Which is a hormone dependent liver tumor?
Which type of anemia is most commonly characterized by marked poikilocytosis and anisocytosis on peripheral blood smear?
The Ham test is specifically used for diagnosing paroxysmal nocturnal hemoglobinuria (PNH) and is based upon:
The tissue of origin of the Kaposi's sarcoma is
What is the key pathophysiological difference between acid and alkali injuries in terms of tissue necrosis?
Which tumor is characterized by the presence of cells that resemble tennis rackets?
Which viral proteins are known to act as carcinogens in causing carcinoma cervix?
What is the Rose Waaler test used for?
Indirect Coombs test detects:
Most common malignant tumor of the heart in adults
NEET-PG 2015 - Pathology NEET-PG Practice Questions and MCQs
Question 61: Which is a hormone dependent liver tumor?
- A. Adenoma (Correct Answer)
- B. Hemangioma
- C. Hepatocellular carcinoma
- D. Hemangiopericytoma
Explanation: ***Adenoma*** - Hepatic adenomas are **hormone-dependent tumors** commonly associated with conditions like **oral contraceptive use** and are influenced by estrogen [1]. - These tumors can present as **benign liver masses**, but they have a risk of hemorrhage and malignant transformation [1]. *Hepatocellular carcinoma* - This is a **malignant tumor** of the liver primarily associated with cirrhosis and chronic liver disease, not directly hormone-dependent. - Risk factors include **viral hepatitis** and **alcohol exposure**, rather than hormonal influences. *Hemangioma* - Liver hemangiomas are **vascular lesions** that are usually asymptomatic and are **not hormone-dependent**. - They are the most common benign liver tumors, often discovered incidentally during imaging. *Hemangiopericytoma* - A rare tumor, hemangiopericytoma originates from **pericytes** around blood vessels and is not specifically associated with liver tissue or hormones. - It can arise in various organs but lacks the dependency on hormones seen in hepatic adenomas. **References:** [1] Kumar V, Abbas AK, et al.. Robbins and Cotran Pathologic Basis of Disease. 9th ed. Liver and Gallbladder, p. 874.
Question 62: Which type of anemia is most commonly characterized by marked poikilocytosis and anisocytosis on peripheral blood smear?
- A. Megaloblastic anemia
- B. Iron deficiency anemia (Correct Answer)
- C. Nutritional anemia
- D. Thalassemia
Explanation: ***Iron deficiency anaemia*** - Characterized by **poikilocytosis** (abnormal shapes) and **anisocytosis** (variation in red blood cell sizes), which are common findings in iron deficiency [1]. - Typically results in **microcytic hypochromic anemia** [1], distinguishing it from other types of anemia. *Nutritional deficiency anaemia* - May present with various blood cell morphology but does not specifically exhibit **poikilocytosis** and **anisocytosis** characteristic of iron deficiency anemia. - Usually includes deficiencies like **vitamin B12** or **folate**, which result in **macrocytic anemia** instead. *Megaloblastic anaemia* - Primarily caused by deficiency of **vitamin B12** or **folate**, leading to large, immature red blood cells (megaloblasts) rather than varied shapes and sizes. - Associated with **hypersegmented neutrophils** in the blood smear, which differentiates it from iron deficiency anemia. *Thalassemia* - Characterized by **microcytic hypochromic red blood cells** and often involves **target cells** rather than generalized poikilocytosis and anisocytosis. - Typically presents with **hemolytic anemia** but does not show the same variability in cell shapes and sizes as seen in iron deficiency anemia. **References:** [1] Cross SS. Underwood's Pathology: A Clinical Approach. 6th ed. Common Clinical Problems From Blood And Bone Marrow Disease, pp. 590-591.
Question 63: The Ham test is specifically used for diagnosing paroxysmal nocturnal hemoglobinuria (PNH) and is based upon:
- A. GPI Anchor Proteins
- B. Complement (Correct Answer)
- C. Spectrin protein
- D. Mannose binding proteins
Explanation: ***Complement*** - The HAM test is based on the activation of the **complement system** which enhances the opsonization and clearance of immune complexes [1]. - It is used in the diagnosis of certain conditions, notably those associated with **hemolytic anemia** due to complement fixation. *GPI Anchor Proteins* - GPI anchor proteins are involved in anchoring proteins to cell membranes but are **not related to the HAM test**. - This oes not explain the **mechanism** or purpose of the HAM test. *Mannose binding proteins* - Mannose binding lectins play a role in **innate immunity** but are not the basis of the HAM test. - They function in the **opsonization of pathogens**, which is unrelated to the complement activation aspect of the HAM test. *Spectrin protein* - Spectrin is a cytoskeletal protein that contributes to the integrity of cell membranes, particularly in red blood cells. - It does not relate to the **mechanism of the HAM test**, which focuses on complement involvement. **References:** [1] Kumar V, Abbas AK, et al.. Robbins and Cotran Pathologic Basis of Disease. 9th ed. Inflammation and Repair, pp. 99-100.
Question 64: The tissue of origin of the Kaposi's sarcoma is
- A. Lymphoid
- B. Vascular (Correct Answer)
- C. Neural
- D. Muscular
Explanation: ***Vascular*** - Kaposi's sarcoma originates from the **vascular tissue**, specifically from endothelial cells lining blood vessels [2]. - The lesions are characterized by **angiogenesis**, leading to the formation of vascular tumors with dilated endothelial cell-lined vascular spaces [1]. *Muscular* - Muscular tissue is involved in **voluntary** and **involuntary movements** but is not related to the etiology of Kaposi's sarcoma. - This condition does not arise from **muscle cells** or any muscular components. *Neural* - Neural tissue consists of **neurons** and **glial cells**, which are not implicated in Kaposi's sarcoma. - Kaposi's sarcoma does not originate from any **neural structures** or pathologies. *Lymphoid* - Lymphoid tissue primarily concerns the immune system, particularly the **lymphatic system**, and does not give rise to Kaposi's sarcoma. - This malignancy does not derive from **lymphoid components** like lymphocytes or lymph nodes. **References:** [1] Kumar V, Abbas AK, et al.. Robbins and Cotran Pathologic Basis of Disease. 9th ed. Diseases of Infancy and Childhood, pp. 526-527. [2] Cross SS. Underwood's Pathology: A Clinical Approach. 6th ed. Common Clinical Problems From Cardiovascular Disease, pp. 282-283.
Question 65: What is the key pathophysiological difference between acid and alkali injuries in terms of tissue necrosis?
- A. Acid injuries cause coagulative necrosis
- B. Alkali injuries lead to deeper tissue damage
- C. Acid injuries are less severe than alkali injuries
- D. Alkali injuries cause liquefactive necrosis (Correct Answer)
Explanation: ***Alkali injuries cause liquefactive necrosis*** - **Alkali burns** result in **liquefaction necrosis**, which involves the dissolution of tissue and cells, leading to a much deeper and progressive injury as the alkali penetrates further into tissues. - This is the **key pathophysiological difference** that distinguishes alkali from acid injuries - the TYPE of necrosis (liquefactive vs coagulative). - This type of necrosis allows the alkali to continue damaging underlying tissues and can lead to more extensive and severe scarring and complications. *Acid injuries cause coagulative necrosis* - While this statement is **medically true**, it only describes what acids do without explicitly stating the **difference** or comparison with alkali injuries. - The question asks for the KEY **difference**, and this option presents only one half of the comparison. - **Acid burns** typically cause **coagulation necrosis**, forming a coagulum or eschar that precipitates proteins and creates a barrier, thereby limiting the depth of penetration. - The correct answer (alkali → liquefactive necrosis) better captures the distinguishing pathophysiological feature. *Alkali injuries lead to deeper tissue damage* - This statement is true but serves as a **consequence** of the underlying **liquefactive necrosis** rather than the primary pathophysiological mechanism itself. - The liquefaction process continuously destroys cells and extracellular matrix, enabling the caustic agent to propagate deeply into the tissue. - This describes the OUTCOME rather than the KEY pathophysiological mechanism. *Acid injuries are less severe than alkali injuries* - This is a **generalization about severity** rather than identifying the specific pathophysiological mechanism of tissue death. - While generally true due to the **coagulation necrosis** limiting the depth of penetration of acids, severity can vary based on concentration, duration of exposure, and other factors. - The formation of a protective eschar in acid burns often prevents further significant tissue destruction, unlike the progressive damage seen in alkali burns.
Question 66: Which tumor is characterized by the presence of cells that resemble tennis rackets?
- A. Seminoma
- B. Vaginal adenocarcinoma
- C. Langerhans cell histiocytosis (Correct Answer)
- D. Sarcoma botyroides
Explanation: ***Langerhans cell histiocytosis*** - This condition is characterized by **Birbeck granules** within the Langerhans cells, which have a distinctive **tennis racket-like appearance** on electron microscopy. - The cells are also positive for **CD1a** and **S-100** immunohistochemical markers. *Sarcoma botyroides* - This is a subtype of **embryonal rhabdomyosarcoma** typically found in mucosal sites, presenting as a polypoid, grape-like mass. - Its histology shows small, undifferentiated cells with primitive skeletal muscle differentiation, but **not tennis racket-shaped cells**. *Vaginal adenocarcinoma* - This is a rare malignancy of the vagina, often associated with **diethylstilbestrol (DES) exposure** in utero, presenting as glands. - The cells show glandular differentiation and produce mucin, but **lack Birbeck granules**. *Seminoma* - This is a germ cell tumor of the testis characterized by large, uniform cells with clear cytoplasm and prominent nucleoli, divided into lobules by fibrous septa containing lymphocytes. - There are **no tennis racket-shaped cells** or Birbeck granules associated with seminoma.
Question 67: Which viral proteins are known to act as carcinogens in causing carcinoma cervix?
- A. P 24 - gene
- B. E - gene (Correct Answer)
- C. L - gene
- D. H - gene
Explanation: ***E - gene*** - The **E - gene** in human papillomavirus (HPV) is known to play a crucial role in the **transformation of cervical cells**, leading to cancer development [1]. - Specifically, the **E6 and E7 proteins** encoded by this gene interfere with tumor suppressor functions, contributing to cervical carcinoma [1,2]. *L - gene* - The **L - gene** is associated with the virus's structural proteins, primarily aiding in the formation of the viral capsid. - It does not have a direct role in the oncogenic process leading to cervical cancer. *H - gene* - The **H - gene** is not specifically linked to the oncogenic effects of HPV; it is not recognized for contributing to cancer development. - It is often confused in discussions but doesn't directly influence the carcinogenic pathway like the E gene does. *P 24 - gene* - The **P 24 - gene** is not related to HPV; instead, it is associated with **HIV** and its structural components. - This gene does not play any role in the development of cervical carcinoma or transformation of cervical cells. **References:** [1] Kumar V, Abbas AK, et al.. Robbins and Cotran Pathologic Basis of Disease. 9th ed. The Female Genital Tract, pp. 1006-1007. [2] Kumar V, Abbas AK, et al.. Robbins and Cotran Pathologic Basis of Disease. 9th ed. Neoplasia, pp. 334-335.
Question 68: What is the Rose Waaler test used for?
- A. Ring precipitation
- B. Precipitation in gel
- C. Complement fixation test
- D. Passive hemagglutination test (Correct Answer)
Explanation: ***Passive hemagglutination test*** - The **Rose Waaler test** is a historical **rheumatoid factor (RF)** detection method based on **passive hemagglutination**. - It uses sheep red blood cells coated with a subagglutinating dose of rabbit anti-sheep red blood cell antibody to detect RF in patient serum. *Complement fixation test* - This assay detects the presence of **antibody** or **antigen** by observing whether **complement** is consumed in an antigen-antibody reaction. - The Rose Waaler test does not involve the measurement of complement consumption. *Precipitation in gel* - This technique, such as **immunodiffusion**, involves the formation of a visible **precipitate** when soluble antigens and antibodies diffuse through a gel matrix and meet at optimal concentrations. - The Rose Waaler test relies on agglutination of red blood cells, not precipitation in gel. *Ring precipitation* - A **ring precipitation test** involves layering an antigen solution over an antibody solution, creating an antigen-antibody complex visible as a **precipitate ring** at the interface of the two solutions. - This method is distinct from the Rose Waaler test which uses red blood cell agglutination.
Question 69: Indirect Coombs test detects:
- A. Antibodies in the serum (Correct Answer)
- B. Antibodies bound to RBC Surface
- C. Antigens bound to RBC Surface
- D. Antigens in the plasma
Explanation: ***Antibodies in the serum*** - The **indirect Coomb's test** is designed to detect the presence of **antibodies** against red blood cells (RBCs in the serum) before transfusion or during pregnancy [1]. - It is crucial in identifying **hemolytic disease of the newborn** (HDN) and ensuring safe blood transfusions [1]. *Antibodies attached to RBC Surface* - This scenario describes the **direct Coomb's test**, which identifies antibodies that are already bound to **RBCs**. - Direct testing assesses conditions like **autoimmune hemolytic anemia**, not the serum. *Antigens attached to RBC Surface* - This option suggests evaluating **antigens** present on the surface of RBCs, which is not the purpose of the indirect Coomb's test. - Antigens are important in blood typing and compatibility assessments, but this test focuses on antibodies. *Antigens in the serum* - Indirect Coomb's does not detect **antigens** but rather the **antibodies** related to those antigens. - Additionally, serum testing for antigens is not a standard procedure for assessing transfusion compatibility. **References:** [1] Cross SS. Underwood's Pathology: A Clinical Approach. 6th ed. Common Clinical Problems From Blood And Bone Marrow Disease, pp. 627-628.
Question 70: Most common malignant tumor of the heart in adults
- A. Cardiac Sarcoma (Correct Answer)
- B. Paraganglioma
- C. Rhabdomyoma
- D. Lipoma
Explanation: ***Cardiac Sarcoma*** - **Cardiac sarcomas** are the most common type of **primary malignant tumor** of the heart in adults, accounting for about 95% of primary malignant cardiac tumors. - **Angiosarcoma** is the most common subtype (approximately 33-50% of all cardiac sarcomas), typically originating from the **right atrium**. - These tumors are highly aggressive with rapid growth, early metastasis, and poor prognosis. - They commonly present with right-sided heart failure, pericardial effusion, or constitutional symptoms. *Rhabdomyoma* - **Rhabdomyomas** are the most common **primary cardiac tumors in infants and children** (60-80% of pediatric cardiac tumors), not adults. - These tumors are **benign** and strongly associated with tuberous sclerosis. - They often spontaneously regress after birth. *Lipoma* - **Lipomas** are **benign tumors** composed of mature adipocytes and account for about 10% of benign cardiac tumors. - They are typically asymptomatic and found incidentally. - They are not malignant and therefore not relevant to this question about malignant tumors. *Paraganglioma* - **Paragangliomas** (pheochromocytomas of the heart) are rare neuroendocrine tumors. - They are typically **benign** (though can be locally invasive) and may be hormonally active, causing catecholamine-related symptoms. - They represent less than 1% of cardiac tumors and are not the most common malignant cardiac tumor.