Peliosis hepatis is caused by all except?
In glomerulus subendothelial deposits are seen in?
In which condition are Michaelis Gutmann bodies typically seen?
Which of the following statements about Polycythemia vera is false?
Intracorpuscular hemolytic anemia is seen in ?
Which of the following statements is false regarding hereditary spherocytosis?
Centrilobular necrosis of the liver may be seen with?
Which is not a feature of paroxysmal nocturnal hemoglobinuria?
In which condition are Pseudo-Pelger-Huët cells typically seen?
Localized Langerhans cell histiocytosis affecting head and neck is?
NEET-PG 2013 - Pathology NEET-PG Practice Questions and MCQs
Question 11: 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.
Question 12: In glomerulus subendothelial deposits are seen in?
- A. Goodpasture syndrome (linear IgG deposits in the basement membrane)
- B. MPGN type I (subendothelial deposits) (Correct Answer)
- C. MPGN type II (intramembranous deposits)
- D. IgA nephropathy (mesangial IgA deposits)
Explanation: ***MPGN type I*** - **Subendothelial deposits** are a hallmark of MPGN type I, often associated with **immune complex deposition** [1]. - This condition can present with **hematuria**, **proteinuria**, and can be triggered by infections or autoimmune diseases [1]. *Good pasture syndrome* - Primarily involves **anti-GBM antibodies** leading to **glomerulonephritis** and pulmonary hemorrhage, not subendothelial deposits. - Typically, it presents with **crescent formation** in the glomeruli rather than deposits. *MPGN type II* - Characterized by **dense deposit disease**, it features **intramembranous** rather than subendothelial deposits [1]. - It is often associated with **C3 nephritic factor** and does not show classic subendothelial pathology. *IgA nephropathy* - Characterized by **IgA deposits** primarily in the **mesangium**, not subendothelially. - It presents with **hematuria** and recurrent episodes of **macrohematuria**, especially after infections. **References:** [1] Kumar V, Abbas AK, et al.. Robbins and Cotran Pathologic Basis of Disease. 9th ed. The Kidney, pp. 925-927.
Question 13: In which condition are Michaelis Gutmann bodies typically seen?
- A. Xanthogranulomatous
- B. Pyelonephritis
- C. Malakoplakia (Correct Answer)
- D. Nail patella syndrome
Explanation: ***Malakoplakia*** - **Michaelis-Gutmann bodies** are pathognomonic histological features of malakoplakia, representing calcified concretions containing **iron and calcium** within macrophages. - These are formed around **partially digested bacteria** within defective macrophages, appearing as basophilic inclusions with a "target-like" or "owl's eye" appearance. - Malakoplakia is a chronic granulomatous inflammatory condition most commonly affecting the **urinary tract** (bladder, kidney), but can occur in other organs. *Xanthogranulomatous* - This condition is characterized by an infiltrate of **lipid-laden macrophages** (xanthoma cells, foam cells) and occasional giant cells, but **not** Michaelis-Gutmann bodies. - It most commonly affects the kidney (**xanthogranulomatous pyelonephritis**) and is a destructive inflammatory process with a mass-like appearance. *Pyelonephritis* - Refers to **inflammation of the kidney and renal pelvis**, usually due to bacterial infection (commonly E. coli). - Histologically, it is characterized by acute or chronic inflammatory cells, neutrophil infiltration, and potential abscess formation, **without** Michaelis-Gutmann bodies. *Nail patella syndrome* - This is a **genetic disorder** (autosomal dominant) affecting primarily the **nails, bones** (absent/hypoplastic patella, elbow dysplasia), and sometimes the kidneys (glomerular disease). - It is associated with developmental abnormalities and has **no association** with Michaelis-Gutmann bodies or malakoplakia.
Question 14: Which of the following statements about Polycythemia vera is false?
- A. Increased LAP score (Correct Answer)
- B. Increased vitamin B12 levels
- C. Leukocytosis is present
- D. Increased platelet count
Explanation: ***Decrease LAP score*** - In polycythemia vera, the **LAP (leukocyte alkaline phosphatase) score** is typically increased, indicating more mature leukocytes. - A **decrease in LAP score** is not consistent with the disease, making this statement incorrect. *Increased platelets* - Polycythemia vera often results in **thrombocytosis**, characterized by increased platelet counts [1]. - This is a common feature of the disorder, reflecting overproduction of blood cells in the bone marrow. *Leucocytosis* - Patients with polycythemia vera frequently exhibit **leucocytosis**, or increased white blood cell counts, due to hypercellularity of the bone marrow [1]. - This is an important aspect of the disease, often seen alongside increases in red blood cells and platelets. *Increased vit B12* - An elevation in **vitamin B12** levels can occur in polycythemia vera, often due to increased binding proteins. - This is a well-recognized phenomenon associated with the increased cell turnover in this condition. **References:** [1] Kumar V, Abbas AK, et al.. Robbins and Cotran Pathologic Basis of Disease. 9th ed. Diseases of White Blood Cells, Lymph Nodes, Spleen, and Thymus, pp. 626-627.
Question 15: Intracorpuscular hemolytic anemia is seen in ?
- A. Thalassemia (Correct Answer)
- B. Infection
- C. Thrombotic thrombocytopenic purpura (TTP)
- D. Autoimmune hemolytic anemia
Explanation: ***Thalassemia*** - Thalassemia is characterized by **intracorpuscular hemolysis** due to defective hemoglobin synthesis, leading to premature destruction of red blood cells [1][2]. - It manifests as **microcytic anemia** with associated **extramedullary erythropoiesis** in severe cases [1]. *Autoimmune hemolytic anemia* - This condition leads to **extravascular hemolysis**, primarily affecting red blood cells in the spleen, not within the plasma [2]. - It is often associated with **positive direct Coombs test**, indicating reactants on the RBC surface. *TIP* - TIP (Thrombotic Microangiopathy) primarily involves **microangiopathic hemolytic anemia** and is not classified as intracorpuscular [2]. - The hemolysis in TIP occurs due to **microthrombi**, causing damage to red blood cells as they pass through narrowed vessels. *Infection* - Infections can lead to **hemolysis**, but this is typically **extravascular** due to splenic clearance or due to other mechanisms like **malaria** [2]. - The hemolytic mechanism is not intracorpuscular, as seen in conditions like thalassemia. **References:** [1] Cross SS. Underwood's Pathology: A Clinical Approach. 6th ed. Common Clinical Problems From Blood And Bone Marrow Disease, pp. 601-602. [2] Cross SS. Underwood's Pathology: A Clinical Approach. 6th ed. Common Clinical Problems From Blood And Bone Marrow Disease, pp. 596-597.
Question 16: Which of the following statements is false regarding hereditary spherocytosis?
- A. Defect in ankyrin
- B. Reticulocytosis
- C. Decreased MCHC (Correct Answer)
- D. Normal to increased MCV
Explanation: ***Decreased MCHC*** - Hereditary spherocytosis typically presents with an **increased MCHC** due to the spherocytes being more concentrated. - MCHC is a measure of the hemoglobin concentration in red blood cells, and in spherocytosis, this value is often elevated rather than decreased. *Defect in ankyrin* - This is a true statement; hereditary spherocytosis is associated with a defect in **ankyrin**, a protein that helps maintain the cell's membrane structure [2]. - Mutations in ankyrin lead to instability of the red blood cell membrane, resulting in spherocyte formation [2]. *Decreased MCV* - In hereditary spherocytosis, MCV is often **normal or slightly increased**, as it reflects the volume of red blood cells, which can be misinterpreted due to the presence of spherocytes. - Spherocytes are smaller cells, which can mistakenly suggest a falsely decreased MCV if not properly interpreted [1]. *Reticulocytosis* - This condition typically presents with **reticulocytosis** as a response to hemolysis, indicating the bone marrow is producing more red blood cells to compensate [1]. - The presence of reticulocytosis is a common finding in hereditary spherocytosis due to increased destruction of spherocytes. **References:** [1] Cross SS. Underwood's Pathology: A Clinical Approach. 6th ed. Common Clinical Problems From Blood And Bone Marrow Disease, pp. 597-598. [2] Kumar V, Abbas AK, et al.. Robbins and Cotran Pathologic Basis of Disease. 9th ed. Red Blood Cell and Bleeding Disorders, pp. 640-641.
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: Which is not a feature of paroxysmal nocturnal hemoglobinuria?
- A. Thrombocytopenia
- B. Hemolysis
- C. Increased LAP score (Correct Answer)
- D. Thrombosis
Explanation: ***Increased LAP score*** - In paroxysmal nocturnal hemoglobinuria, the **LAP score** is typically **low** due to ineffective hematopoiesis and not elevated. - The presence of a low LAP score is inconsistent with the features of this condition, making it the correct choice. *Thrombosis* - Paroxysmal nocturnal hemoglobinuria is **associated with a high risk of thrombosis**, particularly in the **venous system** [2]. - This is due to **increased platelet activation** and excessive thrombin generation resulting from hemolysis. *Hemolysis* - **Hemolysis** is a hallmark feature of paroxysmal nocturnal hemoglobinuria, where there is **destruction of red blood cells** [2,3]. - Patients often present with signs of hemolytic anemia including **elevated bilirubin** and **low haptoglobin** levels. *Thrombocytopenia* - **Thrombocytopenia** is a common finding in paroxysmal nocturnal hemoglobinuria due to **expanded consumption** of platelets during episodes of hemolysis. - This can lead to an **increased risk of bleeding** in affected patients. **References:** [1] Cross SS. Underwood's Pathology: A Clinical Approach. 6th ed. Common Clinical Problems From Blood And Bone Marrow Disease, pp. 601-602. [2] Kumar V, Abbas AK, et al.. Robbins and Cotran Pathologic Basis of Disease. 9th ed. Red Blood Cell and Bleeding Disorders, pp. 650-651.
Question 19: In which condition are Pseudo-Pelger-Huët cells typically seen?
- A. Hairy cell leukemia
- B. Multiple myeloma
- C. Hodgkin's lymphoma
- D. Myelodysplastic syndrome (Correct Answer)
Explanation: ***Mylodysplastic syndrome*** - Pseudo-Pelger-Huet cells are characteristic and often observed in myelodysplastic syndromes, indicating an ineffective hematopoiesis [1]. - These cells appear as **hyposegmented neutrophils** and are associated with dysplastic changes in the bone marrow [1]. *Hairy cell leukemia* - Typically presents with **hairy cells** in peripheral blood and often involves splenomegaly; pseudo-Pelger-Huet cells are not usual in this condition. - Associated with **PANCYTOPENIA** and reticulin fibrosis, differing from myelodysplastic syndrome. *Hodgkin's lymphoma* - Characterized by the presence of **Reed-Sternberg cells** and typically involves lymphadenopathy. - Peripheral blood findings generally do not include pseudo-Pelger-Huet cells; the focus is on lymphatic tissue. *Multiple myeloma* - Commonly presents with **plasma cells** and related symptoms like bone pain and renal failure, not associated with pseudo-Pelger-Huet cells. - It primarily causes an increase in monoclonal proteins rather than dysplastic changes seen in myelodysplastic syndrome. **References:** [1] Cross SS. Underwood's Pathology: A Clinical Approach. 6th ed. Common Clinical Problems From Blood And Bone Marrow Disease, pp. 613-614.
Question 20: Localized Langerhans cell histiocytosis affecting head and neck is?
- A. Eosinophilic granuloma (Correct Answer)
- B. Letterer-siwe disease
- C. Pulmonary Langerhans cell histiocytosis
- D. Hand-Schuller-Christian disease
Explanation: ***Eosinophilic granuloma*** - This is a localized form of **Langerhans cell histiocytosis** that typically presents in the head and neck region, often affecting areas like the skull and mandible [1]. - Characterized by **bone lesions** and may present with **pain or swelling** in the affected area, making it a prominent form in children and young adults. *Pulmonary langerhans cell histiocytosis* - Primarily affects the **lungs** and is associated with **cough, dyspnea**, and pulmonary nodules, not the head and neck region. - Occurs predominantly in **smokers** and involves interstitial lung disease patterns on imaging studies. *Hand-schuller-christian disease* - This condition is a systemic form of Langerhans cell histiocytosis that affects multiple systems rather than being localized, commonly presenting with **diabetes insipidus** and bone lesions. - It is often associated with **exophthalmos** and may involve lymphadenopathy, affecting older children and adults, not localized head and neck involvement. *Letterer-siwe disease* - This represents the acute, disseminated form of Langerhans cell histiocytosis, affecting infants, and is marked by systemic symptoms like **fever**, **rash**, and **hepatosplenomegaly** [1]. - Typically presents with serious manifestations and not specifically localized in the **head and neck area** as seen in eosinophilic granuloma. **References:** [1] Kumar V, Abbas AK, et al.. Robbins and Cotran Pathologic Basis of Disease. 9th ed. Diseases of White Blood Cells, Lymph Nodes, Spleen, and Thymus, p. 630.