Which of the following statements about glucocorticoids is true?
A 47-year-old woman presents with complaints of nervousness and increased sensitivity to hot weather. She is diagnosed with hyperthyroidism and prescribed propylthiouracil. What is the principal mechanism by which this drug acts?
Which of the following is an aromatase inhibitor?
Which antithyroid drug is preferred during the first trimester of pregnancy due to relatively lower placental transfer?
Which of the following oral antidiabetic drugs is an insulin secretagogue?
Which of the following drugs is commonly used as a rescue medication for acute asthma attacks?
Which statement best describes first-order kinetics in pharmacokinetics?
Alkaline diuresis in drug poisoning is not done in?
Permission from DCGI [Drug controller general, India] is needed before which phase of drug trial?
Which triptan is available in nasal spray form?
NEET-PG 2015 - Pharmacology NEET-PG Practice Questions and MCQs
Question 81: Which of the following statements about glucocorticoids is true?
- A. Glucocorticoids directly activate T-helper cells.
- B. Glucocorticoids have no effect on immune cells.
- C. Glucocorticoids downregulate MHC class II expression. (Correct Answer)
- D. Glucocorticoids enhance the activity of cytotoxic T cells.
Explanation: ***Glucocorticoids downregulate MHC class II expression.*** - Glucocorticoids exert **immunosuppressive effects** by reducing the expression of **MHC class II molecules** on antigen-presenting cells. - This downregulation impairs the ability of antigen-presenting cells to activate **CD4+ T-helper cells**, thereby suppressing adaptive immune responses. *Glucocorticoids directly activate T-helper cells.* - Glucocorticoids do not directly activate T-helper cells; rather, they have an **inhibitory effect** on T-cell function and proliferation. - They tend to promote **T-cell apoptosis** and reduce cytokine production, thus dampening T-helper cell responses. *Glucocorticoids have no effect on immune cells.* - This statement is incorrect as glucocorticoids have profound and widespread **immunosuppressive and anti-inflammatory effects** on various immune cells. - They influence the function, proliferation, and survival of **lymphocytes, macrophages, and granulocytes**. *Glucocorticoids enhance the activity of cytotoxic T cells.* - Glucocorticoids generally **suppress immune responses**, including the activity of **cytotoxic T cells (CTLs)**, rather than enhancing it. - They tend to inhibit the production of **interleukins** necessary for CTL activation and proliferation.
Question 82: A 47-year-old woman presents with complaints of nervousness and increased sensitivity to hot weather. She is diagnosed with hyperthyroidism and prescribed propylthiouracil. What is the principal mechanism by which this drug acts?
- A. Reducing the proteolysis of thyroglobulin.
- B. Inhibiting the binding of TSH to its receptor.
- C. Inhibiting the enzyme thyroid peroxidase, which reduces the synthesis of thyroid hormones. (Correct Answer)
- D. Altering the levels of reverse T3 (rT3) in the body.
Explanation: ***Inhibiting the enzyme thyroid peroxidase, which reduces the synthesis of thyroid hormones.*** - **Propylthiouracil (PTU)** is a **thionamide** drug that primarily acts by inhibiting the enzyme **thyroid peroxidase**. - Thyroid peroxidase is crucial for the **organification of iodide** and the **coupling of iodotyrosines** (MIT and DIT) to form T3 and T4, thus reducing the synthesis of thyroid hormones. *Inhibiting the binding of TSH to its receptor.* - This mechanism is characteristic of **TSH receptor antibodies**, which are a cause of hyperthyroidism (e.g., in Graves' disease), rather than the action of an antithyroid drug like PTU. - PTU works at the level of hormone synthesis within the thyroid gland, not at the receptor level for TSH. *Reducing the proteolysis of thyroglobulin.* - While thyroid hormones are stored as part of thyroglobulin, and their release involves proteolysis, this is not the **principal mechanism of action** for PTU. - The main effect of PTU is upstream, preventing the formation of the hormones themselves. *Altering the levels of reverse T3 (rT3) in the body.* - PTU does inhibit the **peripheral conversion of T4 to T3**, which can reduce overall T3 levels and increase rT3, but this is a **secondary mechanism**. - The primary and most significant action for reducing hyperthyroid symptoms is the direct inhibition of thyroid hormone synthesis within the gland.
Question 83: Which of the following is an aromatase inhibitor?
- A. Letrozole (Correct Answer)
- B. Tamoxifen
- C. Danazol
- D. Taxane
Explanation: ***Letrozole*** - **Letrozole** is a commonly used **aromatase inhibitor**, which works by blocking the enzyme **aromatase** that converts androgens into estrogens [1]. - This reduction in estrogen levels is crucial in treating **hormone-sensitive breast cancers** [1]. *Tamoxifen* - **Tamoxifen** is a **selective estrogen receptor modulator (SERM)**, not an aromatase inhibitor [2]. - It acts by blocking estrogen receptors in breast tissue while potentially stimulating them in other tissues like bone and uterus [2]. *Danazol* - **Danazol** is a synthetic androgen that suppresses the hypothalamic-pituitary-gonadal axis, leading to **decreased estrogen production**. - It works by inhibiting gonadotropin release and directly inhibiting ovarian steroidogenesis, rather than blocking the aromatase enzyme directly. *Taxane* - **Taxanes** are a class of **chemotherapy drugs** that interfere with cell division by stabilizing microtubules. - They are used to treat various cancers, including breast cancer, but do not act as aromatase inhibitors.
Question 84: Which antithyroid drug is preferred during the first trimester of pregnancy due to relatively lower placental transfer?
- A. Carbimazole
- B. Propylthiouracil (Correct Answer)
- C. Both
- D. None of the options
Explanation: ***Propylthiouracil*** - **Propylthiouracil (PTU)** is the preferred antithyroid drug during the **first trimester** of pregnancy because it crosses the placenta less readily than methimazole/carbimazole. - While it still crosses the placenta, its lower placental transfer and association with fewer fetal anomalies in early pregnancy make it a safer initial choice, especially to minimize the risk of **fetal embryopathy** associated with methimazole. *Carbimazole* - **Carbimazole** (which is metabolized to methimazole) can cross the placenta more easily than PTU and has been associated with **fetal anomalies**, particularly in the first trimester. - Its use is generally avoided during the first trimester due to concerns about congenital malformations such as **aplasia cutis** and **esophageal atresia**. *Both* - While both drugs can cross the placenta to some extent, their safety profiles and recommended use during pregnancy differ significantly. - Carbimazole (methimazole) has a higher risk of teratogenicity in the first trimester compared to PTU. *None of the options* - This option is incorrect because propylthiouracil is indeed known to cross the placenta and is commonly used in pregnancy, especially during the first trimester. - The choice of antithyroid drug is a critical consideration in managing hyperthyroidism in pregnancy.
Question 85: Which of the following oral antidiabetic drugs is an insulin secretagogue?
- A. Metformin
- B. Pioglitazone
- C. Nateglinide (Correct Answer)
- D. Acarbose
Explanation: **Nateglinide** - **Nateglinide** is a **meglitinide**, which is a type of **insulin secretagogue**. - It stimulates **insulin release** from pancreatic beta cells by blocking ATP-sensitive potassium channels. *Metformin* - **Metformin** is a **biguanide** that primarily works by **decreasing hepatic glucose production** and increasing insulin sensitivity in peripheral tissues. - It does not directly stimulate insulin secretion. *Pioglitazone* - **Pioglitazone** is a **thiazolidinedione** (TZD) that improves insulin sensitivity by activating **PPAR-gamma receptors**. - It does not directly affect insulin secretion but rather enhances the body's response to existing insulin. *Acarbose* - **Acarbose** is an **alpha-glucosidase inhibitor** that delays the digestion and absorption of carbohydrates in the small intestine. - This reduces postprandial glucose excursions and does not directly stimulate insulin secretion.
Question 86: Which of the following drugs is commonly used as a rescue medication for acute asthma attacks?
- A. Salbutamol (Correct Answer)
- B. Theophylline
- C. Terbutaline
- D. Budesonide
Explanation: ***Salbutamol*** - **Salbutamol** (albuterol) is a **short-acting beta-2 agonist (SABA)** that rapidly relaxes bronchial smooth muscle. - Its quick onset of action makes it ideal for immediate relief of **bronchoconstriction** during an acute asthma attack. - It is the **most commonly used** and **first-line rescue medication** for acute asthma worldwide. *Terbutaline* - **Terbutaline** is also a **short-acting beta-2 agonist (SABA)** similar to salbutamol and can be used as a rescue medication. - While it has comparable bronchodilator effects, **salbutamol is more commonly used** as the preferred rescue inhaler in clinical practice. - Both are SABAs, but salbutamol has become the standard first-choice rescue medication globally. *Theophylline* - **Theophylline** is a **methylxanthine** that acts as a bronchodilator but has a **narrow therapeutic index** and slower onset of action. - It is used as a **maintenance therapy** for chronic asthma and not as a rescue drug for acute exacerbations. *Budesonide* - **Budesonide** is an **inhaled corticosteroid (ICS)** used as a **long-term controller medication** to reduce airway inflammation. - It has a slow onset of action and is *not* effective for immediate relief during an acute asthma attack.
Question 87: Which statement best describes first-order kinetics in pharmacokinetics?
- A. Absorption of the drug is independent of the serum concentration
- B. Elimination of the drug is proportional to the serum concentration (Correct Answer)
- C. Absorption of the drug is proportional to the serum concentration
- D. Elimination of the drug is independent of the serum concentration
Explanation: ***Elimination of the drug is proportional to the serum concentration*** - In **first-order kinetics**, a **constant fraction** (or percentage) of the drug is eliminated per unit of time. - This means that as the **serum drug concentration** increases, the absolute amount of drug eliminated per unit time also increases proportionally. *Absorption of the drug is independent of the serum concentration* - Drug absorption is generally driven by factors like **concentration gradient**, surface area, and blood flow, and while it can be influenced by drug concentration, this statement does not define first-order kinetics of *elimination*. - This statement is not the primary characteristic distinguishing first-order from zero-order kinetics regarding drug disposition. *Elimination of the drug is independent of the serum concentration.* - This describes **zero-order kinetics**, where a **constant amount** of drug is eliminated per unit of time, regardless of the serum concentration. - In zero-order kinetics, the elimination rate becomes saturated, so the elimination process cannot keep up with higher drug concentrations. *Absorption of the drug is proportional to the serum concentration* - While drug absorption can be proportional to the concentration (especially through passive diffusion), first-order kinetics specifically refers to the **elimination phase** of pharmacokinetics. - The rate of absorption can be a complex process and is not the defining characteristic for distinguishing first-order from zero-order *elimination*.
Question 88: Alkaline diuresis in drug poisoning is not done in?
- A. Aspirin
- B. Morphine (Correct Answer)
- C. Phenobarbitone
- D. Methotrexate
Explanation: ***Morphine*** - **Morphine** is an **alkaline drug**, so its elimination is actually enhanced by **acidification of the urine**, not alkalinization. - Alkaline diuresis would decrease the ionization of morphine in the renal tubules, leading to **increased reabsorption** and reduced excretion. *Aspirin* - **Aspirin (acetylsalicylic acid)** is an **acidic drug**, and **alkaline diuresis** is effective in increasing its excretion by trapping the ionized form in the renal tubules. - This process prevents reabsorption and promotes clearance, which is a standard treatment for aspirin overdose. *Methotrexate* - **Methotrexate** is a **weak organic acid**, and **alkaline diuresis** is crucial in reducing its toxicity, especially in high-dose therapy. - By increasing urine pH, the renal elimination of methotrexate is significantly enhanced, preventing kidney damage and systemic accumulation. *Phenobarbitone* - **Phenobarbitone** is a **weak acid**, and **alkaline diuresis** is a well-established method to increase its renal excretion in cases of overdose. - Alkalinization of the urine promotes the ionization of phenobarbitone, reducing its reabsorption by the renal tubules and accelerating its elimination.
Question 89: Permission from DCGI [Drug controller general, India] is needed before which phase of drug trial?
- A. Phase 1
- B. Phase 2
- C. Phase 3 (Correct Answer)
- D. Phase 4
Explanation: ***Phase 3*** - Permission from the **DCGI (Drug Controller General of India)** is mandatory before initiating **Phase 3** clinical trials as per **Schedule Y** of the Drugs and Cosmetics Rules. - Phase 3 trials involve **large-scale studies in Indian patients** to establish efficacy and safety in the target population, requiring explicit regulatory approval. - This is the critical regulatory checkpoint where DCGI evaluates the Phase 1 and 2 data before allowing widespread testing in Indian subjects. *Phase 1* - Phase 1 trials can be conducted after approval from the **Institutional Ethics Committee (IEC)** without requiring prior DCGI permission. - These trials in healthy volunteers focus on safety, pharmacokinetics, and dose-ranging studies. - DCGI is informed but explicit permission is not mandatory at this stage. *Phase 2* - Phase 2 trials also proceed with **IEC approval** and do not require prior DCGI permission. - These trials evaluate therapeutic efficacy and dose determination in a limited number of patients. - Results from Phase 2 are submitted to DCGI when seeking Phase 3 approval. *Phase 4* - Phase 4 trials are **post-marketing surveillance** studies conducted after drug approval. - These are conducted under the Post-Marketing Surveillance (PMS) framework. - While regulatory oversight exists, these are not pre-market trials requiring permission to initiate.
Question 90: Which triptan is available in nasal spray form?
- A. Sumatriptan (Correct Answer)
- B. Rizatriptan
- C. Naratriptan
- D. Frovatriptan
Explanation: ***Sumatriptan*** - **Sumatriptan** is available in multiple formulations, including **oral, subcutaneous injection, and nasal spray**, making it versatile for migraine treatment [1], [2]. - The nasal spray formulation allows for **faster absorption** and onset of action, which can be beneficial for patients with nausea or vomiting during migraine attacks [1]. *Rizatriptan* - **Rizatriptan** is primarily available in **oral tablet** and **orally disintegrating tablet** (ODT) forms [2]. - It does not have a commonly available nasal spray formulation for migraine treatment [2]. *Naratriptan* - **Naratriptan** is available as an **oral tablet** and is known for its **longer half-life** and generally milder side effect profile compared to sumatriptan [2]. - It is not available in a nasal spray formulation [2]. *Frovatriptan* - **Frovatriptan** is available exclusively as an **oral tablet** and is notable for having the **longest half-life** among triptans, making it useful for preventing recurring migraines [2]. - There is no nasal spray formulation for frovatriptan [2].