit, primary is the end endocrine organ

Question 2

disorders of the post pit

Answer 2

SIADH, Diabetes Insipidus, Galactorrhea, hyposecretion of oxytocin

Question 3

SIADH

Answer 3

hypersecretion of ADH

Question 4

clinical manifestations of SIADH

Answer 4

renal water retention, hyponatremia, hypoosmolarity; water reabsorption without ion reabsorption

Question 5

actions of SIADH

Answer 5

increase in permeability of renal collecting duct to water, constriction of arterial smooth muscle

Question 6

causes of SIADH

Answer 6

ectopic production of ADH by cancer cells, surger, drugs, head trauma

Question 7

treatment of SIADH

Answer 7

water restriction, ADH receptor blockers, remove tumor if present

Question 8

diabetes insipidus

Answer 8

insufficiency of ADH with polyuria and polydispia

Question 9

clinical manifestations of diabetes insipidus

Answer 9

high dilute urine flow, drink large amounts of water, generic signs of dehydration

Question 10

neurogenic DI

Answer 10

damage to the brain causing insufficient ADH

Question 11

nephrogenic DI

Answer 11

lack of ADH receptors in kidney causing an insufficient ADH response

Question 12

psychogenic DI

Answer 12

drinking too much water

Question 13

describe how you test for DI

Answer 13

restrict water for a day and if osmolarity increases its PSYCHOGENIC. If it doesn’t change, give them ADH, if osmolarity increases its NEUROGENIC (decreased ADH production) of it doesn’t change, its NEPHROGENIC (kidney doesn’t respond to ADH

Question 14

treatment for psychogenic DI

Answer 14

restrict water

Question 15

treatment for nephrogenic DI

Answer 15

drink lots of water and have a NaCl rich diet

Question 16

neurogeenic DI treatment

Answer 16

ADH replacement

Question 17

effects of hyposecretion of oxytocin

Answer 17

lack of milk ejection and prolonged labor, lack of compassion, bonding, etc

Question 18

galactorrhea

Answer 18

hypersecretion of oxytocin (excessive/inappropriate secretion of milk)

Question 19

hormones of the ant pit

Answer 19

ACTH, LH, FSH, GH, PRL, TSH

Question 20

what hypothalamic tropic hormone is an antagonist to PRL?

Answer 20

PIF/dopamine. when dopamine level is low, there is an increase in PRL

Question 21

how do you determine the origin of a low plasma ant pit hormone problem?

Answer 21

hypothalamic factor stimulation test

Question 22

what do you do in a hypothalamic factor stimulation test?

Answer 22

1. take blood sample 2. inject one or more of the hypothalamic releasing factors 3. take another blood sample 4. compare amounts of the ant pit hormones before and after the hypothalamic factor injection

Question 23

after a hypothalamic factor stimulation test, if pit hormones increase the problem is the ___, or if the pit hormones do not increase, the problem is the ______.

Answer 23

hypothalamus, pituitary

Question 24

ant pit disorders

Answer 24

pit infarction, empty sella syndrome, hyperpituitarism

Question 25

pit infarction

Answer 25

hypopituitarism due to hemorrhage that can manifest with apoplexy (paralysis with loss of consciousness)

Question 26

sheehan syndrome

Answer 26

postpartum hypopituitarism

Question 27

empty sella syndrome

Answer 27

hypopituitarism due to a shrunk or flattened pit gland

Question 28

hyperpituitarism

Answer 28

commonly due to a benign adenoma, destruction of end organ, a hypothalamic disorder, or carcinoma

Question 29

treatment of pit adenomas

Answer 29

hormone therapies, surgery, radiation

Question 30

types of pit adenomas

Answer 30

(most common) PRL, GH, ACTH, LH/FSH, TSH (least common)

Question 31

t/f. the larger a pit tumor grows, the greater the larger the blind spot gets

Answer 31

true.

Question 32

symptoms of hyperpituitarisms

Answer 32

visual defects, headache, oculomotor palsies (inability to dilate/constrict pupil, follow object, open eyelid)

Question 33

PRL release is stimulated by

Answer 33

TRH, oxytocin, stress and high estrogen, ovulation, suckling

Question 34

PRL release is inhibited by

Answer 34

somatostatins and dopamine, estrogen and progesterone together (pregnancy), PRL (when it causes the hypot to release dopamine)

Question 35

actions of PRL

Answer 35

induces proliferation of glandular tissue and mammary glands, increases Ca from bone and secretion into milk, stimulates immune system

Question 36

female hypersecretion of PRL

Answer 36

amenorrhea, galactorrhea, hirsutism, osteopenia

Question 37

male hypersecretion of PRL

Answer 37

hypogonadism, impaired libido, infertility, gynecomastia and galactorrhea

Question 38

treatment of PRL hypersecretion

Answer 38

dopamine agonist (bromocryptin), somatostatin analogs (octreotide)

Question 39

diagnosis of PRL hyposecretion

Answer 39

low plasma PRL, TRH stim test to determine is at the pit or hypot

Question 40

GH release is stimulated by

Answer 40

GHRH, ghrelin (released when we eat to use for fuel), estrogen and testosterone

Question 41

GH release is inhibited by

Answer 41

somatostain, IGF

Question 42

actions of GH

Answer 42

stimulates IGF production by liver and other tissues; GF and IGF stimulate growth of long bones at epiph plate, increase aa incorporation into proteins, inhibit protein breakdown, increase lipolysis; inhibit hepatic glucose uptake and promotes gluconeogenesis, stimulates the immune sys

Question 43

disorders of hypersecretion of GH

Answer 43

gigantism (prepubertal adenoma), acromegaly (post pubertal adenoma)

Question 44

gigantism is accompanied with an increased risk of

Answer 44

hypertrophic cardiomyopathy

Question 45

what can cause early death in individuals with acromegaly?

Answer 45

cardiac hypertrophy

Question 46

treatment for hypersecretion of GH

Answer 46

somatostatin analog (octreotide) that inhibits GH, glucagon and insulin

Question 47

disorders of hyposecretion of GH

Answer 47

children: dwarf (growth failure with increase % fat and decreased lean mass, thin and fragile bones, poor immune sys); adult: depression, poor lactation, decreased bone mass, poor immune sys, low blood gluc)

Question 48

at what age does GH fall?

Answer 48

60-65

Question 49

treatment with hyposecretion of GH

Answer 49

GH or IGF-1 injections depending on where the problem is

Question 50

t/f. hormones dictate growth

Answer 50

true

Question 51

thyroid disorders

Answer 51

hyperthyroidism, hypothyroidism, non-neoplastic diseases, neoplastic disease

Question 52

TH is stimulated by

Answer 52

TRH, cold

Question 53

TH is inhibited by

Answer 53

somatostatins, dopamine, stress, T3

Question 54

low TSH, low T3

Answer 54

secondary/tertiary hypothyroidism

Question 55

high TSH, low T3

Answer 55

primary hypothyroidism

Question 56

low TSH, normal T3

Answer 56

sublingual hyperthyroidism

Question 57

normal TSH and T3

Answer 57

euthyroidism

Question 58

high TSH, normal T3

Answer 58

subclinical hypothyroidism

Question 59

low TSH, high T3

Answer 59

primary hyperthyroidism

Question 60

high TSH, high T3

Answer 60

secondary/tertiary hyperthyroidism

Question 61

what does T3 do

Answer 61

regulates basal activity of most cells and increases mRNA synthesis

Question 62

t/f. treatment with thyroid increases metabolic rate

Answer 62

true.

Question 63

another name for hyperthyroidism

Answer 63

thyrotoxicosis

Question 64

clinical manifestations of hyperhtyroidism

Answer 64

weight loss, heat intolerance, tachycardia/other arrythmias, clots, tremors, warm/moist skin, diarrhea, exopthalamos, lid lag, thyroid storm

Question 65

common causes of hyperthyroidism

Answer 65

graves, multinodular goiter, thyroid adenoma

Question 66

clinical manifestations of hypothyroidism

Answer 66

fatigue, weight gain, cold intolerance, bradycardia, impaired contraction, delayed reflexes, lethargy, rough/dry skin, hair loss, reduced appetite, constipation, deepened voice (myxedema)

Question 67

lack of thyroid in utero causes

Answer 67

congenital cretinism

Question 68

infant hypothyroidism can cause

Answer 68

developmental cretinism and TH supplements can help normal development

Question 69

why should a woman get her thyroid check before she gets pregnant?

Answer 69

maternal hypothyroidism can cause a 10-20 IQ drop in infant

Question 70

causes of acquired hypothyroidism

Answer 70

hashimotos, iatrogenic

Question 71

non neoplastic thyroid problems

Answer 71

thyroiditis, graves, goiter

Question 72

neoplastic thyroid problems

Answer 72

adenoma, carcinoma

Question 73

hashimotos thyroiditis

Answer 73

most common cause of hypothyroidism and is an AI destruction of the thyroid; presence of hurthle cells

Question 74

dequervain thyroiditis

Answer 74

enlarged sore throat that follows URI, immune cross reaction with thyroid follicles, self limiting; presence of multinucleated giant cells

Question 75

silent thyroiditis

Answer 75

cycels of hypo and hyper, postpartum or mid age, painless; presence of lymphoid infiltrate

Question 76

reidels thyroiditis

Answer 76

hypothyroidism, hard mass, rare, tracheal compression; presence of extensive fibrosis

Question 77

symptoms of graves

Answer 77

hyperthyroidism, exopthalamus, dermopathy

Question 78

histology of thyroid with graves

Answer 78

hyperplasia of epithelium, scalloped colloid

Question 79

treatment of graves

Answer 79

beta blockers, iodine blockers, hot iodine, surgery

Question 80

what is a goiter

Answer 80

enlarged thyroid due to inflammatory or noninflammatory response

Question 81

t/f. you can determine the exact origin of the problem on the axis with a the presence of a goiter

Answer 81

false. it only tells you that there is a problem because it can be from hypo, hyper, or normal thyroid levels

Question 82

3 ways to decrease T3/4

Answer 82

no iodine, enzyme defects, unknown reasons

Question 83

t/f. most thyroid neoplasms are adenomas

Answer 83

true. carcinomas are uncommon

Question 84

4 types of thyroid carcinoma

Answer 84

papillary, follicular, medullary, anaplastic

Question 85

papillary thyroid carcinoma

Answer 85

most common, good survival, “orphan annie” tumor; histo: psammoma body

Question 86

follicular thyroid carcinoma

Answer 86

second most common, good survival, worsens with age, tumor size and invasiveness; histo: vascular invasion

Question 87

medullary thyroid carcinoma

Answer 87

rare, decent survival if only in the thyroid, pretty bad survival if it metastisized, tumor of parafollicular cells

Question 88

anaplastic thyroid carcinoma

Answer 88

rarest type, fast growing neck mass, terrible prognosis

Question 89

levels of adrenal cortex (out to in)

Answer 89

zona glomerulosa, fasciculata, reticularis

Question 90

what does the zona glomerulosa produce?

Answer 90

mineralcorticoids (salt)

Question 91

what does the zona fasciculata produce?

Answer 91

glucocorticoids (sugar)

Question 92

what does the zona reticularis produce?

Answer 92

sex hormones (sex)

Question 93

what does the adrenal medulla produce?

Answer 93

epi/norepinephrine

Question 94

cushing syndrome

Answer 94

elevated plasma cortisol

Question 95

cushing disease

Answer 95

elevated ACTH production due to a pit tumor

Question 96

t/f. all cushing disease is cushing syndrome; not all cushing syndrome is cushing disesae

Answer 96

true.

Question 97

cortisol, ACTH, MSH levels in cushing syndrome

Answer 97

high cortisol, low ACTH, low MSH

Question 98

cortisol, ACTH, MSH levels in cushing disease

Answer 98

high cortisol, high ACTH, high MSH

Question 99

what will high MSH cause?

Answer 99

hyperpigmentation

Question 100

clinical manifestations of cortisol hypersecretion

Answer 100

increased resistance to catecholamines (high bp, tachycardia), IR, weight gain, muscle fatigue due to muscle breakdown, osteoporosis, increased inflammation, thin skin

Question 101

cortisol’s effect on fat metabolism (central and peripheral)

Answer 101

on central fat - decrease HSL/ATGL and increase LPL; on peripheral fat - increase HSL/ATGL and decrease LPL

Question 102

low dose dexamethasone results in diagnosis of high plasma cortisol

Answer 102

decreased ACTH and cortisol = chronic stress; no change = pit tumor/ectopic ACTH

Question 103

high dose dexamethasone results in diagnosis of high plasma cortisol

Answer 103

decreased ACTH and cortisol = pit tumor; no change pit tumor

Question 104

if there is no change in ACTH or cortisol in a low dose dexamethasone test, why would a high dose dexamethasone test tell you where the problem is a pit tumor or ectopic ACTH

Answer 104

ectopic tumors are not sensitive to dexamethasone inhibition of ACTH, so no changes in both low and high dose tests would tell you it could be ectopic ACTH

Question 105

if ACTH is low and cortisol, it could be from what?

Answer 105

adrenal tumor or injection of excess cortisol

Question 106

hypersecretion of adrenal androgen and estrogens can cause

Answer 106

feminization or virilization

Question 107

adrenal medulla hyperfunction is caused by

Answer 107

tumors of chromaffin cells (aka pheochromocytoma)

Question 108

symptoms of catecholamine hypersecretion

Answer 108

high HR and BP, diaphoresis, weight loss, hyperglycemia/hyperlipidemia

Question 109

addison disease

Answer 109

adrenal hyposecretion, usually AI origin, with symptoms of skin hyperpigmentation, low BP, weakness, slow onset

Question 110

waterhouse-friderichsen syndrome

Answer 110

adrenal hyposecretion caused by bacterial infection, bilateral hemorrhage, low BP, shock, DIC (?)

Question 111

features of MEN disorders

Answer 111

genetic endocrine tumors that are typically found in younger people, are multifocal, and agressive

Question 112

MEN-1 effects

Answer 112

not really a problem in the thyroid, but hyperplasia, adenoma, and carcinoma of other endocrine organs

Question 113

MEN-2 effects

Answer 113

thyroid medullary carcinoma, and not really a problem in other organs

Question 114

features of MEN-1

Answer 114

parathyroid hyperplasia, pancreatic hormone tumors, pit adenoma, duodenal gastrinoma, thyroid and adrenal adenomas, lipomas

Question 115

MEN-1 gene mutation

Answer 115

turns off gene, encodes menin, is a TSG

Question 116

features of MEN-2a

Answer 116

meullary thyroid carcinoma, pheochromocytoma, parathyroid hyperplasia

Question 117

RET gene mutation

Answer 117

turns MEN-2a and 2b on, proto-oncogene, encodes TK receptor

Question 118

features of MEN-2b

Answer 118

MARFAN, neuromas, medullary thyroid carcinioma, pheochromocytoma

Question 119

t/f. insulin is the only major hormone that promotes body fat storage and inhibits fat use

Answer 119

true.

Question 120

castrati

Answer 120

the absence of androgens, leading to a “generic female” fat deposition