FMGE 2024 — Pharmacology

Q: What is the mechanism of action of Ethosuximide?

Inhibits calcium channels in thalamic neurons. ***Inhibits calcium channels in thalamic neurons***- Ethosuximide selectively blocks **T-type calcium channels** (**transient type**) primarily found on **thalamic neurons**.- This blockade reduces the **low-threshold burst firing** responsible for the characteristic **3-Hz spike-and-wave discharge** seen in absence seizures.*Enhances GABAergic inhibition*- This mechanism is characteristic of **Benzodiazepines** and **Barbiturates**, which increase the frequency or duration of GABA-A channel opening.- While some broad-spectrum AEDs like **Valproate** also increase GABA levels, this is not the primary mechanism of action for Ethosuximide.*Blocks sodium channels*- Drugs that block neuronal sodium channels, such as **Phenytoin** and **Carbamazepine**, are effective against tonic-clonic and partial seizures.- This mechanism prevents the rapid, sustained firing of action potentials but is largely ineffective against the burst firing characteristic of absence seizures.*Increases serotonin levels*- This is the primary mechanism associated with **Selective Serotonin Reuptake Inhibitors (SSRIs)** and other antidepressants.- It is not relevant to the function of Ethosuximide, which is specific to modulating neuronal excitability through calcium channels. [Practice more Pharmacology PYQs on OnCourse]

Q: A patient having hypertension is on thiazides and is complaining of fatigue and hypokalemia. Which of the following drugs can prevent potassium loss?

Amiloride. ***Amiloride***- Amiloride is a **potassium-sparing diuretic** that acts by blocking the **Epithelial Sodium Channel (ENaC)** in the collecting duct. [5]- By inhibiting Na+ reabsorption here, it decreases the electrical gradient that drives **potassium secretion**, effectively counteracting the hypokalemic effect of thiazides. [2]*Furosemide*- Furosemide is a **loop diuretic** that inhibits the Na-K-2Cl cotransporter in the thick ascending limb.- It is notorious for causing significant urinary **potassium loss** and would worsen the patient's **hypokalemia** and fatigue. [5]*Acetazolamide*- Acetazolamide is a **carbonic anhydrase inhibitor** that increases the delivery of Na+ and bicarbonate (HCO3-) to the collecting duct. [4]- The increased delivery of these ions promotes the secretion and loss of **potassium** in the urine, thus failing to prevent hypokalemia. [4]*Indapamide*- Indapamide is a **thiazide-like diuretic** that, similar to thiazides, inhibits the NaCl cotransporter in the distal convoluted tubule. [1]- Like other thiazides, Indapamide is a **potassium-wasting diuretic** and would exacerbate the existing **hypokalemia**. [3] [Practice more Pharmacology PYQs on OnCourse]

Q: A patient was given an antipsychotic drug, haloperidol, and the patient developed acute dystonia. Which is the next best step?

Give Benztropine. ***Give Benztropine***- **Acute dystonia** is a severe extrapyramidal symptom (EPS) requiring rapid intervention, often treated intramuscularly or intravenously.- **Benztropine** (an anticholinergic agent) is the drug of choice for the immediate management of acute dystonia, working to restore the balance between dopamine and acetylcholine.*Change to clozapine*- While **clozapine** has a significantly lower risk of causing acute dystonia, it is not the initial treatment for an acute episode due to its slow titration requirements and side-effect profile.- Switching to clozapine is a long-term strategy for patients intolerant to other antipsychotics, not an acute rescue medication.*Give Fluphenazine*- **Fluphenazine** is a high-potency first-generation antipsychotic, similar to haloperidol, which also carries a high risk of EPS.- Administering another high-potency antipsychotic would perpetuate the excessive **dopaminergic blockade** responsible for the acute dystonia.*Increase dose of haloperidol*- **Acute dystonia** is a direct dose-related side effect of D2 receptor blockade by haloperidol in the nigrostriatal pathway.- Increasing the dose of **haloperidol** would worsen the underlying neurochemical imbalance, thereby intensifying the dystonic symptoms. [Practice more Pharmacology PYQs on OnCourse]

Q: A group of people are travelling to the mountains, and a girl starts complaining of mountain sickness. What is the drug of choice?

Acetazolamide. ***Acetazolamide*** - This drug is the agent of choice for prophylaxis and treatment of **Acute Mountain Sickness (AMS)** due to its ability to accelerate **acclimatization**. - It functions as a **carbonic anhydrase inhibitor**, inducing a mild metabolic acidosis that stimulates the respiratory center, thereby increasing ventilation and improving blood oxygen saturation. *Promethazine* - This is an **antihistamine** (H1 blocker) often used for its potent **antiemetic** (nausea) and sedative effects. - While it may relieve nausea symptoms associated with AMS, it does not address the underlying physiological disturbances or enhance **acclimatization**. *Dimenhydrinate* - This medication is also an **antihistamine** typically employed to treat and prevent **motion sickness** and vertigo. - It lacks the crucial physiological mechanism (carbonic anhydrase inhibition) required to improve breathing efficiency and accelerate the body's response to **hypoxia**. *Thiazide* - This category of drugs, such as hydrochlorothiazide, are **diuretics** primarily used for hypertension and edema. - They do not possess the necessary respiratory stimulation properties of **Acetazolamide** and are therefore ineffective in treating or preventing mountain sickness. [Practice more Pharmacology PYQs on OnCourse]

6 Previous Year Questions with Answers & Explanations

Questions

What is the mechanism of action of Ethosuximide?

What is the primary mechanism of action of methotrexate?

A patient having hypertension is on thiazides and is complaining of fatigue and hypokalemia. Which of the following drugs can prevent potassium loss?

A patient was given an antipsychotic drug, haloperidol, and the patient developed acute dystonia. Which is the next best step?

A group of people are travelling to the mountains, and a girl starts complaining of mountain sickness. What is the drug of choice?

Which of the following is an atypical antipsychotic with the least metabolic side effects?

FMGE 2024 - Pharmacology FMGE Practice Questions and MCQs

Question 1: What is the mechanism of action of Ethosuximide?

A. Inhibits calcium channels in thalamic neurons (Correct Answer)
B. Enhances GABAergic inhibition
C. Blocks sodium channels
D. Increases serotonin levels

Explanation: ***Inhibits calcium channels in thalamic neurons***- Ethosuximide selectively blocks **T-type calcium channels** (**transient type**) primarily found on **thalamic neurons**.- This blockade reduces the **low-threshold burst firing** responsible for the characteristic **3-Hz spike-and-wave discharge** seen in absence seizures.*Enhances GABAergic inhibition*- This mechanism is characteristic of **Benzodiazepines** and **Barbiturates**, which increase the frequency or duration of GABA-A channel opening.- While some broad-spectrum AEDs like **Valproate** also increase GABA levels, this is not the primary mechanism of action for Ethosuximide.*Blocks sodium channels*- Drugs that block neuronal sodium channels, such as **Phenytoin** and **Carbamazepine**, are effective against tonic-clonic and partial seizures.- This mechanism prevents the rapid, sustained firing of action potentials but is largely ineffective against the burst firing characteristic of absence seizures.*Increases serotonin levels*- This is the primary mechanism associated with **Selective Serotonin Reuptake Inhibitors (SSRIs)** and other antidepressants.- It is not relevant to the function of Ethosuximide, which is specific to modulating neuronal excitability through calcium channels.

Question 2: What is the primary mechanism of action of methotrexate?

A. Inhibits RNA synthesis by blocking RNA polymerase
B. Inhibits dihydrofolate reductase, leading to decreased DNA synthesis (Correct Answer)
C. Interferes with microtubule formation during cell division
D. Inhibits DNA synthesis by blocking thymidylate synthase

Explanation: ***Inhibits dihydrofolate reductase, leading to decreased DNA synthesis***- **Methotrexate (MTX)** is a **folate analog** that acts as a potent competitive inhibitor of the enzyme **dihydrofolate reductase (DHFR)**.- Inhibition of **DHFR** prevents the conversion of **dihydrofolate** to **tetrahydrofolate (THF)**, which is crucial for the synthesis of **purines** and **thymidylate**, halting DNA and RNA production.*Inhibits DNA synthesis by blocking thymidylate synthase*- This mechanism of action is primarily associated with the fluorinated pyrimidine analog **5-Fluorouracil (5-FU)**.- **5-FU** acts as a suicide substrate that irreversibly inhibits **thymidylate synthase**, not dihydrofolate reductase.*Inhibits RNA synthesis by blocking RNA polymerase*- While MTX affects nucleotide synthesis (building blocks for RNA), its primary and most impactful target is **DHFR**, affecting DNA synthesis prominently.- Direct blocking of **RNA polymerase** is the mechanism for drugs such as **Actinomycin D** (by DNA intercalation).*Interferes with microtubule formation during cell division*- This mechanism belongs to the class of **microtubule-targeting agents**, such as **vinca alkaloids** (**vincristine**) and **taxanes** (**paclitaxel**).- These agents disrupt the formation or disassembly of the **mitotic spindle**, leading to **mitotic arrest**, which is distinct from the mechanism of methotrexate.

Question 3: A patient having hypertension is on thiazides and is complaining of fatigue and hypokalemia. Which of the following drugs can prevent potassium loss?

A. Acetazolamide
B. Indapamide
C. Furosemide
D. Amiloride (Correct Answer)

Explanation: ***Amiloride***- Amiloride is a **potassium-sparing diuretic** that acts by blocking the **Epithelial Sodium Channel (ENaC)** in the collecting duct. [5]- By inhibiting Na+ reabsorption here, it decreases the electrical gradient that drives **potassium secretion**, effectively counteracting the hypokalemic effect of thiazides. [2]*Furosemide*- Furosemide is a **loop diuretic** that inhibits the Na-K-2Cl cotransporter in the thick ascending limb.- It is notorious for causing significant urinary **potassium loss** and would worsen the patient's **hypokalemia** and fatigue. [5]*Acetazolamide*- Acetazolamide is a **carbonic anhydrase inhibitor** that increases the delivery of Na+ and bicarbonate (HCO3-) to the collecting duct. [4]- The increased delivery of these ions promotes the secretion and loss of **potassium** in the urine, thus failing to prevent hypokalemia. [4]*Indapamide*- Indapamide is a **thiazide-like diuretic** that, similar to thiazides, inhibits the NaCl cotransporter in the distal convoluted tubule. [1]- Like other thiazides, Indapamide is a **potassium-wasting diuretic** and would exacerbate the existing **hypokalemia**. [3]

Question 4: A patient was given an antipsychotic drug, haloperidol, and the patient developed acute dystonia. Which is the next best step?

A. Give Fluphenazine
B. Give Benztropine (Correct Answer)
C. Increase dose of haloperidol
D. Change to clozapine

Explanation: ***Give Benztropine***- **Acute dystonia** is a severe extrapyramidal symptom (EPS) requiring rapid intervention, often treated intramuscularly or intravenously.- **Benztropine** (an anticholinergic agent) is the drug of choice for the immediate management of acute dystonia, working to restore the balance between dopamine and acetylcholine.*Change to clozapine*- While **clozapine** has a significantly lower risk of causing acute dystonia, it is not the initial treatment for an acute episode due to its slow titration requirements and side-effect profile.- Switching to clozapine is a long-term strategy for patients intolerant to other antipsychotics, not an acute rescue medication.*Give Fluphenazine*- **Fluphenazine** is a high-potency first-generation antipsychotic, similar to haloperidol, which also carries a high risk of EPS.- Administering another high-potency antipsychotic would perpetuate the excessive **dopaminergic blockade** responsible for the acute dystonia.*Increase dose of haloperidol*- **Acute dystonia** is a direct dose-related side effect of D2 receptor blockade by haloperidol in the nigrostriatal pathway.- Increasing the dose of **haloperidol** would worsen the underlying neurochemical imbalance, thereby intensifying the dystonic symptoms.

Question 5: A group of people are travelling to the mountains, and a girl starts complaining of mountain sickness. What is the drug of choice?

A. Thiazide
B. Acetazolamide (Correct Answer)
C. Promethazine
D. Dimenhydrinate

Explanation: ***Acetazolamide*** - This drug is the agent of choice for prophylaxis and treatment of **Acute Mountain Sickness (AMS)** due to its ability to accelerate **acclimatization**. - It functions as a **carbonic anhydrase inhibitor**, inducing a mild metabolic acidosis that stimulates the respiratory center, thereby increasing ventilation and improving blood oxygen saturation. *Promethazine* - This is an **antihistamine** (H1 blocker) often used for its potent **antiemetic** (nausea) and sedative effects. - While it may relieve nausea symptoms associated with AMS, it does not address the underlying physiological disturbances or enhance **acclimatization**. *Dimenhydrinate* - This medication is also an **antihistamine** typically employed to treat and prevent **motion sickness** and vertigo. - It lacks the crucial physiological mechanism (carbonic anhydrase inhibition) required to improve breathing efficiency and accelerate the body's response to **hypoxia**. *Thiazide* - This category of drugs, such as hydrochlorothiazide, are **diuretics** primarily used for hypertension and edema. - They do not possess the necessary respiratory stimulation properties of **Acetazolamide** and are therefore ineffective in treating or preventing mountain sickness.

Question 6: Which of the following is an atypical antipsychotic with the least metabolic side effects?

A. Risperidone
B. Ziprasidone (Correct Answer)
C. Haloperidol
D. Quetiapine

Explanation: ***Ziprasidone*** - Among the atypical (second-generation) antipsychotics, **Ziprasidone** has the lowest risk regarding adverse **metabolic side effects**, including **weight gain**, dyslipidemia, and insulin resistance. - Due to its minimal impact on metabolic parameters, it is a preferred choice for patients with pre-existing **cardiovascular risk factors** or obesity. *Haloperidol* - Haloperidol is a **first-generation (typical)** antipsychotic, which primarily risks **extrapyramidal symptoms (EPS)** and elevated prolactin, rather than being an atypical agent. - While its metabolic risk is generally lower than high-risk atypicals (e.g., Olanzapine), it is not the correct classification for answering a question focusing on *atypical* drugs. *Risperidone* - Risperidone is an atypical antipsychotic but carries a **moderate to high risk** of causing significant **weight gain** and **hyperprolactinemia**. - Its metabolic profile is considerably worse than that of Ziprasidone or Aripiprazole. *Quetiapine* - Quetiapine carries a substantial risk profile regarding metabolic adverse effects, specifically high rates of **sedation** and clinically significant **weight gain**. - It is frequently linked to the development of **dyslipidemia** and **Type 2 diabetes mellitus**.