Endocrine System

Question 1

thyroid and parathyroid glands

Answer 1

TH
thyroglobulin
PTH

Question 2

Pancreas

Answer 2

exocrine: trypinogen, chymotrypsin, amylase, lipase
endocrine: insulin, glucagon

Question 3

adrenal

Answer 3

• cortisol
• aldosterone
• estrogens
• androgens

Question 4

bone formation

Answer 4

PTH: calcium, phosphorous

Question 5

growth formation

Answer 5

estrogens, androgens: testosterone

-growth hormone releasing hormone-GH (somatropin)

Question 6

metabolic rate control

Answer 6

TSH

TH

Question 7

CHO metabolism

Answer 7

insulin

glucagon

Question 8

blood pressure control

Answer 8

cortisol
aldosterone
ADH

Question 9

bisphosphanates

Answer 9

• used for osteoporosis and Paget’s disease
• alendronate (fosomax), etidronate (Didronell), pamidronate (Aredia), risedronate (Actonel), tiludronate (Skelid)
• alendronate, risedronate, ibendronate are used mostly for prevention
• rational drug selection: high risk: white, Asian, hx of eating disorders
  
  • correct preexisting vit. D deficiency, hypocalcemia b/4 starting bisphonates

Question 10

pharmacodynamics of bisphosphanates

Answer 10

-inhibits osteoclastic activity and bone resorption thus increases bone density
-bone density mass increases rapidly in first year and plateau’s after 2-3 yrs
ADRs: diarrhea, constipation, n/v, hypocalcemia, hypophosphatemia, dyspenia, esophageal ulcers, arthragia, myalgia, HA, rash, afib
-pathologic fx for tx >3 months
-osteonecrosis (jaw)
-muscular skeletal pain
-caution with patients with renal impairment, hrt failure, liver dz, active GI problems
-drug and food interactions: ranitidine doubles alendronate bioavailability, calcium supplements, antacids

Question 11

pharmacokinetics of bisphonates

Answer 11

• must be taken with 8 oz of water and fasting
• pt. must remain upright for 30 minutes or one hour with ibandronate
• onset 3-6 wks peak 3-6 months
• half life ten years
• metabolism-none
• excretion: urine, feces (unabsorbed drug)
• most pregnancy category C except pamidronate category D

Question 12

Human growth hormone

Answer 12

• stimulates growth and metabolism of every cell in body

- used for short stature men

Question 13

pharmacodynamics of human growth horomone

Answer 13

• initial insulin-like effect
• simulates growth of linear bones, skeletal muscles and organs
• simulates erythropoietin

Question 14

pharmacokinetic human growth hormone

Answer 14

IM and SQ well absorbed
-bioavailability 75% SQ
-metabolism: hepatic renal 90%
excretion: renal
ADRs: antibody development, hyperglycemia, edema, hypothyroidism, arthralgia, ha, dizziness, flu-like sx's

Question 15

pancreatic enzymes

Answer 15

-used for cystic fibrosis and pancreatitis
-monitoring: CF-lifetime
pancreatitis-contraindicated during times of acute illness
hypersensitivity-may need products from vegetable sources
steatorrhea: needs monitoring

Question 16

pharmacodynamics of pancreatic enzymes

Answer 16

• inactivated by pH values
• pancreatin (Ku-zyme) pancrealipase (Pancreas)
• subsititute for pancreatic enzymes

Question 17

pharmacokinetic of pancreatic enzymes

Answer 17

-taken immediately before of with meal
-absorption: none, because it acts locally in GI tract
-excretion: feces
-pancrelipase made from pork, pancreatin is made from pork, cow, or vegetable source-not good for people with gout or renal impairment
-antacids decrease effectiveness, decreases absorption of oral iron
ADRs: skin irritation, rashes, GI: n/v, stomatitis, hyperuicosuria, hyperuricemia

Question 18

pharmacodynamics of inulin

Answer 18

• total number of receptor sites can be decreased by obesity and long standing hyperglycemia
• binds at insulin receptor sites on cell membrane allowing glucose to enter cells
• acts on liver to increase storage of glucose as glycogen, decreases production of urea, catabolic activity and cAMP,
• promotes protein synthesis on muscle cells
• reduces circulation of free fatty acids and promotes storage of triglycerides in adipose tissue

Question 19

types of inslin

Answer 19

rapid-acting: Lispro (Humalog), apart (Novolog), or glulisine (Apidra), onset about 5 minutes, peaks in one hour, duration 4-5 hours SQ
short-acting: humulin insulins, sometime used around mealtime; takes 30-45 minutes before eating, peaks in 3-4 hrs. duration 4-ten hours, can give IM off label use
intermediate-acting: NPH is mixed with protamine delaying absorption insulin looks cloudy and has to be mixed before its injected; onset half to hour peak 4 to ten duration twelve 24 hours
long-acting: glargine (Lantus), detemir (levemir) insulin onset 2-4 hours, duration 24 hours with little or no peak
ultra long lasting: Degludec, 42 hour duration

Question 20

hypothalmic-pituitary system

Answer 20

• thyrotropin-releasing hormone creates TSH
• GnRh-leads to FSH, LH
• prolactin releasing hormone-prolactin
• oxytocin
• antidiuretic hormone (ADH)

Question 21

etidronate (Didronel)

Answer 21

• bisphosphanate
• reduces both bone resorption and formation (coupled together)
• reduce vertebral fractures

Question 22

pamidronate and risedronate (Aredia and Actonel)

Answer 22

• bisphosphonate
• inhibits resorption without inhibiting formation or mineralization
• pamidronate only available in parenteral form
• both reduce vertebral fractures
• risedronate reduces non-vertebral fractures

Question 23

alendronate (Fosamax)

Answer 23

• bisphosphonate
• 100-500x more potent then other drugs
• highly selective inhibitor
• inhibits osteoclastic activities without interfering with osteoclast recruitment or attachment
• reduces both vertebral and nonvertebral fractures

Question 24

tiludronate (Skelid)

Answer 24

• bisphosphonate
• inhibits osteclastic activity by interfering with osteoclasts attachment to bone surface and inhibiting osteclastic proton pump
• decreases vertebral fractures

Question 25

zoledronic acid (Zometa)

Answer 25

• bisphosphonate
• inhibits osteoclast activities and induces apoptosis
• only IV
• reduces vertbral fractures

Question 26

ibandronate (Boniva)

Answer 26

• bisphosphonate
• inhibits osteoclastic activity and reduces bone resorption
• reduces vertebral fractures
• can be given IV every 3 months if po untolerated or unwilling

Question 27

monitoring on bisphosponate

Answer 27

• electrolytes-especially serum calcium

- alkaline phosphatase-increasing positive for paget’s dz

Question 28

somatrem and somatropin

Answer 28

-for GH depression
-given to stimulate synthesis of somatomedins in growth plate cartilage resulting in increased linear, organ and skeletal growth and increased protein synthesis
-insulin-like effect
-contraindicated for patients with closed epiphyses, or active tumor growth
-close monitoring is needed for patient with thyroid disorders
-insulin resistance can occur–cautious with diabetic patients
ADRs: hyperglycemia, hypothyroidism, edema to secondary Na+ retention

Question 29

pancreas

Answer 29

• exocrine and endocrine glad
• 2 major dz: CF and pancreatitis
• both leads to obstruction of ducts resulting in activated digestive enzymes within pancreas and failure of releasing enzymes into duodenum to digest–malabsorption

Question 30

diabetes

Answer 30

type one: destruction of beta cells to produce insulin
type 2: insulin resistant
-either one-disequilibrium between excess production of glucagon and lack of insulin

Question 31

pharmacokinetics of insulin

Answer 31

-absorption dependent on type, injection site, and volume injected
-abdominal absorbs 50% more
-metabolism: induces CYP1A2
-excretion: urine
ADRs: hypoglycemia, diabetic ketoacidosis,
ETOH increases hypoglycemia
-drug interactions: beta blks increase insulin resistance and masks hypoglycemic symptoms

Question 32

average dosing for insulin

Answer 32

0.6-0.8 U/kg

Question 33

monitoring for diabetes

Answer 33

• routine glycohemoglobin, renal function and CBC
• A1C test x2/yr when under control; once quarterly if tx goals not reached
• goal usually is A1C

Question 34

type 2 diabetes

Answer 34

• insulin resistance
• 4 primary alterations: insufficient production of endogenous insulin by beta cells, tissue insensitivity to insulin, impaired response of beta cells to BG levels, excessive production of glucose secondary to increased glucagon levels
• liver and incretin hormone system is the major organ

Question 35

sulfonyureas

Answer 35

• helps with insufficient production of endogenous insulin by stimulating release from beta cells
  
  • improve insulin binding or increase # of receptors but does not improve insulin utilization
• second line drug
• not used as monotherapy
• all potentiate effects of antidiuretic hormone
• glipizide (Glucotrol), glyburide (Diabeta), glimeride (Amaryl)-

Question 36

pharmacokinetics of sulfonylureas

Answer 36

• metabolism: liver CYP2C9
• absorption: all with most
• protein binding: >95%
• excretion: urine and feces

Question 37

pharmacotherapeutics of sulfonylureas

Answer 37

-precautions/contraindications: cross sensitivity with sulfonamides and thiazide diuretics
-pregnancy C
-older adults more sensitive
-pediatric use for 10-18 yrs old but off label
ADRs: hypoglycemia, GI, derm rashes, SIDH, hemolytic anemia, leukopenia, thrombocytopenia, wt. gain

Question 38

clinical use/dosing for sulfonyureas

Answer 38

• for type 2
• use either first or second generation–first generation more hypoglycemia, wt. gain, and reduction of efficacy overtime
• dose on individual response-titrate every 4-7 days
• for neurogenic diabetes insipidus–chlorpropamide off label use

Question 39

rational drug selection/dosing for sulfonylureas

Answer 39

• age: avoid using chlorpropamide and glyburide in older adults–use short acting glipizide
• low cost-generic available
• with comorbidities: renal impairment use glipizide/tolbutamide or glyburide
• concurrent with insulin-only glimepiride by FDA, most 2nd generation

Question 40

monitoring of sulfonylureas

Answer 40

-HbA1C baseline every 6 months if meeting therapy goals or every 3 months if adjusting
CBC on onset and every8-ten months
-can be taken food except glipizide must be taken 30 minutes prior to meal

Question 41

biguanides

Answer 41

• oral antihyperglycemic drug
• first line drug for adults and children over age ten
• metformin (glucophage)
• monotherapy-lacks hypoglycemic effects, weight neutral, and decreased CVD events

Question 42

pharmacodynamics biguanides

Answer 42

• decreases glucose in liver
• decreases GI glucose absorption and improves insulin sensitivity by increasing peripheral glucose uptake and utilization
• does not stimulate insulin from beta cells
• inhibits platelet aggregation and reduces blood viscosity

Question 43

pharmacokinetics of biguanides

Answer 43

• absorption: 50-60% after po dose; food decreases and delays absorption
• no hepatic metabolism
• excreted by kidneys
• ETOH potentiates drug’s effect on lactate metabolism

Question 44

pharmacotherapies for biguanides-

Answer 44

precautions/contraindications

• renal dz/dysfunction
• metabolic acidosis
• hepatic dz
• withhold 48 hrs prior to test with iodine contrast
• monitor pt. with b 12 deficiency
• category B-not recommended
• not for use of children

Question 45

rational drug selection/dosing of biguanides

Answer 45

• IR v. ER-can safely switch btwn both.-just monitor glucose
• start 500 mg BID with max of 2550 mg/day
  
  • if pts not responded after 4 weeks consider adding other oral agents like sulfonylurea
• part of metabolic syndrome treatment protocol
• monitoring: renal function, ketones, and HbA1C

Question 46

Alpha-glucosdiase inhibitors

Answer 46

• acarbose (Precose)
• migitrol (glyset)
• NOT monotherapy *can be for pre-diabetes

Question 47

pharmacodynamics of alpha-glucosidase inhibitors

Answer 47

• inhibits absorption of CHO from GI tract high lowers BG after meals
• no hypoglycemia effect

Question 48

pharmacokinetics of alpha-glucosidase inhibitors

Answer 48

-

Question 49

Pharmacotherapies of alpha-glucosidase inhibitors

Answer 49

Precautions/contraindications
-not given to patients with IBS, possible bowel obstruction or renal impairment
-not for pregnant patients
ADRs: flatulance, diarrhea, abdominal pain
-drug interactions: acarbose and digoxin and miglitol and propanolol and ratadine

Question 50

Clinical use/dosing of alpha-glucosidase inhibitors

Answer 50

• initial dose 25 mg TID titration 4-8 weeks

- take with first bite of meal

Question 51

pharmacodynamics of thiazolidinediones

Answer 51

• pioglitazone (Actos), rosiglitazone (Avandia)
• improves target cell response to insulin
• increases utilization of insulin by liver and muscle cells
• reduces liver glucose production
• modest impact on lipids
• no hypoglycemic effects
• higher risk of bladder ca
• increased risk of of HF
• weight gain

Question 52

pharmacokinetics of thiazolidinediones

Answer 52

• rapidly absorbed after po dose
• metabolized by liver CYP2C8 and 3A4
• 99% protein bound
• excrete through urine and feces as metabolites

Question 53

pharmacotherapies of thiazolidinediones

Answer 53

precautions/contraindications
-chronic liver dz-increased concentrations of metabolites
-fluid retention-exacerbates HF
-restriction of use of rosiglitizone d/t increased risk of MI
ADRs: edema, URI, headache, fatigue
drug interactions: oral contraceptives need higher doses;
-any drug metabolized by CYP3A4-corticosteroids, ketoconazole

Question 54

meglitinides

Answer 54

• short acting insulin secretagogues
• add-on therapy
• repalinide (Prandin), nateglinide (Starlix)
• used in place of sulfonylurea
• expensive

Question 55

pharmacodynamics of meglitinides

Answer 55

• increases insulin release from beta cells by closing K+ channels leading to opening of Ca+ channels which then releases insulin
• short time in plasm

Question 56

pharmacokinetics of meglitinides

Answer 56

• absorbed rapidly and completely
• metabolized in liver by CYP3A4 and CYP2C8
• excreted within 96 hours; mostly in feces some in urine

Question 57

pharmacotherapies of meglitinides

Answer 57

precautions/contraindications
-liver impairment-higher concentrations of substrate
-pregnancy cat C
-not approved for pediatrics
ADRs: hypoglycemia
drug interactions: any drugs metabolized by CYP 3A4 or CYP 2C9
-antifungals and antimicrobials inhibit metabolism–increasing risk of hypoglycemia

Question 58

dosing for meglitinides

Answer 58

• patient’s with HbAC 8 initial one mg before each meal

- titrate every 2 weeks for maximum of sixteen mg/24 hours

Question 59

dipeptidyl peptidase-4 inhibitors

Answer 59

• “gliptins”
• newest class of antidiabetic agents
• sitagliptin (Januvia) and saxaglipin (Onglyza)
• different mechanism of action: works on incretin hormone system
• add-on therapy-*can be used as monotherapy but more effective in combination
• once a day

Question 60

pharmacodynamics of dipeptidyl peptidase-4 inhibitors

Answer 60

• inhibits DPP-4 which breaksdown GLP and GIP which are released in response to meals
• increases secretion of insulin
• suppresses release of glucagon from pancreas
• promotes pre/post prandial glucose
• slows gastric emptying
• promotes weight loss
• well tolerated

Question 61

pharmacotherapies for dipeptidyl peptidase-4 inhibitors

Answer 61

precautions/contraindications
-renal dysfunction-dependence on renal system for elimination
-pregnancy cat B
-not approved for pediatrics
ADRs: GI, headaches
drug interactions: ace inhibitors-increased risk for angioedema

Question 62

glucagon-like peptide 1 agonists

Answer 62

• new drug of antidiabetic agents
• exenatide (Byetta)
• SQ injection twice daily; can be given weekly
• given 60 minutes before meals
• dose 6 hours apart
• very expensive
• add on therapy

Question 63

pharmacodynamics of glucagon-like peptide-1 agonists

Answer 63

• promotes insulin release from beta cells when glucose level rises
• decreases glucagon secretion
• increases satiety

Question 64

pharmacotherapies of glucagon-like peptide agonists

Answer 64

Precautions/contraindications
-severe GI dz-colitis, crohns
-pregnancy cat C
-renal dz
ADRs: n/v/d, pancreatitis
drug interactions: increased INR if given with warfarin, digoxin

Question 65

amylin agonists

Answer 65

• pramlintide (Symlin)
• adjunct therapy for type one and type 2
• co-administered with insulin
• lowers glucose by acting on glucagon secretion and slowing gastric emptying
• via SQ injections

Question 66

pharmacodynamics of amylin

Answer 66

• slows gastric emptying
• suppresses glucagon secretion leading to decreased endogenous glucose
• centrally mediated modulation of appetite–potential weight loss

Question 67

pharmacotherapies of amylin

Answer 67

precautions/contraindications
-high risk of hypoglycemia since administer with insulin
-pregnancy cat C
ADRs: GI
drug reactions: acetaminophen pharmacokinetics altered–must administer separately

Question 68

glucagon

Answer 68

• considered antidote: used for diabetic patients who have hypoglycemia d/t insulin overdose
• SQ, IM, IV

Question 69

pharmacodynamics of glucagon

Answer 69

• stimulates hepatic gluconeogensis and glycogenolysis leading to increased BG
• BG rises within ten minutes of injection with maximal effect after 30 minutes
• hepatic stores necessary for glucagon to produce antihypoglycemic effect

Question 70

pharmacotherapies of glucagon

Answer 70

precautions/contraindications
-pregnancy cat B
-use caution with pt suspected having phenochromocytoma or insulinoma
ADRs: n/v
drug interactions: increased anticoagulant effects of po anticoagulants

Question 71

patient education on glucagon

Answer 71

• educate family members/roommates on to administer IM
• pt given supplemental CHO when awake and can swallow
• lifestyle management

Question 72

thyroid hormones

Answer 72

• levothyroin (T4), liothyronine (T3), liotrix (mixture of T3 and T4)
• hypothalamus-pituitary-thyroid-hormone begins with secretion of TRH from hypotalamus in response to cold, stress, decreased levels of T4
• TRH leads to secretion of TSH which: releases stored thyroid hormone, increases iodine uptake and utilization, increases synthesis of T3 and T4, increases synthesis of prostaglandins
• create negative feedback loop to inhibit TRH and TSH
• synthetic hormones produces feedback loop to stop secretion of TSH
• levothyroxine drug of choice d/t longer half life

Question 73

pharmacokinetics of thyroid hormones

Answer 73

• absorption is erratic with po and decreases with age, food, health of GI tract
• majority is protein bound
• excreted by bile/feces

Question 74

pharmacotherapies of thyroid hormones

Answer 74

precautions/contraindication
-contraindicated after acute MI or thyrotoxiocosis
-pregnancy cat A
-may need higher doses when pregnant
ADRs: symptoms of hyperthyroidism, long term use associated with decreased bone density in hips/spine
drug interactions: bile-acid sequestrants, iron salts, antacid decrease absorption; estrogen decrease response; warfarin, digoxin, and beta blockers may decrease action

Question 75

hypothyroidism

Answer 75

• tx indicated with TSH>ten or btwn 5-ten if goiter or anit-thyroid peroxidase
• thyroxin replacement is lifelong
• levothyroxine drug of choice

Question 76

levothyroxine dosing

Answer 76

pts with CV: initial dose 50 mcg/day 2-4 wks may titrate
-average full replacement one hundred -one hundred twenty five mcg/day
pt>50 with CV or lifelong disease: initial dose twelve.5 to 25 mcg/day, titrate monthly

Question 77

antithyroid agents

Answer 77

-propylthiouracil (PTU), methimazole (Tapazole)
pharmacodynamics:
-blocks synthesis of thyroxine and trilodothyronine
-does not treat underlying pathology in hyperthyroidism

Question 78

pharmacokinetics of antithyroid agents

Answer 78

-rapidly absorbed after po dosing peaking within one hour
75-80% protein bound–except methimazole is NOT protein bound
-short half life
-excreted through urine

Question 79

pharmacotherapies of antithyroid agents

Answer 79

precautions/contraindications
-pregnancy cat D
-high concentrations in breast milk
-PTU not recommended for children
ADRs: agranulocytosis, drowsiness, headache, alopecia, skin rashes, renal/hepatic failure
drug reaction: lithium, warfarin