Starry sky appearance is seen in which of the following?
What is the chromosomal translocation associated with Acute Myeloid Leukemia M3?
Helmet cells are characteristic of anemia of?
Which condition is characterized by spongiform degeneration of the cerebral cortex?
What is a Klatskin tumor?
Which of the following tumors is not derived from the meninges?
Lines of Zahn occur in -
What is the term for a localized malformation composed of an excessive but disorganized arrangement of cells and tissues indigenous to the site?
In which organ do atheromatous changes of blood vessels typically occur early in the disease process?
E-cadherin gene deficiency is associated with which type of cancer?
NEET-PG 2012 - Pathology NEET-PG Practice Questions and MCQs
Question 31: Starry sky appearance is seen in which of the following?
- A. Burkitt's Lymphoma (Correct Answer)
- B. Diffuse Large B Cell Lymphoma
- C. Anaplastic Large Cell Lymphoma (ALCL)
- D. Follicular Lymphoma
Explanation: ***Burkitts lymphoma*** - The **starry sky appearance** is a characteristic histopathological finding due to interspersed macrophages containing **phagocytosed apoptotic cells** and necrotic debris in Burkitt's lymphoma [1]. - It is associated with **MYC gene translocation** and presents typically in children or young adults, commonly affecting the **jaw or abdomen**. *CIL* - CIL (chronic inflammatory leukocytosis) does not exhibit a **starry sky appearance**; it typically reflects a reactive process without specific histological features. - The histology is more characterized by **increased white blood cell counts** rather than tissue architecture alterations seen in lymphomas. *Diffuse large B cell lymphoma* - While this lymphoma can show **varied morphology**, it does not have a **starry sky appearance** as a defining feature, rather presenting with **large atypical B-cells**. - The histological appearance is generally of a **diffuse infiltrate**, which lacks the classic starry sky histology. *ALCL* - Anaplastic large cell lymphoma (ALCL) is characterized by **large, pleomorphic cells** but does not show a starry sky appearance. - The histological pattern primarily focuses on **large anaplastic lymphoid cells** rather than the scattered macrophages seen in Burkitt's lymphoma. **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. 606.
Question 32: What is the chromosomal translocation associated with Acute Myeloid Leukemia M3?
- A. t(18;21)
- B. t(15;17) (Correct Answer)
- C. t(9;11)
- D. t(8;21)
Explanation: ***T (15,17)*** [1][2][3] - This translocation pertains to **Acute Promyelocytic Leukemia (APL)**, associated with the fusion gene **PML-RARA** [1][3]. - APL is characterized by **promyelocytes** with heavy granulation and a clinical presentation that includes coagulopathy [2][3]. *T (8, 21)* - This translocation is associated with **AML M2**, involving the **RUNX1-RUNX1T1** fusion gene [3]. - It does not correlate with the classic features of AML M3, which is specifically characterized by T (15,17). *T (9,11)* - Primarily seen in **AML M5**, this translocation is not related to the pathophysiology of AML M3. - The fusion commonly observed here is **MLL-AFF1**, which affects different types of leukemias, not APL. *T (18,21)* - This translocation does not have a significant association with any specific type of acute myeloid leukemia. - Unlike T (15,17), it is not linked to the classic features or unique clinical presentation seen in AML M3. **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. 620-621. [2] 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. 621-622. [3] 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. 620.
Question 33: Helmet cells are characteristic of anemia of?
- A. Hemolytic uremic syndrome (HUS) (Correct Answer)
- B. Disseminated intravascular coagulation (DIC)
- C. Thrombotic thrombocytopenic purpura (TTP)
- D. Autoimmune hemolytic anemia (AIHA)
Explanation: ***Hemolytic uremic syndrome*** - Helmet cells are **fragmented red blood cells** associated with **microangiopathic hemolytic anemia** [1], commonly seen in hemolytic uremic syndrome. - This condition frequently results in **thrombocytopenia** and acute renal failure. *Acanthocytosis* - Acanthocytosis is characterized by **spiky red blood cells** (acanthocytes) rather than helmet cells. - It is commonly associated with **liver disease** and **abetalipoproteinemia**, not hemolytic anemia. *Polysplenia* - Polysplenia is a condition involving multiple spleens but does not typically relate to the **formation of helmet cells**. - It may cause **asplenic complications**, but anemia characteristics do not include helmet cells. *Spherocytosis* - Spherocytosis involves the presence of **spherical red blood cells** rather than fragmented (helmet) cells. - It is associated with **hereditary conditions** like hereditary spherocytosis, which leads to increased hemolysis but not typically to helmet cells. **References:** [1] Cross SS. Underwood's Pathology: A Clinical Approach. 6th ed. Common Clinical Problems From Blood And Bone Marrow Disease, pp. 596-597.
Question 34: Which condition is characterized by spongiform degeneration of the cerebral cortex?
- A. Creutzfeldt-Jakob disease (Correct Answer)
- B. Subacute sclerosing panencephalitis
- C. Fatal familial insomnia
- D. Cerebral toxoplasmosis
Explanation: ***Creutzfeldt-Jakob disease*** - This is a **prion disease** characterized by rapid cognitive decline, myoclonus, and distinctive EEG changes, with **spongiform degeneration of the cerebral cortex** as the hallmark neuropathological feature [1]. - The spongiform changes are due to intracellular vacuoles within neurons and astrocytes, giving the brain tissue a **spongy appearance** [2]. - CJD shows **widespread cortical involvement**, making it the classic answer for cortical spongiform degeneration [2]. *Subacute sclerosing panencephalitis* - This condition is a rare, **chronic, progressive encephalitis** caused by persistent measles virus infection. - It is characterized by widespread **demyelination, gliosis, and intranuclear inclusion bodies**, but not spongiform degeneration. *Fatal familial insomnia* - This is another **prion disease** that also exhibits spongiform degeneration, but the key difference is **anatomical distribution** [2]. - FFI primarily affects the **thalamus** (a subcortical structure) and causes severe insomnia, dysautonomia, and motor signs [2]. - While spongiform changes occur in FFI, they are most prominent in the **thalamus rather than the cerebral cortex**, making CJD the better answer for cortical spongiform degeneration [2]. *Cerebral toxoplasmosis* - This is an **opportunistic infection of the brain** caused by **_Toxoplasma gondii_**, primarily seen in immunocompromised individuals. - It typically results in the formation of **abscesses or ring-enhancing lesions**, rather than spongiform degeneration. **References:** [1] Cross SS. Underwood's Pathology: A Clinical Approach. 6th ed. Common Clinical Manifestations Of Central And Peripheral Nervous System Disease, pp. 712-713. [2] Kumar V, Abbas AK, et al.. Robbins and Cotran Pathologic Basis of Disease. 9th ed. The Central Nervous System, pp. 1284-1286.
Question 35: What is a Klatskin tumor?
- A. Fibrolamellar hepatocellular carcinoma
- B. Gall bladder carcinoma
- C. Hepatocellular carcinoma
- D. Hilar cholangiocarcinoma (Correct Answer)
Explanation: ***Nodular type of cholangiocarcinoma*** - Klatskin tumors are a specific form of **cholangiocarcinoma** occurring at the junction of the left and right hepatic bile ducts [1]. - These tumors are characterized by **biliary obstruction** and often present with **jaundice** as a prominent clinical feature. *Fibrolamellar hepatocellular carcinoma* - This is a variant of **hepatocellular carcinoma** known for its fibrous stroma, distinct from Klatskin tumors which arise from bile ducts. - **Fibrolamellar** is more common in younger patients and typically does not cause **biliary obstruction** characteristic of Klatskin tumors. *Gall bladder carcinoma* - Gall bladder carcinoma originates from the **gallbladder epithelium**, not the bile ducts, differentiating it from Klatskin tumors. - It may present with symptoms such as **abdominal pain** and **weight loss**, rather than the specific obstructive jaundice seen in Klatskin cases. *Hepatocellular carcinoma* - This cancer arises directly from hepatocytes and is unrelated to bile duct tumors like Klatskin tumors. - Commonly linked to **chronic liver disease** and liver cirrhosis, it does not typically present with **obstructive jaundice** as seen in cholangiocarcinomas [1]. **References:** [1] Kumar V, Abbas AK, et al.. Robbins and Cotran Pathologic Basis of Disease. 9th ed. Liver and Gallbladder, pp. 880-881.
Question 36: Which of the following tumors is not derived from the meninges?
- A. Meningioma
- B. Hemangiopericytoma
- C. Schwannoma
- D. Hemangioblastoma (Correct Answer)
Explanation: ***Hemangioblastoma*** - This tumor is derived from **vascular endothelial cells and stromal cells**, not meningeal cells [1] - Typically found in the **cerebellum** and strongly associated with **von Hippel-Lindau disease** [1] - Has **no meningeal origin** and represents a distinct vascular neoplasm *Meningioma* - Derived from **arachnoidal cap cells** of the meninges [2] - Most common **benign primary intracranial tumor** arising from meningeal coverings [2] - Clearly of **meningeal origin** [3] *Schwannoma* - Originates from **Schwann cells** of peripheral nerve sheaths (neural crest origin) [4] - While not meningeal in origin, it commonly occurs **intracranially** affecting cranial nerves (especially CN VIII) [2] - Though also not meningeal, **hemangioblastoma is the better answer** as it's purely parenchymal/vascular, whereas schwannomas can have anatomic association with meninges [4] *Hemangiopericytoma* - Now classified as **solitary fibrous tumor/hemangiopericytoma** (WHO classification) - Arises from **meningeal pericytes** around blood vessels in the meninges - Despite mesenchymal origin, it is considered part of the **meningeal tumor spectrum** and has meningeal associations **References:** [1] Cross SS. Underwood's Pathology: A Clinical Approach. 6th ed. Common Clinical Manifestations Of Central And Peripheral Nervous System Disease, pp. 726-727. [2] Cross SS. Underwood's Pathology: A Clinical Approach. 6th ed. Common Clinical Manifestations Of Central And Peripheral Nervous System Disease, pp. 727-728. [3] Kumar V, Abbas AK, et al.. Robbins and Cotran Pathologic Basis of Disease. 9th ed. The Central Nervous System, pp. 1316-1317. [4] Kumar V, Abbas AK, et al.. Robbins and Cotran Pathologic Basis of Disease. 9th ed. Peripheral Nerves and Skeletal Muscles, pp. 1248-1249.
Question 37: Lines of Zahn occur in -
- A. Thrombus (Correct Answer)
- B. Embolus
- C. Infarct
- D. Postmortem clot
Explanation: ***Thrombus*** - **Lines of Zahn** are alternating layers of **platelets** (lighter bands) and **red blood cells** (darker bands) that are characteristic of a **thrombus** formed in flowing blood. - Their presence indicates that the clot was formed in a vessel where there was **blood flow** *Infarct* - An **infarct** is an area of **ischemic necrosis** caused by occlusion of either the arterial supply or venous drainage in a particular tissue. - While a thrombus can cause an infarct, an infarct itself does not contain Lines of Zahn; rather, it is the consequence of the thrombus. *Embolus* - An **embolus** is a detached intravascular solid, liquid, or gaseous mass that is carried by the blood to a site distant from its origin. - An embolus can be a fragment of a thrombus and therefore could contain Lines of Zahn, but the primary structure where these lines are formed is the stationary thrombus within a vessel. *Postmortem clot* - A **postmortem clot** forms after death and is typically gelatinous, poorly attached to the vessel wall, and has a dark red dependent portion (due to red cell settling) and a yellowish upper portion (like "chicken fat"). - It does not exhibit the layered architecture of platelets and red blood cells seen in **Lines of Zahn**, as there is no active blood flow or coagulation process at play.
Question 38: What is the term for a localized malformation composed of an excessive but disorganized arrangement of cells and tissues indigenous to the site?
- A. Hamartoma (Correct Answer)
- B. Malignant tumor
- C. Choristoma
- D. None of the options
Explanation: ***Hamartoma*** - A **hamartoma** is an overgrowth of cells and tissues that are normally found in the affected area, but in a disordered fashion, creating a tumor-like growth [1]. - It's a **benign (non-cancerous)** lesion, often congenital, that grows at the same rate as the surrounding tissues. *Malignant tumor* - A **malignant tumor** is characterized by uncontrolled cell growth that invades surrounding tissues and can metastasize to distant sites. - Unlike a hamartoma, a malignant tumor consists of **abnormal, dysplastic cells** that do not resemble the normal tissues of the organ. *Choristoma* - A choristoma is a **benign tumor-like growth** consisting of normal cells or tissues that are **heterotopic**, meaning they are located in an abnormal site. - An example is the presence of pancreatic tissue in the wall of the stomach, which is normal tissue in an abnormal location, unlike a hamartoma which has normal tissue in the correct location but in a disorganized manner. *None of the options* - This option is incorrect because **hamartoma** accurately describes the overgrowth of a skin structure at a localized region made of normal, but disorganized, tissue [1]. **References:** [1] Cross SS. Underwood's Pathology: A Clinical Approach. 6th ed. Disorders Involving Inflammatory And Haemopoietic Cells, pp. 651-652.
Question 39: In which organ do atheromatous changes of blood vessels typically occur early in the disease process?
- A. Kidney
- B. Heart (Correct Answer)
- C. Liver
- D. Spleen
Explanation: ***Heart*** - The **coronary arteries**, which supply the heart, are particularly susceptible to **atherosclerosis** due to high blood flow turbulence and shear stress [1]. - Early atheromatous changes often begin in these arteries, leading to conditions like **coronary artery disease (CAD)** [1]. *Kidney* - While the kidneys can be affected by **atherosclerosis** (renal artery stenosis), it typically occurs later in the disease process or in the presence of more widespread disease [1]. - The primary early site for systemic atherosclerosis is generally not the renal arteries. *Liver* - The liver is not a primary site for the development of **atherosclerosis** within its own blood vessels. - Liver disease can influence lipid metabolism, but directly developing atheroma within hepatic arteries is uncommon. *Spleen* - The spleen is rarely the primary or early site for **atheromatous changes**. - Its blood vessels are generally less prone to the turbulent flow and plaque formation seen in major arteries. **References:** [1] Kumar V, Abbas AK, et al.. Robbins and Cotran Pathologic Basis of Disease. 9th ed. Diseases of Infancy and Childhood, pp. 499-508.
Question 40: E-cadherin gene deficiency is associated with which type of cancer?
- A. Intestinal cancer
- B. Pancreatic cancer
- C. Thyroid cancer
- D. Gastric cancer (Correct Answer)
Explanation: **Correct: Gastric cancer** - **E-cadherin** is a crucial cell adhesion molecule, and its deficiency is strongly linked to **diffuse-type gastric cancer**. - Mutations in the **CDH1 gene**, which encodes E-cadherin, predispose individuals to **hereditary diffuse gastric cancer (HDGC)** due to loss of cell-cell adhesion. - This is a classic tumor suppressor gene, and germline mutations lead to an autosomal dominant cancer syndrome. *Incorrect: Intestinal cancer* - While E-cadherin plays a role in various epithelial cancers, its deficiency is not the primary driver or defining feature of intestinal cancer (colorectal cancer). - **Colorectal cancer** is more commonly associated with mutations in genes like **APC**, **KRAS**, **TP53**, and mismatch repair genes. *Incorrect: Thyroid cancer* - E-cadherin expression can be altered in thyroid cancers, but its deficiency is not the hallmark genetic event. - **Thyroid cancer** (especially papillary and follicular types) is more frequently linked to gene rearrangements (e.g., **RET/PTC**, **PAX8/PPARγ**) or point mutations (e.g., **BRAF**, **RAS**). *Incorrect: Pancreatic cancer* - Although E-cadherin can be down-regulated in pancreatic cancer, it is not the principal genetic deficiency. - **Pancreatic ductal adenocarcinoma** typically involves mutations in **KRAS**, **TP53**, **SMAD4**, and **CDKN2A**.