Antihypertensives

Question 1

What are the 4 categories of Hypertension?

Answer 1

Normal 120/80

Elevated (120-129)/80

Hypertension

Stage 1 (130-139)/(80-89)

Stage 2(140/90)

Question 2

How does hypertension lead to Heart Failure

Answer 2

Question 3

What is the compensatory response to a decrease in BP

Answer 3

Question 4

what is the main difference in treatment strategies between stage 1 and stage 2 hypertension?

Answer 4

• Stage 1 hypertension - Often controlled with single drug
• Stage 2 hypertension - Often requires multiple drugs

Question 5

If the BP is still not controlled after starting therapy for stage 2 hypertension, what is the next drug that should be added?

Answer 5

• Stage 2 Hypertension -Two first-line drugs of different classes are recommended
• If BP still not controlled a third drug can be added - Usually vasodilator

Question 6

What are the 1st line agents, second- line agents, and other major agents?

Answer 6

• First-line agents :• ACE-inhibitors, ARBs, calcium channel blockers, thiazide diuretics
• Second-line agents : • b-blockers, aldosterone antagonists
• Other agents: • Loop diuretics, a-blockers, direct vasodilators, central a2-agonists, renin inhibitors

Question 7

What are the Ace inhibitors and their mechanism of actions?

Answer 7

Captopril / Enalapril / Lisinopril
• First-line agents (in particular for diabetics and patients with CKD)
• decrease BP by decreasing peripheral vascular resistance

• INHIBIT ACE (angiotensin converting enzyme) that cleaves angiotensin I to form angiotensin II
• DECREASE Na+ & H20 retention
• INCREASE BRADYKININ levels
• DO NOT reflexively increase cardiac output, rate or contractility

Question 8

what is the ACE inhibitor mechanism of action?

Answer 8

Question 9

What are the clinical applications of ACE inhibitors ?

Answer 9

• Hypertension (most effective in white and/or young patients)

+ diuretic = effectiveness similar in non-black and black patients

• Preserve renal function in patients with either diabetic or non-diabetic nephropathy
• Effective in treatment of chronic HF
• Standard of care for patients following MI (started 24hafter end of infarction)

Question 10

What are the adverse effects of ACE inhibitors?

Answer 10

• Dry hacking cough
• Hyperkalemia
• Hypotension
• Angioedema (rare but life-threatening)
• Acute renal failure (patients with bilateral renal artery stenosis)
• Rash, fever, altered taste

Question 11

What are the contraindications of ACE inhibitors?

Answer 11

• Pregnancy: During 1st trimester due to risk of congenital malformations and during 2nd and 3rd trimesters because of risk of fetal hypotension, anuria & renal failure
• Patients with bilateral renal artery stenosis
• Patients with a history of angioedema related to previous treatment with an ACEI and in patients with hereditary or idiopathic angioedema.

Question 12

What are the Angiotension receptor blockers ?

Answer 12

Losartan / Valsartan

• Angiotension receptor blockers (ARB’s)
• First-line agents
• Alternatives to ACEI’s (in intolerant patients)
• Block angiotensin-2 type 1 receptors
• decrease BP by causing arteriolar & venous dilation
• Block aldosterone secretion which causes a decrease Na+ & H20 retention
• diabetic nephrotoxicity
• DO NOT INCREASE BRADYKININ levels

Question 13

what is the mechanism of action of Angiotension receptor blockers (ARB’s)

Answer 13

Question 14

What are the adverse effects of Angiotension receptor blockers

Answer 14

• Similar to those of ACE inhibitors
• Dry cough does not occur (due to no effect on bradykinin levels)
• Angioedema risk is significantly lower than withACEI’s

• Losartan reduces plasma uric acid levels by inhibiting URAT1 transporter – can be useful in patients with gout

Question 15

What are the contraindications of Angiotension receptor blockers (ARB’s) ?

Answer 15

• Pregnancy
• Patients with bilateral renal artery stenosis

Question 16

What is the renin inhibitor and its mechanism of action?

Answer 16

• Alternative agent in the treatment of hypertension

MOA
• Inhibits enzyme activity of renin and prevents conversion of angiotensinogen into angiotensin I

End result:
• Inhibits production of both angiotensin II and aldosterone

Question 17

What is the adverse effect of Aliskiren?

Answer 17

• Similar to those of ACE inhibitors
• Dry cough does not occur (due to no effect on bradykinin levels)
• Angioedema risk is significantly lower than with ACEI’s

Question 18

What are the Ca2+ Channel blockers?

Answer 18

Verapamil / Diltiazem / Nifedipine / Amlodipine
• First-line agents (particularly black and/or elderly patients)

Ca2+ CHANNEL CLASSES
• Non-dihydropyridines: • Verapamil , Diltiazem
• Dihydropyridines: Nifedipine, amlodipine

Question 19

Verapamil

Answer 19

• Least selective of any Ca2+-blocker
• Significant effects in cardiac & vascular smooth muscle
• Used to treat angina, supraventricular tachyarrhythmias, hypertension, migraine & cerebral vasospasm

Question 20

Diltiazem

Answer 20

• Effects in both cardiac & vascular smooth muscle (less pronounced effect on heart than verapamil)
• Good side-effect profile
• Used to treat angina, hypertension, supraventricular tachyarrhythmias & cerebral vasospasm

Question 21

What are the dihydropyridine?

Answer 21

Amlodipine, nifedipine

• Greater affinity for vascular Ca2+-channels than for cardiac Ca2+-channels
• Reduce Ca2+ entry into smooth muscles to cause coronary & peripheral vasodilatation & lower BP
• Primarily used in treating hypertension.

Question 22

What are the clinical applications of Ca2+ Channel blocers?

Answer 22

• Hypertension (particularly black and/or elderly patients)
• Have intrinsic natriuretic effect (no need for diuretic)
• Useful in patients with asthma, diabetes, peripheral vascular disease

Question 23

What Ca2+ channel blocker will you not use for cardiac arrhytmias?

Answer 23

Dihydropyridines

(amlodipine, nifedipine)

• High-doses of short-acting dihydropyridine Ca2+- channel blockers can increase risk of MI (excessive vasodilation & reflex cardiac stimulation)
• Sustained release preparations are preferred

Question 24

What are the adverse effects of Ca2+ Channel Blockers?

Answer 24

• Verapamil -Constipation (~7%), negative inotropic effects, gingival
hyperplasia

• Dihydropyridines
Hypotension, peripheral edema (esp. feet & ankles), dizziness, headache, fatigue, gingival hyperplasia, flushing, reflex tachycardia can occur (especially in short-acting preparations)

Question 25

What are the contraindications of Ca2+ channel blockers?

Answer 25

• Non-dihydropyridines (verapamil & diltiazem)
Relatively contraindicated in patients taking b-blockers, or who have 2nd or 3rd degree AV block, or severe left ventricular systolic dysfunction

Question 26

What are the diuretics and their mechanism of action?

Answer 26

• First-line agents (particularly black and/or elderly patients)

MOA

• Lower BP by increasing Na+ and H20 excretion which leads to a decrease in extracellular volume and an increase in cardiac output & renal blood flow.
• Long-term treatment = normal plasma volume but sustained decreased peripheral resistance