Internal Medicine
1 questionsIn a patient with heart disease, which condition is most commonly associated with left atrial enlargement?
NEET-PG 2013 - Internal Medicine NEET-PG Practice Questions and MCQs
Question 1311: In a patient with heart disease, which condition is most commonly associated with left atrial enlargement?
- A. Mitral stenosis (Correct Answer)
- B. Tricuspid regurgitation
- C. AR
- D. None of the options
Explanation: ***Mitral stenosis*** - **Mitral stenosis** leads to an obstruction of blood flow from the **left atrium to the left ventricle**, causing pressure buildup in the left atrium [1]. - This increased pressure over time results in **left atrial enlargement** as the chamber struggles to push blood through the narrowed valve [1]. *Tricuspid regurgitation* - **Tricuspid regurgitation** involves the backflow of blood from the **right ventricle to the right atrium**. - This condition primarily affects the **right side of the heart**, leading to **right atrial enlargement**, not left. *AR* - **Aortic regurgitation (AR)** is the backflow of blood from the **aorta into the left ventricle**. - While AR can cause **left ventricular enlargement** and eventually lead to left atrial dilation, it is not the most common direct cause of *primary* left atrial enlargement compared to mitral stenosis [2]. *None of the options* - **Mitral stenosis** is a well-established cause of significant left atrial enlargement due to the direct pressure overload it imposes on the left atrium [1].
Ophthalmology
1 questionsFluorescein angiography is used to examine -
NEET-PG 2013 - Ophthalmology NEET-PG Practice Questions and MCQs
Question 1311: Fluorescein angiography is used to examine -
- A. Ciliary vasculature
- B. Retinal vasculature (Correct Answer)
- C. Corneal vasculature
- D. Conjunctival vasculature
Explanation: ***Retinal vasculature*** - **Fluorescein angiography** involves injecting fluorescein dye into a vein and taking rapid photographs of the retina as the dye perfuses, allowing for detailed visualization of the **retinal blood vessels**. - This technique is crucial for diagnosing and monitoring conditions like **diabetic retinopathy**, **macular degeneration**, and **retinal vascular occlusions** by identifying leaks, non-perfusion areas, and abnormal vessel growth. *Ciliary vasculature* - The **ciliary body vasculature** is not directly visualized by standard fluorescein angiography as it is located anterior to the retina within the uveal tract. - While some dye may perfuse the ciliary body, the primary imaging target and diagnostic utility of fluorescein angiography are the **retinal and choroidal circulations**. *Corneal vasculature* - The normal **cornea is avascular**, meaning it does not contain blood vessels. - **Corneal neovascularization** (new vessel growth) can occur due to pathology, but fluorescein angiography is not the primary or most suitable technique for assessing corneal vessels, which are more readily visible with slit-lamp biomicroscopy. *Conjunctival vasculature* - The **conjunctiva** contains numerous small vessels, but these are superficial and can be directly observed with a slit lamp or even the naked eye. - Fluorescein angiography is an invasive procedure with a higher spatial resolution designed for deeper, more intricate vascular networks like those in the retina, making it overkill and inappropriate for routine assessment of the **conjunctival vasculature**.
Pathology
1 questionsCalcified pulmonary metastasis is seen in which carcinoma?
NEET-PG 2013 - Pathology NEET-PG Practice Questions and MCQs
Question 1311: Calcified pulmonary metastasis is seen in which carcinoma?
- A. Pancreatic carcinoma
- B. Thyroid carcinoma (Correct Answer)
- C. Endometrial carcinoma
- D. None of the options
Explanation: ***Thyroid carcinoma*** - **Papillary** and **medullary thyroid carcinomas** can produce **calcified pulmonary metastases**. - In **papillary thyroid cancer**, calcification occurs due to **psammoma bodies** (concentrically laminated calcified structures). - In **medullary thyroid cancer**, calcification can occur through **dystrophic calcification** within the tumor tissue. - Other common causes of calcified lung metastases include **osteosarcoma** and **chondrosarcoma**. *Pancreatic carcinoma* - Pancreatic carcinoma rarely causes **calcified pulmonary metastases**; metastatic lesions are typically **non-calcified**. - Metastases are more commonly found in the **liver** and **peritoneum**. - Primary pancreatic tumors may show calcification, but metastases usually do not. *Endometrial carcinoma* - Endometrial carcinoma metastases to the lungs are usually **non-calcified** and appear as **soft tissue nodules**. - While it can metastasize to the lungs, **calcification** is not a typical feature of its pulmonary spread. *None of the options* - This option is incorrect because **thyroid carcinoma** (particularly papillary type) is a well-recognized cause of **calcified pulmonary metastases**. - Among epithelial malignancies, thyroid carcinoma is one of the classic causes of this finding.
Radiology
7 questionsWhich view is best for visualizing the collapse of the middle lobe of the lung?
In a patient with high clinical suspicion of pulmonary thromboembolism, best investigation would be?
Air bronchogram on chest X-ray denotes -
Which of the following is NOT a typical differential diagnosis for a solitary pulmonary nodule?
What is the most common feature of sarcoidosis on chest X-ray?
Which of the following conditions is the MOST COMMON cause of rib notching?
For pericardial calcifications, which is the best investigation?
NEET-PG 2013 - Radiology NEET-PG Practice Questions and MCQs
Question 1311: Which view is best for visualizing the collapse of the middle lobe of the lung?
- A. Anteroposterior (AP)
- B. Oblique
- C. Lateral (Correct Answer)
- D. Lordotic
Explanation: ***Lateral*** - A **lateral chest X-ray** is crucial for localizing abnormalities to specific lung lobes because it allows for a clear visualization of the **fissures** which define the lung lobes. - Collapse of the right middle lobe is particularly well-visualized on a lateral view as a **triangular opacity** that points towards the hilum, often obliterating the right heart border. *Anteroposterior (AP)* - While an AP or PA view can show collapse, it often appears as a **non-specific wedge or triangular opacity** and struggles with precise lobar localization due to superimposed structures. - The **heart shadow and mediastinum** can obscure parts of the middle lobe, making definitive diagnosis challenging from this view alone. *Oblique* - Oblique views are typically used for specific purposes, such as evaluating the **pleura** or **ribs**, and are not a standard view for initial assessment of lobar collapse. - They introduce **distortion and superimposition** that can make the identification and characterization of lobar collapse more difficult than a standard lateral projection. *Lordotic* - A lordotic view is primarily used to visualize the **lung apices** and to differentiate apical lesions from superimposed clavicular shadows. - It is not effective for visualizing the middle lobe, which is located more inferiorly, and would introduce significant distortion, making assessment of its collapse unreliable.
Question 1312: In a patient with high clinical suspicion of pulmonary thromboembolism, best investigation would be?
- A. D-dimer
- B. CT angiography (Correct Answer)
- C. Catheter angiography
- D. Color Doppler
Explanation: ***CT angiography*** - In a patient with **high clinical suspicion** of pulmonary embolism (PE), CT angiography of the pulmonary arteries is the preferred and often definitive diagnostic test. - It allows for direct visualization of thrombi within the pulmonary arterial tree with high sensitivity and specificity. *D-dimer* - While useful for **ruling out PE** in patients with low or intermediate pre-test probability, a positive D-dimer is non-specific and requires further investigation in high-suspicion cases. - It has a high **negative predictive value** but a low positive predictive value, meaning a normal D-dimer makes PE unlikely, but an elevated one does not confirm it. *Catheter angiography* - This is an **invasive procedure** that is typically reserved for cases where CT angiography is inconclusive or contraindicated, or when interventional treatment is contemplated. - It carries risks such as **bleeding** and **contrast-induced nephropathy**, making it less appropriate as a first-line diagnostic in most situations. *Color Doppler* - Color Doppler ultrasound is primarily used to diagnose **deep vein thrombosis (DVT)** in the lower extremities, which is a common source of PE. - It is **not used to directly diagnose PE** in the pulmonary arteries; however, finding a DVT can support the diagnosis of PE indirectly.
Question 1313: Air bronchogram on chest X-ray denotes -
- A. Intrapulmonary lesion (Correct Answer)
- B. Extrapulmonary lesion
- C. Intrathoracic lesion
- D. Extrathoracic lesion
Explanation: ***Intrapulmonary lesion*** - An **air bronchogram** indicates that the air-filled bronchi are surrounded by consolidated or fluid-filled alveoli, making the bronchi visible against the opacified lung parenchyma. - This pattern is a strong sign of a process **within the lung tissue itself**, such as pneumonia, pulmonary edema, or malignancy. *Extrapulmonary lesion* - **Extrapulmonary lesions**, such as pleural effusions or masses originating from the chest wall, typically displace or compress the lung and bronchi, rather than filling the alveoli around them. - They usually do **not produce an air bronchogram** because the air in the bronchi is not juxtaposed against diseased lung parenchyma. *Intrathoracic lesion* - This is a broad term that includes all lesions within the thoracic cavity, both intrapulmonary and extrapulmonary. - While an air bronchogram is an intrathoracic finding, it specifically points to an **intrapulmonary process**, not just any intrathoracic lesion. *Extrathoracic lesion* - **Extrathoracic lesions** are located outside the chest cavity and would not manifest as an air bronchogram on a chest X-ray. - This option is **completely unrelated** to the interpretation of an air bronchogram.
Question 1314: Which of the following is NOT a typical differential diagnosis for a solitary pulmonary nodule?
- A. Tuberculoma
- B. Hamartoma
- C. Mycetoma (Correct Answer)
- D. Bronchogenic carcinoma
Explanation: ***Mycetoma*** - A mycetoma is a **fungal infection** that typically affects subcutaneous tissues, skin, and bone, forming granulomas and sinuses. It is not typically seen as a solitary pulmonary nodule. - While pulmonary fungal infections can occur, a mycetoma in the lung typically presents as a **fungus ball (aspergilloma)** within a pre-existing cavity, rather than a solitary, solid nodule. *Tuberculoma* - A tuberculoma is a **granuloma** caused by Mycobacterium tuberculosis, which can present as a well-defined, solitary pulmonary nodule or mass on imaging. - It represents a contained form of tuberculosis and is a common differential for a solitary pulmonary nodule, especially in endemic areas. *Hamartoma* - A hamartoma is a **benign tumor-like malformation** composed of normal tissues (like cartilage, fat, and muscle) that are disorganized. - It is one of the most common benign causes of a solitary pulmonary nodule. *Bronchogenic carcinoma* - Bronchogenic carcinoma, including adenocarcinoma, squamous cell carcinoma, and large cell carcinoma, is the most significant concern when evaluating a solitary pulmonary nodule. - It is a primary **malignant lung tumor** and represents a crucial differential diagnosis due to its poor prognosis if not detected and treated early.
Question 1315: What is the most common feature of sarcoidosis on chest X-ray?
- A. Bilateral hilar lymphadenopathy (Correct Answer)
- B. Cavitation
- C. Pleural effusion
- D. Reticular opacities
Explanation: ***Bilateral hilar lymphadenopathy*** - **Bilateral hilar lymphadenopathy** is the hallmark radiological feature of sarcoidosis, seen in over 75% of cases. - This finding, often symmetrical, represents the accumulation of **non-caseating granulomas** in the lymph nodes. - Classic presentation in **Stage I and Stage II** sarcoidosis. *Pleural effusion* - **Pleural effusions** are uncommon in sarcoidosis, occurring in less than 5% of cases. - When present, they are usually small and unilateral, and their presence should prompt consideration of alternative diagnoses. *Cavitation* - **Cavitation** is a rare manifestation of sarcoidosis and is more characteristic of infectious processes like **tuberculosis** or certain fungal infections. - If seen, it usually suggests severe parenchymal involvement or superimposed infection. *Reticular opacities* - While **reticular opacities** (interstitial changes) can be seen in later stages of sarcoidosis, representing **pulmonary fibrosis**, they are not the *most common* initial finding. - These opacities indicate chronic disease progression (Stage III/IV) rather than the initial presentation.
Question 1316: Which of the following conditions is the MOST COMMON cause of rib notching?
- A. Coarctation of aorta (Correct Answer)
- B. Atrial septal defect
- C. Chronic superior venacava obstruction
- D. Congenital interruption of aorta
Explanation: ***Coarctation of aorta*** - **Coarctation of the aorta** is the classic and **most common cause** of rib notching. - The notching is caused by the enlargement and tortuosity of the **intercostal arteries** as they provide collateral circulation to bypass the narrowed aorta. *Chronic superior venacava obstruction* - Chronic superior vena cava (SVC) obstruction may lead to the development of collateral circulation through the azygos and hemiazygos veins, but it does **not typically cause rib notching**. - Rib notching is specifically related to collateral flow bypassing an aortic obstruction, not a venous obstruction. *Atrial septal defect* - An **atrial septal defect (ASD)** is a communication between the atria that can lead to right heart volume overload and pulmonary hypertension. - While it's a congenital heart defect, an ASD does **not cause rib notching** as it does not involve an obstruction of systemic arterial flow requiring collateral circulation via the intercostal arteries. *Congenital interruption of aorta* - While **congenital interruption of the aorta** also involves an aortic obstruction, it is a **much rarer condition** than coarctation of the aorta. - Due to its rarity, it is not considered the most common cause of rib notching, even though it would theoretically lead to similar collateral vessel formation.
Question 1317: For pericardial calcifications, which is the best investigation?
- A. Ultrasound
- B. CT scan (Correct Answer)
- C. MRI
- D. Transesophageal echocardiography
Explanation: ***Correct: CT scan*** - **CT scans** are highly sensitive and specific for detecting **pericardial calcifications** due to their excellent spatial resolution and ability to measure calcium density (Hounsfield units). - They provide detailed anatomical information about the **pericardium** and can accurately map the extent, location, and thickness of calcified areas. - **CT is the gold standard** for detecting and quantifying pericardial calcification, particularly in constrictive pericarditis. *Incorrect: Ultrasound* - While ultrasound (echocardiography) can visualize the pericardium and may detect calcifications, its ability to definitively identify and characterize **calcifications** is limited compared to CT. - **Acoustic shadowing** from calcifications can obscure underlying structures, making a precise assessment challenging. - Useful for detecting pericardial effusion and thickening, but not optimal for calcification assessment. *Incorrect: MRI* - **MRI excels** in visualizing soft tissues, pericardial inflammation, and fluid collections, but it is **poor at detecting calcium**. - Calcifications typically appear as signal voids (black) on MRI, making it difficult to differentiate them from other structures, air, or motion artifacts. - MRI is valuable for assessing pericardial inflammation and constriction but not the preferred method for calcification. *Incorrect: Transesophageal echocardiography* - TEE offers high-resolution images of cardiac structures and is primarily used for assessing valve function, intracardiac masses, endocarditis, and aortic pathology. - Its utility in detecting and characterizing **pericardial calcifications** is limited compared to CT, especially for diffuse or subtle calcifications. - The pericardium is not optimally visualized with TEE compared to transthoracic echocardiography.