(d) by elimination. Hypertension ((a)) is treated primarily with beta blockers such as propranolol. Angina is primarily treated with nitroglycerin, while digoxin (digitalis) is the drug of choice for congestive heart failure. Quinidine is classed as an antiarrthymic drug (Type I-blocks sodium channels). It reduces automaticity and responsiveness and increases refractoriness. It also has an antimuscarinic action preventing the bradycardia that follows vagal stimulation.

(c) same question as above, just gave you a different type of arrythmia

(a) memorize

(b) arrhythmias are defined as any abnormality of the normal sinus rhythm of the heart due to disease or injury induced damage to the impulse conducting systems. They also result from the development of ectopic pacemakers or abnormal pacemaker rhythms. Drugs such as lidocaine are used to normalize these rhythms. Lidocaine, a local anesthetic, depresses cardiac excitability, answer (b). The refractory period of cardiac muscle is increased, thus slowing the heart down. All of the other alternatives given would exacerbate the arrhythmia.

(b) Captopril is an angiotension-converting enzyme inhibitor that blocks the activation of angiotension I to angiotension II. The decreased blood concentration of angiotension II reduces blood pressure, because angiotension II is a potent vasoconstrictor. Thus (c) is wrong, accumulation of angiotension I is the usual effect. Captopril also maintains lowered BP by elevating bradykinin (which has potent vasodilatory action) in the blood by blocking its metabolism. Thus (d) is wrong, bradykinin metabolites do not accumulate.

(c) I guess because more angiotensin II would be formed, and that is a potent vasoconstrictor

(f) first off, how can you have an option (f)?! (a) is how diuretics lower BP, (b) is why they can cause hypokalemia, which is conveniently option (e), and hypokalemia can potentiate digitalis induced arrhythmias option(c). They apparently can also cause hyperglycemia, which would relate to option (d). How the heck are you supposed to remember all of this?

(b) people with high BP are always told to reduce salt intake, since high sodium levels cause fluid retention which can increase BP, so ipso facto, reducing renal reabsorption of sodium makes BP go down

(b) same question as above, just reversed.

Answer is (d)- Remember, cardiac glycosides such as digoxin are used in the treatment of congestive heart failure, which is the failure of the heart to function adequately as a pump and thus maintain an adequate circulation. Cardiac glycosides are thought to act by altering calcium ion movement, with a desired effect of increasing the force of contraction of the myocardium (e.g. the inotropic effect). While several of the alternatives involve calcium, the way digoxin does it is via (d), inhibition of Na+, K+ ATPase, resulting in an increase of calcium ion influx into the cardiac cells, and a subsequent enhancement of the contractile mechanism. (a) is the way epinephrine works.

(a) All of these drugs are used to treat hypertension, but act by different mechanisms. (a), methyldopa, is the drug with central action- it alters CNS control of blood pressure by acting on cardioregulatory and vasomotor systems of the brain by stimulating alpha2 receptors in the brain stem. Clonidine is the usual drug that is involved in this particular question. (b) metropolol is a selectively blocks beta-1 receptors in the heart to reduce cardiac output. (c) hydralazine has a direct action on vascular smooth muscle to reduce hypertension via vasodilation. (d) propranolol blocks beta receptors in the heart, while (e) guanethidine prevents the release and causes depletion of catecholamines taken up into storage vesicles and is released like a false transmitter. It does not cross the bloodbrain barrier.

(b)- see above explanation

(v) Answer is (v)- You should immediately recognize that propranolol is the prototypic beta-adrenergic receptor blocker, thus any answer with alternative a (i and ii) is wrong. Similarly, d is wrong as well-propranolol is a competitive beta- receptor blocker- it has no effect on NE release. Another drug used for hypertension, Clonidine, acts via this mechanism by stimulating alpha-2 autoreceptors. Thus ii, iii, and iv are wrong. This leaves (v) as the only possible right answer. Indeed, aside from blocking beta-1 receptors, blocking of renin release is thought to be the other mechanism whereby beta-blockers alter hypertension.

(d) answer is (d)- straight memorization- deafness is typically associated with use of ethacrynic acid, a loop or high-ceiling diuretic.

(d) Chlorthiazide is a diuretic which causes potassium loss or hypokalemia. This results in greater penetration of digitalis into the myocardium, and thus potential toxicity.