The MOST COMMON cause of concentric hypertrophy of left ventricle is?
Which of the following statements is true regarding light microscopy findings in minimal change disease?
Flexner-Wintersteiner rosette is seen in-
Irreversible injury in myocardium occurs at ?
Gastric carcinoma is associated with all of the following EXCEPT:
Linitis plastica is a type of ?
Centrilobular necrosis of the liver may be seen with?
Hurthle cell carcinoma is a variant of which type of carcinoma?
Dystrophic calcification is seen in
Peliosis hepatis is caused by all except?
NEET-PG 2013 - Pathology NEET-PG Practice Questions and MCQs
Question 11: The MOST COMMON cause of concentric hypertrophy of left ventricle is?
- A. Hypertension (Correct Answer)
- B. Aortic stenosis
- C. Mitral stenosis
- D. Aortic regurgitation
Explanation: ***Hypertension*** - Chronic **hypertension** is the most common cause of **pressure overload** on the left ventricle, leading to concentric hypertrophy [1]. - In response to the increased afterload, the ventricular wall thickens uniformly inward, reducing the chamber size while maintaining normal wall stress [2]. - Due to its high prevalence (30-40% of adults), hypertension is epidemiologically the most frequent cause of concentric LVH [1]. *Aortic stenosis* - While **aortic stenosis** is the classic pathological cause of **pressure overload** and concentric hypertrophy [2], **hypertension** is more prevalent in the population. - Aortic stenosis causes fixed outflow obstruction, leading to significant pressure work for the left ventricle. - This is the second most common cause but occurs in only 2-5% of elderly patients. *Mitral stenosis* - **Mitral stenosis** primarily causes pressure overload on the **left atrium** and **pulmonary circulation**, not the left ventricle. - It doesn't typically lead to **left ventricular hypertrophy** directly; instead, it causes left atrial enlargement and right ventricular hypertrophy. *Aortic regurgitation* - **Aortic regurgitation** results in **volume overload** of the left ventricle due to blood flowing back into the chamber during diastole. - This typically leads to **eccentric hypertrophy**, where the chamber dilates and the wall thickens proportionally, rather than concentric hypertrophy [2]. **References:** [1] Kumar V, Abbas AK, et al.. Robbins and Cotran Pathologic Basis of Disease. 9th ed. The Heart, pp. 560-562. [2] Kumar V, Abbas AK, et al.. Robbins and Cotran Pathologic Basis of Disease. 9th ed. The Heart, p. 536.
Question 12: Which of the following statements is true regarding light microscopy findings in minimal change disease?
- A. Foot process effacement is observed under electron microscopy, not light microscopy.
- B. Anti-GBM antibodies are associated with Goodpasture syndrome, not minimal change disease.
- C. No significant changes are seen under light microscopy. (Correct Answer)
- D. IgA deposits are characteristic of IgA nephropathy, not minimal change disease.
Explanation: ***No change seen*** - In minimal change disease, **light microscopy** typically shows no significant changes, which is a key characteristic of the condition [1]. - The disease primarily affects the **podocytes** leading to **nephrotic syndrome**, while light microscopy does not reveal any abnormalities [1]. *Loss of foot process seen* - Loss of foot processes is actually observed under **electron microscopy**, not light microscopy. - Light microscopy remains normal, differentiating minimal change disease from other glomerular diseases. *IgA deposits seen* - IgA deposits are associated with **IgA nephropathy**, which is a different condition characterized by mesangial deposition. - Minimal change disease does not have **immunofluorescence** findings, and thus shows no such deposits on light microscopy [1]. *Anti GBM Abs seen* - Anti-GBM antibodies are characteristic of **Goodpasture syndrome**, which presents with significant changes in glomerular structure. - In minimal change disease, there are no **anti-GBM antibodies** or major changes visible under light microscopy. **References:** [1] Kumar V, Abbas AK, et al.. Robbins and Cotran Pathologic Basis of Disease. 9th ed. The Kidney, pp. 927-928.
Question 13: Flexner-Wintersteiner rosette is seen in-
- A. Retinoblastoma (Correct Answer)
- B. Hepatoblastoma
- C. Nephroblastoma
- D. Neuroblastoma
Explanation: ***Retinoblastoma*** - Flexner-Wintersteiner rosettes are **characteristic histological features** seen in retinoblastoma, indicating retinal differentiation [1]. - These rosettes reflect the **presence of photoreceptor-like structures**, which are specific to this type of tumor [1]. *Hepatoblastoma* - Histologically, hepatoblastoma shows **primitive epithelial cells** and **mixed patterns**, not Flexner-Wintersteiner rosettes. - It is primarily associated with **liver** and does not present with retinal differentiation. *Nephroblastoma* - Nephroblastoma, or Wilms tumor, typically exhibits **triphasic histology** (epithelial, stromal, and blastemal components) without rosette formation. - It primarily affects the **kidney** and does not involve the retina. *Neuroblastoma* - Neuroblastoma is characterized by **small round blue cells** and **neuroid differentiation** but lacks Flexner-Wintersteiner rosettes. - This tumor usually arises in the **adrenal glands** or sympathetic nervous system, not in retinal tissue. **References:** [1] Kumar V, Abbas AK, et al.. Robbins and Cotran Pathologic Basis of Disease. 9th ed. The Eye, p. 1342.
Question 14: Irreversible injury in myocardium occurs at ?
- A. 30 minutes (Correct Answer)
- B. 5 hours
- C. 1 minute
- D. 1 hour
Explanation: ***30 minutes*** - Irreversible injury to **myocardial cells** typically begins **at approximately 20-30 minutes of ischemia** [1]. - This time frame represents the critical threshold where cellular damage, including **mitochondrial dysfunction** and **sarcolemmal rupture**, becomes too severe for recovery even with reperfusion [2]. - Beyond this point, cells lose membrane integrity and undergo **coagulative necrosis** [2]. *1 minute* - Myocardial cells can tolerate **ischemia** for a short period, with reversible changes occurring within the first few minutes [4]. - At 1 minute, the injury is still entirely **reversible**, and cells can fully recover if blood flow is restored [5]. - Changes at this stage include depletion of ATP and accumulation of metabolites [5]. *1 hour* - While significant **irreversible damage** has occurred by this time, the onset of irreversibility is earlier, around the 20-30 minute mark [1]. - By 1 hour, a substantial portion of the ischemic myocardium would have undergone **necrosis**, but the critical threshold was crossed 30 minutes earlier [2]. *5 hours* - By 5 hours, nearly all myocardial tissue that was subjected to continuous **ischemia** would have experienced **irreversible injury** and necrosis [3]. - This duration is well beyond the initial window for irreversible changes, indicating extensive and widespread cell death [2]. **References:** [1] Kumar V, Abbas AK, et al.. Robbins and Cotran Pathologic Basis of Disease. 9th ed. Hemodynamic Disorders, Thromboembolic Disease, and Shock, pp. 140-142. [2] Kumar V, Abbas AK, et al.. Robbins and Cotran Pathologic Basis of Disease. 9th ed. The Heart, p. 552. [3] Kumar V, Abbas AK, et al.. Robbins and Cotran Pathologic Basis of Disease. 9th ed. The Heart, pp. 554-556. [4] Kumar V, Abbas AK, et al.. Robbins and Cotran Pathologic Basis of Disease. 9th ed. The Heart, pp. 548-550. [5] Kumar V, Abbas AK, et al.. Robbins and Cotran Pathologic Basis of Disease. 9th ed. Cellular Responses to Stress and Toxic Insults: Adaptation, Injury, and Death, pp. 61-62.
Question 15: Gastric carcinoma is associated with all of the following EXCEPT:
- A. Over expression of C-met
- B. Inactivation of p53
- C. Over expression of C-erb
- D. Activation of RAS (Correct Answer)
Explanation: ***Activation of RAS*** - **RAS mutations** are relatively uncommon in gastric carcinoma compared to other gastrointestinal malignancies. While KRAS mutations can occur in approximately 10-15% of gastric cancers (particularly intestinal type), they are **far less frequent** than in **pancreatic adenocarcinoma** (~90%) or **colorectal carcinoma** (~40%). - In the context of gastric carcinoma, RAS pathway alterations are **not considered a major oncogenic driver** compared to the other molecular changes listed, making this the **LEAST characteristically associated** alteration. *Inactivation of p53* - **Inactivation of the p53 tumor suppressor gene** is one of the most frequent molecular events in gastric carcinoma, occurring in approximately **50-60% of cases**. - Loss of p53 function leads to genomic instability, uncontrolled cell proliferation, and resistance to apoptosis, contributing significantly to **tumorigenesis** and **poor prognosis**. *Over expression of C-met* - **Overexpression of C-MET**, a receptor tyrosine kinase for hepatocyte growth factor (HGF), is commonly observed in gastric carcinoma (30-40% of cases) and is strongly linked to **tumor growth**, **invasion**, and **metastasis**. - C-MET amplification and overexpression promote cell proliferation, survival, migration, and angiogenesis, making it an important **therapeutic target** in advanced gastric cancer. *Over expression of C-erb* - **Overexpression of C-erbB-2 (HER2/neu)** is found in approximately **10-20% of gastric adenocarcinomas**, particularly the intestinal type. - HER2 amplification or overexpression is a significant **prognostic and predictive biomarker**, and is specifically targeted by **trastuzumab** (Herceptin) therapy in HER2-positive advanced gastric cancer, improving survival outcomes.
Question 16: Linitis plastica is a type of ?
- A. Benign ulcer
- B. GIST
- C. Manifestation of gastric cancer (Correct Answer)
- D. Plastic-like appearance of stomach lining
Explanation: ***Diffuse carcinoma of stomach*** - Linitis plastica is a specific type of **gastric cancer** characterized by **thickening of the stomach wall**, leading to a rigid, non-distensible abdomen [1]. - It often presents with **significant weight loss** and **early satiety**, distinguishing it from other stomach conditions. *Benign ulcer* - Benign ulcers do not cause the **extensive wall thickening** or **desmoplastic response** seen in linitis plastica [1]. - They typically heal with treatment and are associated with typical ulcer symptoms, unlike the progressive nature of linitis plastica. *Plastic like lining of stomach* - While linitis plastica describes a **plastic-like appearance**, it is not classified as a mere lining change but rather a sign of underlying **malignancy** [1]. - This option misrepresents it as a benign condition rather than a serious **stomach adenocarcinoma**. *GIST* - Gastrointestinal stromal tumors (GIST) are **soft tissue tumors** of mesenchymal origin, differing fundamentally from the **invasive** characteristics of linitis plastica [2]. - GISTs typically present with **mass lesions** in the GI tract, not the diffuse rigidity seen in linitis plastica [1]. **References:** [1] Kumar V, Abbas AK, et al.. Robbins and Cotran Pathologic Basis of Disease. 9th ed. The Gastrointestinal Tract, pp. 779-780. [2] Kumar V, Abbas AK, et al.. Robbins and Cotran Pathologic Basis of Disease. 9th ed. The Gastrointestinal Tract, p. 779.
Question 17: Centrilobular necrosis of the liver may be seen with?
- A. Arsenic
- B. Ethanol
- C. CCl4 (Correct Answer)
- D. Phosphorus
Explanation: ***CCl4*** - **Carbon tetrachloride (CCl4)** is the **classic and prototypical** hepatotoxin that causes **centrilobular (zone 3) necrosis**. - The **centrilobular zone (zone 3)** is particularly vulnerable due to its high concentration of **cytochrome P450 enzymes**, which metabolize CCl4 into **toxic free radicals (trichloromethyl radicals)**. - This is the **most characteristic** cause of centrilobular necrosis in toxicology and is the preferred answer for exam purposes. *Ethanol* - **Ethanol** can also cause **centrilobular necrosis** in **alcoholic hepatitis**, as zone 3 is most susceptible to hypoxic injury and oxidative stress. - However, alcoholic liver disease presents with a **spectrum of changes** including steatosis (earliest), hepatitis with ballooning degeneration and Mallory-Denk bodies, and eventual cirrhosis. - While centrilobular necrosis occurs in alcoholic hepatitis, **CCl4 remains the prototype** for pure centrilobular necrosis in exam contexts. *Phosphorus* - **Elemental phosphorus** toxicity causes **periportal (zone 1) necrosis**, which is the opposite pattern from centrilobular necrosis. - It also causes widespread fatty change and hemorrhagic necrosis within the liver. *Arsenic* - **Arsenic poisoning** causes **diffuse/generalized hepatocellular necrosis** and cholestasis, rather than the specific centrilobular pattern. - Chronic exposure is associated with non-cirrhotic portal fibrosis and portal hypertension.
Question 18: Hurthle cell carcinoma is a variant of which type of carcinoma?
- A. Medullary carcinoma
- B. Papillary carcinoma
- C. Follicular carcinoma (Correct Answer)
- D. Anaplastic carcinoma
Explanation: **Follicular carcinoma** - **Hürthle cell carcinoma**, also known as **oxyphilic follicular carcinoma**, is a specific variant of **follicular carcinoma of the thyroid**. - It is characterized by the presence of large polygonal cells with abundant eosinophilic, granular cytoplasm known as **Hürthle cells** (or oxyphil cells) within the neoplastic growth. *Medullary carcinoma* - **Medullary carcinoma** originates from the **parafollicular C cells** of the thyroid, which produce calcitonin. - It is histologically distinct, featuring nests or cords of cells often associated with **amyloid deposits**, and is not related to Hürthle cell morphology. *Papillary carcinoma* - **Papillary carcinoma** is the most common type of thyroid cancer, characterized by distinctive **nuclear features** such as **Orphan Annie eye nuclei**, nuclear grooves, and intranuclear cytoplasmic inclusions. - Its histological origin and morphological appearance are different from Hürthle cell neoplasms, which are follicular in origin. *Anaplastic carcinoma* - **Anaplastic carcinoma** is a highly aggressive and undifferentiated thyroid malignancy with a very poor prognosis. - It is characterized by pleomorphic, giant, and spindle cells and lacks the specific differentiation seen in follicular or Hürthle cell tumors.
Question 19: Dystrophic calcification is seen in
- A. Vitamin A intoxication
- B. Atheromatous plaque (Correct Answer)
- C. Milk alkali syndrome
- D. Hyperparathyroidism
Explanation: ***Atheromatous plaque*** - Dystrophic calcification occurs in **local areas of tissue injury**, like atheromatous plaques, where necrotic debris provides a nidus for calcification [1]. - It's commonly observed in chronic **atherosclerosis**, leading to the deposition of calcium in the damaged arterial walls [1]. *Hyperparathyroidism* - Typically associated with **metastatic calcification** due to elevated calcium levels, not dystrophic calcification [2][3]. - It results in renal, pulmonary, or vascular calcifications rather than calcifications in previously damaged tissues [3]. *Milk alkali syndrome* - Involves **hypercalcemia** and can lead to calcifications, but they are primarily **metastatic** rather than dystrophic [2][3]. - The syndrome results from excess calcium intake and is associated with renal injury rather than tissue necrosis. *Vitamin A intoxication* - Can cause **hyperostosis** and **calcifications**, but these are diffuse and not primarily dystrophic in nature. - The calcifications in this condition do not stem from necrotic tissue but rather are due to toxicity effects on bone metabolism. **References:** [1] Kumar V, Abbas AK, et al.. Robbins and Cotran Pathologic Basis of Disease. 9th ed. Diseases of Infancy and Childhood, pp. 506-507. [2] Cross SS. Underwood's Pathology: A Clinical Approach. 6th ed. (Basic Pathology) introduces the student to key general principles of pathology, both as a medical science and as a clinical activity with a vital role in patient care. Part 2 (Disease Mechanisms) provides fundamental knowledge about the cellular and molecular processes involved in diseases, providing the rationale for their treatment. Part 3 (Systematic Pathology) deals in detail with specific diseases, with emphasis on the clinically important aspects., pp. 134-135. [3] Kumar V, Abbas AK, et al.. Robbins and Cotran Pathologic Basis of Disease. 9th ed. Cellular Responses to Stress and Toxic Insults: Adaptation, Injury, and Death, pp. 76-77.
Question 20: Peliosis hepatis is caused by all except?
- A. OC pills
- B. Danazol
- C. Anabolic steroids
- D. Analgesics (Correct Answer)
Explanation: ***Analgesics*** - While various drugs can cause liver injury, **analgesics** are not typically associated with the development of **peliosis hepatis**. [1] - **Peliosis hepatis** involves blood-filled cysts in the liver and is linked to specific agents, not common pain relievers. *Anabolic steroids* - **Anabolic steroids** are a well-known cause of **peliosis hepatis**, especially with prolonged high-dose use. - They can induce sinusoidal dilation and hemorrhage, leading to **blood-filled cysts** in the liver. *OC pills* - **Oral contraceptive pills** (OCPs) containing estrogen have been implicated in the development of **peliosis hepatis**, though it is rare. - The estrogen component is thought to affect the **vascular endothelium** and sinusoidal integrity of the liver. *Danazol* - **Danazol**, an attenuated androgen, is strongly associated with **peliosis hepatis** and other liver complications. - It can cause severe damage to the **hepatic sinusoids**, leading to the characteristic blood-filled cavities. **References:** [1] Kumar V, Abbas AK, et al.. Robbins and Cotran Pathologic Basis of Disease. 9th ed. Liver and Gallbladder, pp. 847-848.