HTN

Question 1

preload

Answer 1

volume of blood in heart after diastole (filling)

Question 2

afterload

Answer 2

amt of resistance the left ventricle must overcome to pump blood out of heart and to the body

Question 3

diuretics work primarily on ____ _____ (broad)

Answer 3

blood volume

Question 4

what will we see with dual therapy with anti-hypertensive and diuretic?

Answer 4

enhanced therapeutic effects :)

Question 5

3 types of diuretics + their prototype

Answer 5

1. loop - Lasix
2. thiazide - hydrochlorothiazide
3. potassium-sparing - spironolactone

Question 6

which diuretic is MOST efficacious?

Answer 6

furosemide (Lasix)

action is earlier on within nephron transport –> larger # of solutes to act on –> more diuresis

Question 7

what is known as the superhero of diuretics? + what’s the prototype?

Answer 7

loop diuretics - Lasix

Question 8

what diuretic would we use for acute pulmonary edema?

Answer 8

furosemide

Question 9

MOA of loop diuretics (furosemide)

Answer 9

inhibits Na and Cl reabsorption @ LOOP of henle –> decreased blood volume

Question 10

what is onset for PO furosemide + how long does it last

Answer 10

1 hour onset; lasts 8 hours

Question 11

what is onset for IV furosemide? knowing this, what is your main nursing consideration?

Answer 11

5 minutes –> GET BED PAN READY!

Question 12

SE of furosemide (3)

Answer 12

1. electrolyte imbalances (Na, Cl, K)
2. hypotension
3. ototoxicity (if too quick IV or dose too big)

Question 13

with furosemide we see an increased risk of what? (3)

Answer 13

1. digoxin toxicity
2. lithium toxicity
3. gout exacerbations

Question 14

MOA of thiazide diuretics

Answer 14

reduces blood volume @ distal tubule

Question 15

prototype for thiazide diuretics

Answer 15

hydrochlorathiazide (HCTZ)

Question 16

onset for HCTZ + how long does it last?

Answer 16

onset 2 hours; lasts 12

Question 17

what is the most widely used diuretic?

Answer 17

HCTZ

Question 18

SE of HCTZ (3)

Answer 18

1. electrolyte imbalances (K+ loss not as extreme as in loop diuretics)
2. hypovolemia
3. hyperglycemia

Question 19

with HCTZ use, we see increased risk of what? (3)

Answer 19

1. digoxin toxicity
2. lithium toxicity
3. gout exacerbations

Question 20

what is the prototype for potassium-sparing diuretics?

Answer 20

spironolactone

Question 21

what is the MOA of K+ sparing potassium diuretics?

Answer 21

BLOCKS aldosterone @ distal tubule –> fluid loss, but K+ remains

Question 22

SE of spironolactone

Answer 22

1. hyperkalemia

2. endocrine effects (gynecomastia)

Question 23

onset of action for spironolactone

Answer 23

48 hrs (NOT a go-to/rescue drug)

Question 24

patient education points when using spironolactone

Answer 24

avoid salt substitutes (contain K+ and risk of hyperkalemia is increased)

Question 25

which diuretics put a pt at risk of hypokalemia?

Answer 25

1. loop

2. thiazide

Question 26

which diuretic puts a pt at risk of hyperkalemia?

Answer 26

potassium sparing

Question 27

potassium-sparing drugs are usually NOT given with which other antihypertensive drug class?

Answer 27

RAAS drugs

Question 28

when monitoring hydration status with diuretic use, what things are we monitoring?

Answer 28

I+O, daily weights

Question 29

prototype for alpha 1 adrenergic antagonist

Answer 29

prazosin (minipress)

Question 30

MOA of prazosin

Answer 30

blocks SNS activity on arterioles + veins –> vasodilation

Question 31

what effect would prazosin have on a person with BPH?

Answer 31

relaxation of smooth muscles in bladder + prostatic capsule

Question 32

SE of prazosin (3)

Answer 32

1. orthostatic hypotension
2. reflex tachycardia (b/c of drop in BP, body is compensating)
3. nasal congestion (b/c of vasodilation in nose)

Question 33

which medication is associated with 1st dose orthostatic hypotension?

Answer 33

prazosin

Question 34

what is the prototype for alpha 2 adrenergic agonist?

Answer 34

clonidine (Catapres)

Question 35

MOA of clonidine?

Answer 35

CENTRALLY ACTING (CNS) - decreases amount of neurotransmitter NE, which decreases SNS stimulation

–> leads to vasodilation, decreased BP, decreased CO

alpha 2 = BRAIN

Question 36

SE of clonidine

hint: think of MOA of this drug to determine your SE

Answer 36

drowsiness, sedation, dry mouth, rebound HTN (if stopped cold turkey)

working on CNS, so you’ll see CNS effects

Question 37

which drug will you see rebound HTN with if stopped cold turkey?

Answer 37

clonidine (b/c of the rebound SNS stimulation)

Question 38

routes for clonidine

Answer 38

oral + patch (change q 7 days)

Question 39

prototype for cardioselective beta blocker

Answer 39

metoproLOL

cardio selective = only acting on beta 1 (heart)

Question 40

MOA of metoprolol

Answer 40

1. decreased HR
2. decreased conduction
3. deceased force of contraction

Question 41

SE of metoprolol

hint: SE r/t work on heart + SE r/t decreased BP

Answer 41

r/t work on heart:

• bradycardia
• AV heart block
• decreased CO (watch for HF!)
• rebound excitation

r/t BP:

• hypotension
• fatigue
• drowsy
• dizzy
• headache
• depression

“BLAH FEELING” :(

Question 42

which type of beta blocker would we want diabetic patients on? why?

Answer 42

cardioselective; b/c with nonselective, beta 2 is blocked which blocks glycogenolysis –> hypoglycemia

Question 43

re: beta blockers, what do we need to tell our patients with DM?

Answer 43

this can mask s+s of hypoglycemia (b/c SNS is blocked) –> monitor BG very closely!

Question 44

what VS should we check before admin of beta blocker?

Answer 44

BP+HR (apical) - hold if <60

Question 45

what patient teaching is important with beta blockers?

Answer 45

1. don’t stop cold turkey!
2. watch for s+s of hypoglycemia
3. watch for s+s of HF (can decrease CO)

Question 46

prototype for alpha/beta blockers

Answer 46

carvedilol

Question 47

MOA of carvedilol

Answer 47

blocks alpha 1 + beta 1 + beta 2

Question 48

based on MOA of carvedilol, what effect would we see on the receptors?

Answer 48

vasodilation (alpha 1)
decreased HR, contractility, conduction (beta 1)
bronchoconstriction (beta 2)

Question 49

SE of carvedilol

Answer 49

1. hypotension
2. AV heart block
3. bradycardia
4. bronchoconstriction

Question 50

calcium channel blockers don’t work on ______

Answer 50

VEINS

arteries, arterioles only

Question 51

mnemonic to remember CCB + what are the prototypes?

Answer 51

Very Nice Drugs

1. verapamil
2. nifedipine
3. diltiazem

Question 52

MOA of CCBs (dipines + non dipines)

Answer 52

BOTH types: prevents muscle contraction –> smooth muscle relaxes –> vasodilation

non-dipines: verapamil + diltiazem: decreases HR, contractility, conduction

Question 53

we should not have patients on which 2 drug classes at the same time?

Answer 53

Calcium channel blockers + beta blockers (b/c both acting on heart)

Question 54

2 types of CCBs + the prototypes + which act on the heart

Answer 54

1. dipines: nifedipine (only vessels)

2. nondipines: verapamil + diltiazem (vessels and HEART) “vera and dilt are sweethearts, they’re always together”

Question 55

out of the CCBs, which one would you see reflex tachycardia with? what other medication can we give to decrease the effects of this?

Answer 55

nifedipine - give with BB to decrease reflex tachycardia effects

Question 56

SE of nifedipine

hint: think of mechanism of action

Answer 56

• reflex tachycardia
• flushing
• hypotension
• peripheral edema

Question 57

calcium channel blockers mainly work on increasing ______ ______

Answer 57

coronary perfusion

Question 58

route for verapamil

Answer 58

PO

IV

Question 59

SE of verapamil

hint: SE r/t vasodilation + SE r/t work on heart

Answer 59

-CONSTIPATION*** (Very common)

r/t relaxation of vascular smooth muscle:

• hypotension
• dizziness
• flushing
• edema

r/t work on heart:

• bradycardia
• AV heart block
• HF (in compromised heart)

Question 60

which CCB has a drug-food interaction? what is it?

Answer 60

verapamil + grapefruit

“old vera loves her grapefruit”

Question 61

4 drug classes for HTN in the RAAS system

Answer 61

1. ACE inhibitors
2. ARBs
3. direct renin inhibitors
4. aldosterone receptor blockers

Question 62

angiotensin 2 is known as a _______ _________

Answer 62

potent vasoconstrictor !!

Question 63

what are our * GOLD STAR* drugs in the RAAS system (best at stopping Angie)

Answer 63

ACE inhibitors

angiotensin converting enzyme

Question 64

MOA of ACE inhibitors (3 things - think sequence of events)

Answer 64

1. prevent conversion of angie 1 to angie 2 –> vasodilation
2. blocks aldosterone (prevents reabsorption of Na and Cl)
3. increases bradykinin

Question 65

what is recommended re: ACE inhibitor + patients with DM?

Answer 65

that they take a ACE inhibitor even BP is normal to prevent diabetic nephropathy (increases vasodilation in glomerulus)

Question 66

SE of ACE inhibitors (4)

Answer 66

• dry cough*** (will improve with SOME patients after a few weeks)
• angioedema
• hyperkalemia (b/c blocking aldosterone)
• 1st dose hypotension

Question 67

MOA of ARBs

Answer 67

block binding of angie 2 at receptors –> vasodilation

Question 68

SE of ARBs

Answer 68

decreased risk of cough / some cross sensitivity with ACE for angioedema

Question 69

are the RAAS drugs OK to use in preggos?

Answer 69

NOPE!

Question 70

prototype for ARBs

Answer 70

valsartan

Question 71

prototype for direct renin inhibitors

Answer 71

aliskiren (Tekturna)

Question 72

SE of aliskiren (Tekturna)

Answer 72

• cough
• angioedema
• diarrhea

Question 73

drug-food interaction with aliskiren

Answer 73

avoid with high fat meal - can decrease absorption

no LIS with the LIPASE

Question 74

prototype for aldosterone receptor blocker for HTN drug

Answer 74

spironolactone (blocks aldosterone + prevents reabsorption of Na and Cl, but hangs onto K)

Question 75

prototypes (2) of direct vasodilators

Answer 75

1. hydralazine (Apresoline)

2. nitroprusside

Question 76

MOA of hydralazine

Answer 76

direct relaxation of smooth muscle of vessels

Question 77

SE of hydralazine (3)

Answer 77

• reflex tachycardia
• increased blood volume
• SLE syndrome (butterfly rash like lupus - iatrogenic disease)

Question 78

hydralazine is primarily used for what?

Answer 78

emergency situations to rapidly decrease BP (IV)

Question 79

AE of hydralazine

Answer 79

severe hypotension

reflex tachycardia

Question 80

MOA of nitroprusside

Answer 80

venous and arteriolar dilation

Question 81

what is the DOC for HTN emergency? and what are the diastolic indications?

Answer 81

nitroprusside (IV)

diastolic >120

“NITRO = fast”

Question 82

which drug r/t HTN should we not use longer than 72 hours b/c of risk of toxic accumulation

Answer 82

nitroprusside

like cyanide toxicity