Anti-HTN Drugs

Question 1

Diuretics

• MOA
• Types
• SE

Answer 1

MOA: inhibit Na reabsorption –>natriuresis and diuresis. May also have direct vasodilatory effect

Types: thiazides (e.g. hydrochlorothiazide), loop diuretics (e.g. furosemide), K+ sparing (e.g. spironolactone)

SE: hypokalemia

Question 2

3 actions of ATII

Answer 2

Aldosterone secretion
NaCl reabsorption
Vasoconstriction

Question 3

RAS schematic

Answer 3

B1–>renin cleaves angiotensinogen–>ATI

In lung: ATI–>ATII via ACE, which also inactivates bradykinin

ATII causes:

• aldosterone secretion
• vasoconstriction
• NaCl reabs.

Question 4

ACE inhibitors

• prototype
• actions
• use in diabetics?
• SE

Answer 4

Prototype: captoPRIL

Actions: inhibit vasoconstriction/aldosterone secretion/NaCl reabs, inc vasodilation via bradykinin build-up

Diabetics: may delay diabetic nephropathy in addition to lowering BP

SE: dry cough (bradykinin), hyperkalemia (dec. aldosterone), renal dysfunction (e.g. in renal artery stenosis ATII is important in maintaining GFR), angioedema (rare)

Question 5

Angiotensin Receptor Blocker

• prototype
• actions

Answer 5

Prototype: LoSARTAN

Actions: same as ACEi, except no bradykinin build-up (no cough, but less vasodilation)

Question 6

Renin Inhibitors

• prototype
• actions

Answer 6

Prototype: AliskiREN

Actions: same as ARBs

Question 7

Calcium channel blockers

-general actions

Answer 7

Actions: targets L-type channel in cardiac myocytes and vascular smooth muscle, decreases Ca influx and therefore the force of contraction.

Question 8

Types of CCBs

• differences
• SE

Answer 8

1) Dihydropyridines (e.g. nifedIPINE) acts more on the vasculature. SE include reflex tachycardia from low BP (exacerbates arrhythmias)

2) Non-dihydropyridines act on the heart more. SE include cardiodepression
- Benzothiazepines (e.g dilTIAZem)
- Phenylalkylamines (e.g. verapAMIL)

Question 9

Beta antagonists

-subtypes

Answer 9

Cardioselective (B1): MetoproLOL

Non-cardioselective: propranoLOL (B1,B2), carvediLOL(B1,B2,A1)

Partial agonists: acebutoLOL (B1)

Question 10

Beta antagonists

• actions
• SE

Answer 10

Actions:

Decrease HR, contractility
Decrease renin secretion
Decrease SNS activity

SE: Bronchoconstriction in non-selective (therefore contraindicated in asthma) and fatigue due to reduced CO

Question 11

Alpha-1 antagonists

• prototype
• actions
• SE

Answer 11

Prototype: praZOSIN
Actions: vasodilatory and venodilatory
SE: orthostatic hypotension

Question 12

Vasodilators

• prototype
• actions
• frequency of use

Answer 12

Prototype: hydralazine
Actions: decrease SVR
Use: rarely used

Question 13

CNS (central) agents

• prototype
• mechanism
• actions

Answer 13

Prototype: A2 agonists (Clonidine)
Mechanism: feedback inhibition of NE release
Actions: dec. HR, SV and TPR

Question 14

Why use combination therapy?

Answer 14

Because the body has compensatory mechanisms that we need to counteract

Question 15

Aldosterone antagonists

• prototype
• AKA

Answer 15

Prototype: spironolactone

AKA K+ sparing diuretics