Besides its properties of decreasing intraocular pressure, timolol is preferred in the treatment of glaucoma because it
Which of the following is not a recognized use of alpha-2-agonists?
Which beta-1 antagonist is used in congestive cardiac failure?
Which of the following is not a cardioselective beta blocker?
Which of the following is a second-generation beta blocker?
Which of the following is NOT a side effect of digitalis?
Nesiritide causes vasodilation through?
Which of the following is a renin inhibitor?
In which of the following conditions is Verapamil not typically used?
Which of the following medications is most likely to cause reflex tachycardia?
NEET-PG 2013 - Pharmacology NEET-PG Practice Questions and MCQs
Question 21: Besides its properties of decreasing intraocular pressure, timolol is preferred in the treatment of glaucoma because it
- A. Is a selective beta-adrenoceptor blocker
- B. Increases outflow of aqueous humor
- C. Produces no miosis (Correct Answer)
- D. Possesses membrane stabilizing activity
Explanation: ***Produces no miosis*** - Timolol, a **non-selective beta-blocker**, decreases intraocular pressure without affecting pupillary size. - This is a **key advantage** in glaucoma treatment as miosis (pupil constriction) can worsen vision, especially in patients with cataracts. - Unlike **miotics** (e.g., pilocarpine), timolol does not cause pupillary constriction, making it better tolerated. *Possesses membrane stabilizing activity* - While some beta-blockers possess **membrane-stabilizing activity** (local anesthetic effect), this property is not a primary reason for timolol's preference in glaucoma. - This action is more relevant in antiarrhythmic uses of beta-blockers due to its effect on cardiac action potentials. *Increases outflow of aqueous humor* - Timolol primarily reduces intraocular pressure by **decreasing the production of aqueous humor**, not by increasing its outflow. - Drugs like **pilocarpine** (a cholinergic agonist) or **prostaglandin analogs** increase outflow. *Is a selective beta-adrenoceptor blocker* - Timolol is a **non-selective beta-blocker**, meaning it blocks both beta-1 and beta-2 adrenergic receptors. - Its non-selectivity is associated with systemic side effects (e.g., bronchospasm, bradycardia), and selective beta-blockers like **betaxolol** exist but are not the primary reason for timolol's preference in glaucoma.
Question 22: Which of the following is not a recognized use of alpha-2-agonists?
- A. Glaucoma
- B. Hypertension
- C. Sedation
- D. Benign Hyperplasia of prostate (Correct Answer)
Explanation: ***Correct Answer: Benign Hyperplasia of prostate*** - Alpha-2-agonists are **NOT** used to treat **benign prostatic hyperplasia (BPH)**; this condition is typically managed with **alpha-1-blockers** (e.g., tamsulosin, alfuzosin) or 5-alpha-reductase inhibitors. - Alpha-1-blockers relax the smooth muscle in the prostate and bladder neck, improving urine flow, which involves a different receptor mechanism than alpha-2-agonists. - Alpha-2-agonists would not provide therapeutic benefit for BPH. *Incorrect: Glaucoma* - Alpha-2-agonists (e.g., **brimonidine**, **apraclonidine**) **are** used to treat **glaucoma** by reducing aqueous humor production and increasing uveoscleral outflow. - This action helps to **lower intraocular pressure**, a primary goal in glaucoma management. *Incorrect: Hypertension* - Central-acting alpha-2-agonists (e.g., **clonidine**, **methyldopa**) **are** used as **antihypertensive agents**. - They reduce sympathetic outflow from the central nervous system, leading to decreased heart rate, vasodilation, and consequently, **lower blood pressure**. *Incorrect: Sedation* - Alpha-2-agonists like **dexmedetomidine** and **clonidine** **are** commonly used for **sedation** in critically ill patients, especially in intensive care units. - They produce sedation, analgesia, and anxiolysis without causing significant respiratory depression, making them valuable in certain clinical settings.
Question 23: Which beta-1 antagonist is used in congestive cardiac failure?
- A. Atenolol
- B. Metoprolol (Correct Answer)
- C. Esmolol
- D. Bisoprolol
Explanation: ***Metoprolol*** - **Metoprolol succinate** (extended-release formulation) is a selective **beta-1 antagonist** proven to reduce mortality and hospitalizations in **chronic heart failure with reduced ejection fraction (HFrEF)**. - It works by **reducing heart rate, myocardial oxygen demand**, and preventing adverse cardiac remodeling through inhibition of chronic sympathetic activation. - Along with **bisoprolol and carvedilol**, it is one of the **three beta-blockers with proven mortality benefit** in heart failure trials. *Atenolol* - While atenolol is a selective beta-1 antagonist, it **lacks evidence for mortality benefit** in heart failure. - It has **high hydrophilicity** and renal elimination, leading to less favorable pharmacokinetics compared to metoprolol. - More commonly used for **hypertension and angina** rather than heart failure management. *Esmolol* - **Esmolol** is an ultra-short-acting selective beta-1 antagonist used for **acute control of heart rate** in perioperative and critical care settings. - Its **very short half-life (9 minutes)** makes it unsuitable for chronic management of heart failure. - Administered only **intravenously** and requires continuous infusion. *Bisoprolol* - While **bisoprolol is also approved** for heart failure and has proven mortality benefit (CIBIS-II trial), this question likely expects **metoprolol** as the answer given the historical context. - Both bisoprolol and metoprolol are acceptable answers, but **metoprolol** has been more widely studied and is more commonly cited in Indian medical exams. - Bisoprolol has **greater beta-1 selectivity** than metoprolol but similar clinical outcomes in heart failure.
Question 24: Which of the following is not a cardioselective beta blocker?
- A. Nebivolol
- B. Atenolol
- C. Betaxolol
- D. Oxprenolol (Correct Answer)
Explanation: ***Oxprenolol*** - **Oxprenolol** is a non-selective beta-blocker with **intrinsic sympathomimetic activity (ISA)**, meaning it blocks both β1 and β2 receptors and partially stimulates them. - Its non-selective action means it affects both the heart (β1) and other organs like the lungs (β2), making it less suitable for patients with respiratory conditions. *Nebivolol* - **Nebivolol** is a highly cardioselective beta-blocker that primarily blocks **β1 receptors** and also has **vasodilatory properties** due to nitric oxide release. - Its high selectivity translates to fewer β2-mediated side effects, such as bronchoconstriction. *Atenolol* - **Atenolol** is a **cardioselective beta-blocker** that predominantly blocks **β1 receptors** at therapeutic doses. - This selectivity makes it a common choice for cardiovascular conditions, reducing the risk of bronchospasm compared to non-selective agents. *Betaxolol* - **Betaxolol** is a **cardioselective beta-blocker** primarily used for the treatment of hypertension and glaucoma. - It selectively blocks **β1 adrenergic receptors**, minimizing effects on the lungs compared to non-selective beta-blockers.
Question 25: Which of the following is a second-generation beta blocker?
- A. Timolol
- B. Atenolol (Correct Answer)
- C. Nadolol
- D. Propranolol
Explanation: ***Atenolol*** - **Atenolol** is a **second-generation beta blocker** characterized by its **cardioselectivity**, meaning it primarily blocks beta-1 receptors in the heart. - This selectively reduces heart rate and contractility with fewer respiratory side effects compared to non-selective agents. *Propranolol* - **Propranolol** is a **first-generation non-selective beta blocker**, meaning it blocks both beta-1 and beta-2 adrenergic receptors. - Its non-selective action can cause significant bronchoconstriction, making it less suitable for patients with respiratory conditions. *Timolol* - **Timolol** is also a **first-generation non-selective beta blocker** commonly used in ophthalmic preparations for glaucoma. - It blocks both beta-1 and beta-2 receptors and does not possess the cardioselectivity of second-generation agents. *Nadolol* - **Nadolol** is another **first-generation non-selective beta blocker** with a long duration of action due to its extensive plasma half-life. - Like other first-generation agents, it lacks cardioselectivity and blocks both beta-1 and beta-2 receptors.
Question 26: Which of the following is NOT a side effect of digitalis?
- A. Nausea and vomiting
- B. Ventricular Bigeminy
- C. Vasodilatation (Correct Answer)
- D. Ventricular tachycardia
Explanation: **Vasodilatation** - **Digitalis**, primarily digoxin, is known for its **positive inotropic effect**, increasing myocardial contractility, and for its **vasoconstrictive properties** at higher doses due to sympathetic activation and direct smooth muscle effects, not vasodilatation. - While it can indirectly improve cardiac output and thus tissue perfusion, its direct vascular effects do not typically include widespread vasodilatation. *Ventricular tachycardia* - **Digitalis toxicity** can lead to various arrhythmias, including **ventricular tachycardia**, which is a potentially life-threatening side effect. - This occurs due to increased automaticity and delayed afterdepolarizations in ventricular myocytes. *Nausea and vomiting* - **Gastrointestinal symptoms** such as **nausea and vomiting** are common early signs of digitalis toxicity. - These effects are thought to be mediated by the drug's action on the chemoreceptor trigger zone in the brainstem. *Ventricular Bigeminy* - **Ventricular bigeminy**, characterized by alternating normal and premature ventricular beats, is another classic manifestation of **digitalis toxicity**. - This arrhythmia results from enhanced automaticity and altered conduction properties in the ventricles.
Question 27: Nesiritide causes vasodilation through?
- A. ATP
- B. Cyclic adenosine monophosphate (cAMP)
- C. K+ ions
- D. Guanosine 3',5'-cyclic monophosphate (cGMP) (Correct Answer)
Explanation: ***Guanosine 3',5'-cyclic monophosphate (cGMP)*** - **Nesiritide** is a synthetic **B-type natriuretic peptide (BNP)** that acts as a potent vasodilator [2]. - It works by binding to **guanylyl cyclase receptors**, leading to an increase in intracellular **cGMP**, which promotes smooth muscle relaxation [1], [2]. *Cyclic adenosine monophosphate (cAMP)* - While **cAMP** is a crucial second messenger in various cellular processes and can mediate some forms of vasodilation, it is primarily associated with **beta-adrenergic receptor activation**, not the mechanism of action of nesiritide. - Nesiritide's pathway is distinct from those involving **cAMP-mediated** relaxation, which often involves different kinases and protein phosphorylation. *ATP* - **ATP** (adenosine triphosphate) is the primary **energy currency** of the cell and is involved in numerous cellular functions, including muscle contraction and relaxation, but it is not a direct mediator of nesiritide's vasodilatory effects. - Though ATP can be broken down to produce **adenosine**, which has vasodilatory properties, this is not the specific mechanism through which nesiritide causes vasodilation. *K+ ions* - Changes in **potassium ion (K+)** flux across cell membranes are essential for regulating vascular tone, as K+ channel activation can lead to hyperpolarization and relaxation of smooth muscle. - However, **nesiritide's primary mechanism** of action does not involve direct modulation of K+ channels; its vasodilatory effects are mediated by the **cGMP pathway** [2].
Question 28: Which of the following is a renin inhibitor?
- A. Losartan
- B. Benazepril
- C. Remikiren (Correct Answer)
- D. Imidapril
Explanation: **Remikiren** - **Remikiren** is a direct **renin inhibitor** that acts by binding to the active site of renin, preventing its interaction with angiotensinogen. - This inhibition reduces the formation of **angiotensin I** and subsequently **angiotensin II**, leading to decreased blood pressure. *Losartan* - **Losartan** is an **Angiotensin II Receptor Blocker (ARB)**, meaning it blocks AT1 receptors, preventing angiotensin II from binding. - It does not inhibit renin activity directly but rather acts downstream in the **renin-angiotensin-aldosterone system (RAAS)**. *Benazepril* - **Benazepril** is an **Angiotensin-Converting Enzyme (ACE) inhibitor**, which blocks the enzyme responsible for converting **angiotensin I** to **angiotensin II**. - It does not directly inhibit renin production or activity. *Imidapril* - **Imidapril** is also an **Angiotensin-Converting Enzyme (ACE) inhibitor**, similar to benazepril. - Its mechanism of action involves inhibiting ACE, thereby reducing **angiotensin II** levels, rather than directly inhibiting renin.
Question 29: In which of the following conditions is Verapamil not typically used?
- A. Angina pectoris
- B. Atrial fibrillation
- C. Ventricular tachycardia (Correct Answer)
- D. Hypertension
Explanation: ***Ventricular tachycardia*** - Verapamil, a **non-dihydropyridine calcium channel blocker**, can worsen hemodynamics in patients with **ventricular tachycardia (VT)** by causing profound hypotension or precipitating cardiac arrest. - VT often requires prompt treatment with **antiarrhythmics like amiodarone** or **electrical cardioversion**, as it can be life-threatening. - Verapamil is **contraindicated in VT** due to its negative inotropic effects and risk of hemodynamic collapse. *Angina pectoris* - Verapamil is effectively used to treat angina pectoris by **decreasing myocardial oxygen demand** through negative chronotropic and inotropic effects, and by causing **coronary vasodilation**, improving blood flow. - Its effects help to reduce the frequency and severity of anginal episodes, particularly in **stable angina**. *Atrial fibrillation* - Verapamil is commonly used for **rate control in atrial fibrillation** by **slowing conduction through the AV node**, which decreases the ventricular response rate. - It helps to manage symptoms and prevent complications related to rapid heart rates in this arrhythmia. *Hypertension* - Verapamil is used in the treatment of **hypertension** through its vasodilatory effects and reduction in peripheral vascular resistance. - It is particularly useful in patients who cannot tolerate other antihypertensive agents or as part of combination therapy.
Question 30: Which of the following medications is most likely to cause reflex tachycardia?
- A. Nifedipine (Correct Answer)
- B. Verapamil
- C. Propranolol
- D. Amlodipine
Explanation: ***Nifedipine*** - Nifedipine is a **dihydropyridine calcium channel blocker** that causes significant peripheral vasodilation, leading to a rapid drop in blood pressure. - This sudden drop in blood pressure triggers a **baroreflex response**, compensatory increase in heart rate. *Verapamil* - Verapamil is a **non-dihydropyridine calcium channel blocker** that primarily acts on the cardiac pacemaker cells and slows AV nodal conduction. - While it can cause vasodilation, its direct negative chronotropic effect on the heart often **blunts or prevents reflex tachycardia**. *Propranolol* - Propranolol is a **non-selective beta-blocker** that blocks beta-1 and beta-2 adrenergic receptors. - It directly **decreases heart rate and myocardial contractility**, thereby preventing reflex tachycardia. *Amlodipine* - Amlodipine is a **dihydropyridine calcium channel blocker**, similar to nifedipine, but it has a **slower onset of action and a longer half-life**. - Its more gradual onset of vasodilation often results in a significantly **less pronounced or absent reflex tachycardia** compared to nifedipine.