FMGE 2017 PYQs — Page 4 of 8

Dental

1 questions

Q31

21st tooth erupts at:-

FMGE 2017 - Dental FMGE Practice Questions and MCQs

Question 31: 21st tooth erupts at:-

A. 10 years
B. 6 years
C. 12 years
D. 8 years (Correct Answer)

Explanation: ***8 years*** - The **permanent mandibular central incisors** (teeth #24 and #25) and maxillary central incisors (teeth #8 and #9) typically erupt around **6-8 years of age**. - As the question refers to the "21st tooth" (lower left first molar), referring to the typical numbering system in dentistry for permanent teeth, it would correspond to the lower left first premolar (tooth #21), which typically erupts between **10-12 years of age**. However, if assuming a more general interpretation of a "middle tooth" erupting later, 8 years is within the range for central incisors before lateral incisors or premolars. Given the provided correct answer, it likely refers to central incisors which erupt around this age, making 8 years the closest general option if specific tooth numbering is not strictly intended for primary teeth. *10 years* - This age is typically associated with the eruption of **premolars** and **canines**, rather than the earlier erupting central incisors. - While some permanent teeth do erupt around 10 years, it's not the primary eruption time for the permanent central incisors, which are among the earliest to erupt. *6 years* - The first permanent teeth to erupt are generally the **first molars** and the **mandibular central incisors**, typically around 6 years of age. - However, for the "21st tooth" as per the universal numbering system (lower left first premolar), 6 years is too early an age for its eruption. *12 years* - This age is associated with the eruption of **second molars** and sometimes the last of the premolars/canines. - It is too late for the eruption of central incisors, which are among the first permanent teeth to erupt.

Pathology

2 questions

Q31

Which of the following conditions is characterized by the presence of hyaline deposits in alveolar walls?

Q32

All of the following special histology stains are used to demonstrate H. pylori in gastric biopsies, except:

FMGE 2017 - Pathology FMGE Practice Questions and MCQs

Question 31: Which of the following conditions is characterized by the presence of hyaline deposits in alveolar walls?

A. Asthma
B. Hyaline membrane disease (Correct Answer)
C. Chronic bronchitis
D. Interstitial lung disease

Explanation: ***Hyaline membrane disease*** - This condition is pathologically characterized by the presence of **eosinophilic (hyaline) membranes** lining the distal airspaces, which are composed of fibrin, cellular debris, and necrotic cells [1]. - These **hyaline deposits obstruct gas exchange** and are a hallmark of **acute lung injury** in neonates due to surfactant deficiency [2]. *Asthma* - Characterized by **bronchoconstriction**, **mucus plugging**, and **airway inflammation**, but not hyaline deposits in alveolar walls. - Pathologically, there is hyperplasia of goblet cells, hypertrophy of bronchial smooth muscle, and eosinophilic infiltration. *Chronic bronchitis* - Defined by **chronic productive cough** due to hypertrophy of mucous glands and increased mucus production in the bronchi, not alveolar hyaline deposits. - It primarily affects the **large airways** and is associated with chronic inflammation and airway obstruction. *Interstitial lung disease* - Involves inflammation and fibrosis of the **interstitium of the lung**, leading to impaired gas exchange. - While it causes architectural distortion, **hyaline deposits** in the alveolar walls are not a defining pathological feature. **References:** [1] Kumar V, Abbas AK, et al.. Robbins and Cotran Pathologic Basis of Disease. 9th ed. The Lung, pp. 679-681. [2] Kumar V, Abbas AK, et al.. Robbins and Cotran Pathologic Basis of Disease. 9th ed. Diseases of Infancy and Childhood, p. 466.

Question 32: All of the following special histology stains are used to demonstrate H. pylori in gastric biopsies, except:

A. Giemsa stain
B. Fite's stain (Correct Answer)
C. Warthin-Starry stain
D. Modified Steiner's stain

Explanation: ***Fite's stain*** - **Fite's stain** (or Fite-Faraco stain) is a modified acid-fast stain primarily used to detect **mycobacteria**, particularly **Mycobacterium leprae**, in tissue sections [2]. - It is not used for the identification of **Helicobacter pylori**. *Giemsa stain* - **Giemsa stain** is a common special stain used to visualize **Helicobacter pylori** directly in gastric biopsies due to its ability to stain the bacterial cytoplasm a characteristic **blue color**. - It works by staining the cytoplasmic and nuclear components of cells, making bacteria and inflammatory cells easily identifiable. *Modified Steiner's stain* - **Modified Steiner's stain** is a silver impregnation stain used to demonstrate spirochetes and other bacteria, including **Helicobacter pylori**, by staining them **black**. - It involves a silver solution that precipitates onto the bacterial surface, followed by a reducing agent to visualize the organisms. *Warthin-Starry stain* - The **Warthin-Starry stain** is another silver impregnation method widely employed for detecting spirochetes and bacteria like **Helicobacter pylori** in tissue [1]. - It renders the bacteria visible as **black** or dark brown structures against a pale yellow background, providing excellent contrast [1]. **References:** [1] Kumar V, Abbas AK, et al.. Robbins and Cotran Pathologic Basis of Disease. 9th ed. The Gastrointestinal Tract, p. 771. [2] Kumar V, Abbas AK, et al.. Robbins and Cotran Pathologic Basis of Disease. 9th ed. Infectious Diseases, pp. 385-386.

Pediatrics

1 questions

Q31

In a newly diagnosed case of a sick child with type 1 diabetes mellitus (DM), insulin was given. Which of the following will increase:

Pharmacology

5 questions

Q31

Which of these is the best for management of methanol poisoning?

Q32

Many drugs are used as rescue therapy for preventing the adverse effects of anticancer drugs. Folinic acid is used in:-

Q33

Ritodrine is a:-

Q34

Mechanism of action of Pemetrexed is:-

Q35

All of the following statements about pralidoxime in organophosphate poisoning are true except:-

FMGE 2017 - Pharmacology FMGE Practice Questions and MCQs

Question 31: Which of these is the best for management of methanol poisoning?

A. Fomepizole (Correct Answer)
B. Naltrexone
C. Disulfiram
D. Acamprosate

Explanation: ***Fomepizole*** - **Fomepizole** is a competitive inhibitor of **alcohol dehydrogenase**, the enzyme responsible for metabolizing methanol into toxic metabolites like formic acid. - By inhibiting this enzyme, it prevents the formation of these toxic metabolites, thereby reducing organ damage and metabolic acidosis in methanol poisoning. *Naltrexone* - **Naltrexone** is an **opioid receptor antagonist** used in the treatment of alcohol and opioid dependence. - It does not have any direct action on the metabolism of methanol or its toxic byproducts. *Disulfiram* - **Disulfiram** inhibits **aldehyde dehydrogenase**, leading to an unpleasant reaction when alcohol is consumed (flushing, nausea, vomiting). - It is used for alcohol cessation and has no role in the management of methanol poisoning. *Acamprosate* - **Acamprosate** is a medication used to reduce alcohol cravings in individuals recovering from alcohol dependence, possibly by modulating **glutamate neurotransmission**. - It does not directly affect the metabolism of methanol or mitigate its toxic effects.

Question 32: Many drugs are used as rescue therapy for preventing the adverse effects of anticancer drugs. Folinic acid is used in:-

A. Cyclophosphamide toxicity
B. Doxorubicin toxicity
C. Methotrexate toxicity (Correct Answer)
D. Cisplatin toxicity

Explanation: ***Methotrexate toxicity*** - **Folinic acid (leucovorin)** is a reduced folate that bypasses the metabolic block caused by **methotrexate** on dihydrofolate reductase. - It replenishes the body's **folate stores** and protects healthy cells from methotrexate's cytotoxic effects, particularly in the bone marrow and gastrointestinal tract. *Cyclophosphamide toxicity* - **Cyclophosphamide** toxicity, primarily hemorrhagic cystitis, is prevented by **mesna** (2-mercaptoethane sulfonate). - Mesna inactivates the urotoxic metabolite **acrolein** in the urine, preventing bladder damage. *Doxorubicin toxicity* - **Doxorubicin** causes cardiotoxicity, which can be mitigated by the iron-chelating agent **dexrazoxane**. - Dexrazoxane reduces the formation of **free radicals** that contribute to doxorubicin-induced myocardial damage. *Cisplatin toxicity* - **Cisplatin** toxicity, especially nephrotoxicity, is largely prevented by **aggressive hydration** and administration of **diuretics**. - **Amifostine** is another agent that can reduce cisplatin-induced nephrotoxicity, neurotoxicity, and ototoxicity by acting as a cytoprotectant.

Question 33: Ritodrine is a:-

A. β antagonist
B. α agonist
C. β2 agonist (Correct Answer)
D. α1 antagonist

Explanation: ***β2 agonist*** - Ritodrine is a **selective beta-2 adrenergic receptor agonist** primarily used as a **tocolytic agent** to relax the uterus and stop premature labor. - Its action involves stimulating **beta-2 receptors** in the myometrium, leading to decreased intracellular calcium and uterine smooth muscle relaxation. *α1 antagonist* - Alpha-1 antagonists block **alpha-1 adrenergic receptors**, causing vasodilation and are used to treat conditions like **hypertension** or **benign prostatic hyperplasia**. - Ritodrine's mechanism is distinct, as it targets beta-2 receptors, not alpha-1. *β antagonist* - Beta antagonists (beta-blockers) block **beta adrenergic receptors** (beta-1, beta-2, or both) and are used for conditions like **hypertension**, **angina**, or **arrhythmias**. - Ritodrine is an agonist, meaning it activates receptors, rather than blocking them. *α agonist* - Alpha agonists stimulate **alpha adrenergic receptors**, causing vasoconstriction and increased blood pressure, as seen with agents like **phenylephrine**. - Ritodrine specifically targets beta-2 receptors, leading to opposite effects like smooth muscle relaxation in the uterus and bronchi.

Question 34: Mechanism of action of Pemetrexed is:-

A. Topoisomerase inhibitor
B. Dihydrofolate reductase inhibitor
C. Dopamine agonist
D. Thymidylate synthase inhibitor (Correct Answer)

Explanation: ***Thymidylate synthase inhibitor*** - **Pemetrexed** is a **multi-targeted antifolate agent** that primarily inhibits **thymidylate synthase (TS)**, the key enzyme responsible for synthesizing thymidine monophosphate, an essential building block for DNA synthesis. - While pemetrexed also inhibits **dihydrofolate reductase (DHFR)** and **glycinamide ribonucleotide formyltransferase (GARFT)**, its **primary and most clinically significant mechanism** is TS inhibition, making it particularly effective in mesothelioma and non-small cell lung cancer. - This multi-targeted action enhances its cytotoxic effects compared to single-target antifolates. *Dihydrofolate reductase inhibitor* - While pemetrexed does inhibit **DHFR** as part of its multi-targeted mechanism, this is a **secondary action**, not its primary mechanism. - Classical DHFR inhibitors include **methotrexate** and **trimethoprim**, which specifically target this enzyme. - In exam contexts, pemetrexed is best classified by its **primary target: thymidylate synthase**. *Topoisomerase inhibitor* - **Topoisomerase inhibitors** target enzymes that control DNA topology during replication and transcription. - Examples include **irinotecan** and **topotecan** (topoisomerase I inhibitors) and **etoposide** (topoisomerase II inhibitor). - This is not the mechanism of action for pemetrexed. *Dopamine agonist* - **Dopamine agonists** activate dopamine receptors and are used in neurological conditions like Parkinson's disease (e.g., **pramipexole**, **ropinirole**). - This mechanism is completely unrelated to anticancer agents and folate metabolism.

Question 35: All of the following statements about pralidoxime in organophosphate poisoning are true except:-

A. It does not cross blood brain barrier
B. It should be started after 24 hours of poisoning (Correct Answer)
C. Reactivates the AChE enzyme
D. It is given intravenously

Explanation: ***It should be started after 24 hours of poisoning*** - **Pralidoxime (2-PAM)** is most effective when administered **early** in organophosphate poisoning, ideally within minutes to a few hours of exposure. - Delaying administration beyond **24-48 hours** significantly reduces its efficacy because the bond between the organophosphate and **acetylcholinesterase (AChE)** becomes **irreversible** (a process called "aging"). *It does not cross blood brain barrier* - **Pralidoxime** is a **quaternary ammonium compound**, which makes it highly polar and unable to readily cross the **blood-brain barrier**. - Therefore, it primarily reactivates **acetylcholinesterase** in the **peripheral nervous system** but has limited effect on central nervous system symptoms. *Reactivates the AChE enzyme* - **Pralidoxime** works by **reactivating the acetylcholinesterase enzyme** that has been inhibited by organophosphates. - It does this by binding to the organophosphate molecule, thereby freeing the active site of the **AChE enzyme** to metabolize **acetylcholine** again. *It is given intravenously* - **Pralidoxime** is typically administered via **intravenous (IV) infusion** to achieve rapid and sustained therapeutic concentrations. - Due to its poor oral absorption, oral administration is not a suitable route for treating acute organophosphate poisoning.

FMGE 2017

Anatomy

Dental

Pathology

Pediatrics

Pharmacology