NSG 6005 Advanced Pharmacology COMPLETED EXAM 2023/2024(55 pages)
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1. What is the mechanism of action of warfarin and how does it differ from heparin? Explain the
implications for monitoring and reversal of anticoagulation.
- Warfarin is a vitamin K antagonist that inhibits the synthesis of clotting factors II, VII, IX and X in
the liver. Heparin is an indirect thrombin inhibitor that binds to antithrombin III and enhances its
activity. Warfarin has a delayed onset and offset of action, whereas heparin has an immediate
effect. Warfarin requires regular monitoring of the international normalized ratio (INR) to adjust
the dose and prevent bleeding or thrombosis. Heparin requires monitoring of the activated
partial thromboplastin time (aPTT) or anti-Xa levels. Warfarin can be reversed with vitamin K or
prothrombin complex concentrate (PCC). Heparin can be reversed with protamine sulfate.
2. What are the main adverse effects of angiotensin-converting enzyme (ACE) inhibitors and
angiotensin receptor blockers (ARBs)? How can they be prevented or managed?
- The main adverse effects of ACE inhibitors and ARBs are hypotension, hyperkalemia, renal
impairment and cough (more common with ACE inhibitors). They can be prevented or managed
by adjusting the dose, monitoring blood pressure, electrolytes and renal function, avoiding
potassium supplements or potassium-sparing diuretics, and switching to an ARB if cough is
intolerable.
3. What are the indications and contraindications for the use of beta-blockers in cardiovascular
diseases? Give examples of selective and non-selective beta-blockers and their pharmacokinetic
properties.
- Beta-blockers are indicated for the treatment of hypertension, angina, myocardial infarction,
heart failure, arrhythmias, and prevention of migraine. They are contraindicated in patients with
asthma, severe bradycardia, heart block, cardiogenic shock, or peripheral vascular disease.
Selective beta-blockers (e.g., atenolol, metoprolol) block beta-1 receptors in the heart and have
less effect on beta-2 receptors in the lungs and blood vessels. Non-selective beta-blockers (e.g.,
propranolol, nadolol) block both beta-1 and beta-2 receptors and have more potential for
bronchoconstriction and vasoconstriction. Beta-blockers differ in their lipid solubility, which
affects their ability to cross the blood-brain barrier and cause central nervous system effects
(e.g., sedation, depression). Lipid-soluble beta-blockers (e.g., propranolol) have more CNS effects
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