Drugs for Hypertension

Question 1

Captopril
Lisinopril
Enalaprilat
Benazepril
Enalapril
Fasinopril
Moexipril
Perindopril
Quinapril
Ramipril
Trandolapril

Answer 1

ACEI
Mechanism:
decrease angiotensin II–>decreased vasoconstriction–>decreased aldosterone–> decrease Na+ and H2O
Decreased bradykinin breakdown–>vasodilation

1st line therapy: diabetes, chronic kidney disease, coronary artery disease, LVD, previous ischemic stroke

Pharmacokinetics: cleared by kidney, reduce dose in pts with high renin

Avoid use: pregnancy, bilateral renal artery stenosis, angioedema, high-normal K+, hyperkalemia, volume depletion

Favorable: low-normal K+, prediabetic, albuminuria

Adverse effects: hypotension, coughing (bradykinin), angioedema, increased K+, acute renal failure, fetopathic potential, skin rash

Elderly African Americans respond poorly

Question 2

Losartan
Candesartan
Irbesartan
Valsartan
Telmisartan
Olmesartan
Eprosartan

Answer 2

ARBs
Mechanism:
binds angiotensin II type 1 receptor–>decrease effects of Ang-II

1st line therapy: diabetes, chronic kidney disease, coronary artery disease, LVD, used when intolerance to ACEI

Avoid use: pregnancy, bilateral renal artery stenosis, high-normal K_, hyperkalemia, volume depletion

Favorable: low-normal K+, prediabetes

Question 3

Nifedipine
Amlodipine
Felodipine

Answer 3

Dihydropyridine Calcium Channel Blocker

Mechanism: vasodilator (10:1 vascular: cardiac)

1st line therapy: diabetes, coronary artery disease

Avoid use: LVD, peripheral edema, high-normal HR or tachycardia

Favorable: Reynaud syndrome, elderly w/ isolated systolic hypertension

Question 4

Verapamil

Diltiazem

Answer 4

Non-dihydropyridine calcium channel blocker
Mechanism: vasodilator (1:1 vascular: cardiac)

1st line therapy: diabetes, alternative to beta blockers in coronary artery disease

Avoid use: 2nd or 3rd heart block, LVD, peripheral edema, low-normal heart rate

Favorable: Reynaud syndrome, migraine headache, high-normal HR or tachycardia

Question 5

Chlorthiazide

Hydrochlorothiazide

Answer 5

Thiazide diuretics

Mechanism: inhibit NaCl reabsorption in DCT, vasodilation

1st line therapy: LVD, previous ischemic stroke, add on for diabetes and coronary artery disease

Avoid: prior allergic reaction to sulfa-type drugs, gout, hyponatremia, hypokalemia, prediabetes, elevated fasting glucose (causes hyperglycemia)

Favorable: osteoporosis, high-normal K+

Question 6

Propranolol
Metoprolol
Pindolol
Labetolol

Answer 6

Beta blockers

Mechanism: block beta receptors (some block alpha as well–>labetalol)

1st line therapy: coronary artery disease, LVD, add on therapy for diabetes

Favorable: migraine headache, tachyarrhythmia, high-normal HR or tachycardia, hyperthyroidism, essential tremor, preoperative hypertension

Question 7

Spironolactone

Eplerenone

Answer 7

Aldosterone antagonist
Mechanism: bind aldosterone receptor–>decrease Na+ and H2O retention

Add on therapy: resistant HTN, coronary artery disease, LVD

Favorable: low-normal K+, chronic kidney disease

Unfavorable: high-normal K_

Question 8

Prazosin
Doxazosin
Terazosin

Answer 8

Alpha 1-andrenergic receptor blockers
Mechanism: selective at vascular smooth muscle alpha 1 receptors (a1»>a2)

Used with diuretics; lowers LDL, TG, and total cholesterol

Adverse effects: tolerance to antihypertensive effect, reflex tachycardia, sexual dysfunction

Question 9

Clonidine

Answer 9

Alpha-2 agonist
Mechanism: stimulate alpha-2–>decrease NE release

Therapy: pts who can’t take meds by mouth (patch form), pts prone to early morning surge in BP

Adverse effect: rebound hypertension if stopped abruptly

Optimally used with diuretic to diminish fluid retention

Question 10

alpha-methyldopa

Answer 10

Alpha-2 agonist
Mechanism: stimulate alpha-2–>decrease release of NE

Therapy: gestational HTN, and chronic HTN in pregnancy (safe use)

Adverse effects: anticholinergic side effects, hepatotoxicity, Direct Coomb’s test

Question 11

Hydralazine

Answer 11

Arterial vasodilator
Mechanism:
decrease IP3-induced Ca2_ release from smooth muscle SR–>decreas contraction
Open Ca2+ activated K+ channels in smooth muscle–>relaxation
Relaxes arterioles

Therapy: add-on to manage resistant HTN (severe chronic kidney disease), gestational HTN

Adverse effect: lupus, compensatory tachycardia and Na+ retention–>use in combo with diauretic and Beta blocker or NDHP CCB

Question 12

Minoxidil

Answer 12

Arterial Vasodilator
Mechanism:
activate ATP-dependent K+ channels–>relax arteriolar VSMCs

Cardiac effect: decrease BP, increase blood flow to heart, increase cardiac output, increased renal blood flow

Therapy: severe refractory hypertension, in combo with beta blockers and diuretics

Adverse effects: fluid and salt retention, reflex increase in myocardial contractility, hypertrichosis

Question 13

Sodium nitroprusside

Answer 13

Arterial Vasodilator
Mechanism:
donates NO–>cGMP-mediated Ca2+ sequestration–>VENOdilation–>decrease afterload and preload

Use: intravenous agent for HTN emergencies and rapid management of CHF

Adverse effect: methemoglobinemia, cyanide poisoning, cell death due to inhibition of cellular respiration

Question 14

Aliskiren

Answer 14

Direct renin inhibitor
Mechanism:
bind catalytic site of renin–>prevent cleaving angiotensinogen–>no Ang-I

Therapy: newer drug, monotherapy or in combo

Lowers BP when used in comb with thiazide, ACEI, ARB, or CCB

Adverse: hyperkalemia, kidney failure in pts with bilateral renal artery stenosis, NEVER use in pregnancy, orthostatic hypotension

Question 15

Reserpine

Answer 15

Rauwolfia alkaloid
Mechanism:
block transport of NE into storage granules–>depletes NE from nerve endings

Therapy: rarely used due to side effects; combo with thiazide diuretics

Adverse effects: sedation, depression, decreased CO, orthostatic hypotension, increased parasympathetic activity