Internal Medicine
7 questionsWhich one of the following is not an early complication of acute myocardial infarction?
In the context of chest pain evaluation, which is the best way to differentiate between stable angina and NSTEMI?
Murmur heard in aortic stenosis
Which of the following statements about atrial myxomas is correct?
Duroziez's sign is associated with which of the following conditions?
Becks triad is seen in
The severity of mitral stenosis can be judged by-
NEET-PG 2015 - Internal Medicine NEET-PG Practice Questions and MCQs
Question 761: Which one of the following is not an early complication of acute myocardial infarction?
- A. Pericarditis
- B. Papillary muscle dysfunction
- C. Ventricular septal defect
- D. Dressler's syndrome (Correct Answer)
Explanation: ***Dressler's syndrome*** - **Dressler's syndrome** (post-myocardial infarction syndrome) is a **late complication** of acute myocardial infarction, typically occurring weeks to months after the event. - It is an **immune-mediated pericarditis**, characterized by chest pain, fever, and pericardial effusion, but is not seen immediately following an MI. *Papillary muscle dysfunction* - **Papillary muscle dysfunction** or rupture can occur as an **early complication** due to ischemia and necrosis of the muscle, leading to **mitral regurgitation** [1]. - This usually manifests within hours to days of the infarct, especially in **inferior MIs** affecting the posterior papillary muscle. *Ventricular septal defect* - A **ventricular septal defect (VSD)** is an **early mechanical complication** resulting from necrosis and rupture of the interventricular septum. - It typically presents within the **first week** after an MI, causing a new **holosystolic murmur** and signs of heart failure. *Pericarditis* - **Early pericarditis** (within a few days of MI) results from inflammation overlying the necrotic myocardial tissue [1]. - It presents with **pleuritic chest pain** that improves with leaning forward and a **pericardial friction rub**, and is distinct from Dressler's syndrome.
Question 762: In the context of chest pain evaluation, which is the best way to differentiate between stable angina and NSTEMI?
- A. ECG
- B. Cardiac-biomarker (Correct Answer)
- C. Trans thoracic Echocardiography
- D. Multi uptake gated Acquisition scan
Explanation: **Cardiac-biomarker** - **Cardiac biomarkers**, particularly **troponin**, are crucial for differentiating between **unstable angina** and **NSTEMI** [1], [2]. In NSTEMI, there is evidence of **myocardial necrosis**, leading to elevated cardiac troponins [2]. - **Stable angina** and **unstable angina** do not involve myocardial necrosis, so troponin levels remain within the normal range [1]. *ECG* - While an **ECG** is essential in the initial assessment of chest pain, it may show **non-specific changes** in both **unstable angina** and **NSTEMI**, such as T-wave inversions or ST-segment depression [2]. - The definitive distinction of **NSTEMI** often relies on **sequential biomarker measurements**, as ECG changes alone may not be sufficient for diagnosis or differentiation from unstable angina [2]. *Trans thoracic Echocardiography* - **Echocardiography** can show **regional wall motion abnormalities** that might suggest ischemia, but these findings are not specific enough to differentiate between **stable angina** and **NSTEMI** immediately. - It is more useful for assessing **ventricular function**, identifying **valvular disease**, or detecting other causes of chest pain, rather than acute differentiation of coronary syndromes. *Multi uptake gated Acquisition scan* - A **MUGA scan** assesses **left ventricular ejection fraction** and wall motion, primarily used in evaluating global cardiac function and monitoring cardiotoxicity from chemotherapy. - It is **not a first-line diagnostic tool** for differentiating between acute coronary syndromes like **stable angina** and **NSTEMI** because it does not directly detect acute myocardial injury.
Question 763: Murmur heard in aortic stenosis
- A. Apex, low pitch murmur associated with mitral valve issues
- B. Pan-systolic murmur, high pitch murmur associated with mitral regurgitation
- C. Left Sternal area, murmur indicating mitral regurgitation
- D. Right 2nd intercostal, high pitch systolic ejection murmur (Correct Answer)
Explanation: ***Right 2nd intercostal, high pitch systolic ejection murmur*** - The murmur of **aortic stenosis** is classically heard loudest at the **right second intercostal space** (aortic area) due to turbulent flow through the stenosed aortic valve. - It is a **high-pitched, systolic ejection murmur** with a crescendo-decrescendo pattern, often radiating to the carotid arteries [2]. *Apex, low pitch murmur associated with mitral valve issues* - A murmur heard at the **apex** that is low-pitched typically suggests **mitral stenosis**, which is a diastolic rumble, not an aortic stenosis murmur [1]. - This option refers to characteristics associated with **mitral valve disease**, not aortic stenosis. *Pan-systolic murmur, high pitch murmur associated with mitral regurgitation* - A **pan-systolic murmur** is characteristic of conditions like **mitral regurgitation** or tricuspid regurgitation, where blood flows throughout the entire systole [3]. - While it can be high-pitched, its pan-systolic nature and association with mitral regurgitation make it distinct from aortic stenosis. *Left Sternal area, murmur indicating mitral regurgitation* - Murmurs heard primarily at the **left sternal area** can indicate various conditions, but this option specifically points to **mitral regurgitation**. - **Mitral regurgitation** is better heard at the apex and usually radiates to the axilla, and the description does not fit the typical presentation of aortic stenosis [3].
Question 764: Which of the following statements about atrial myxomas is correct?
- A. More prevalent in males.
- B. Most myxomas are hereditary.
- C. Most commonly found in the Left Atrium. (Correct Answer)
- D. Distant metastasis is commonly observed.
Explanation: ***Most commonly found in the Left Atrium.*** - **Atrial myxomas** are typically found in the **left atrium** (approximately 75-80% of cases), often attached to the **interatrial septum** near the fossa ovalis. - Their presence in the left atrium can lead to **obstruction of the mitral valve**, causing symptoms mimicking mitral stenosis [1]. *More prevalent in males.* - **Atrial myxomas** are more common in **females** than males, with a female-to-male ratio of approximately 2:1. - This higher prevalence in women is a consistent finding in epidemiological studies of cardiac myxomas [2]. *Most myxomas are hereditary.* - The vast majority of **atrial myxomas** are **sporadic** (non-hereditary), accounting for about 90-95% of cases. - A small percentage (5-10%) are part of a familial syndrome known as **Carney complex**, which is an autosomal dominant disorder. *Distant metastasis is commonly observed.* - **Atrial myxomas** are generally **benign tumors** and do not metastasize to distant sites. - While they can embolize fragments, leading to systemic effects, these are not true metastases.
Question 765: Duroziez's sign is associated with which of the following conditions?
- A. Aortic Regurgitation (Correct Answer)
- B. Pericardial effusion
- C. Tricuspid Regurgitation
- D. Mitral Stenosis
Explanation: ***Aortic Regurgitation*** - **Duroziez's sign** is a characteristic **systolic and diastolic bruit** heard over the femoral artery, indicative of significant **aortic regurgitation**. [1], [2] - This sign occurs due to the rapid antegrade and retrograde flow of blood during systole and diastole, respectively, caused by the incompetent aortic valve. [2] *Tricuspid Regurgitation* - **Tricuspid regurgitation** is primarily associated with **holosystolic murmur** best heard at the left lower sternal border, often increasing with inspiration (Carvallo's sign). - It does not produce arterial bruits like Duroziez's sign. *Pericardial effusion* - **Pericardial effusion** is characterized by the accumulation of fluid in the pericardial sac, which can lead to distant heart sounds, **pulsus paradoxus**, and electrical alternans on ECG. - It does not involve vascular bruits in peripheral arteries. *Mitral Stenosis* - **Mitral stenosis** classically presents with a **diastolic rumble** and an **opening snap**, typically heard at the apex. - It is a left-sided heart valve condition that does not cause peripheral arterial bruits.
Question 766: Becks triad is seen in
- A. Cardiac tamponade (Correct Answer)
- B. Restrictive cardiomyopathy
- C. Constrictive pericarditis
- D. None of the options
Explanation: ***Cardiac tamponade*** - **Beck's triad** is a set of three clinical signs associated with acute cardiac tamponade: **hypotension**, **jugular venous distension (JVD)**, and **muffled heart sounds**. [1] - These signs result from the accumulation of fluid in the pericardial sac, which compresses the heart and impairs its ability to fill. [1] *Constrictive pericarditis* - While it can manifest with JVD and signs of right heart failure, **muffled heart sounds** and acute **hypotension** as part of Beck's triad are not typical for its chronic nature. [2] - It involves a rigid, fibrotic pericardium that restricts diastolic filling, often with a **pericardial knock** rather than muffled sounds. [2] *Restrictive cardiomyopathy* - This condition involves impaired ventricular relaxation and filling, leading to signs of heart failure, including JVD. [3] - However, it does not typically present with the acute, severe **hypotension** or **muffled heart sounds** characteristic of cardiac tamponade. [3] *None of the options* - This option is incorrect as cardiac tamponade is the condition associated with Beck's triad.
Question 767: The severity of mitral stenosis can be judged by-
- A. Duration of murmur
- B. Intensity of murmur
- C. Presence of left ventricular S3
- D. Loud S1 (Correct Answer)
Explanation: ***Loud S1*** - A **loud S1** in mitral stenosis indicates that the **mitral valve leaflets are still mobile** and able to snap shut forcefully, which is characteristic of early to moderate stenosis [2]. - As mitral stenosis becomes more severe and the valve becomes calcified and rigid, the S1 sound may become diminished or even absent due to reduced leaflet mobility [1]. *Intensity of murmur* - The **intensity (loudness)** of the diastolic murmur in mitral stenosis **does not directly correlate with the severity** of the stenosis. - A loud murmur can be heard with mild stenosis, while a soft murmur in severe stenosis may be due to reduced cardiac output or left atrial pressure. *Duration of murmur* - While a **longer duration of the diastolic murmur** can coincide with more severe mitral stenosis, it is not as reliable a single indicator as other findings. - The duration is influenced by the pressure gradient across the valve and the length of diastole [2]. *Presence of left ventricular S3* - A **left ventricular S3** is typically associated with **left ventricular dysfunction** and volume overload, as seen in conditions like mitral regurgitation or dilated cardiomyopathy [3]. - It is **not a feature of mitral stenosis**, where the primary issue is obstruction to left ventricular filling.
Pathology
2 questionsMost common malignant tumor of the heart in adults
Aetiology of Dressler Syndrome is
NEET-PG 2015 - Pathology NEET-PG Practice Questions and MCQs
Question 761: 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.
Question 762: Aetiology of Dressler Syndrome is
- A. Autoimmune (Correct Answer)
- B. Toxin mediated
- C. Viral infection
- D. Idiopathic cause
Explanation: ***Autoimmune*** - Dressler syndrome is a form of **pericarditis** that occurs several days to weeks after myocardial injury (e.g., myocardial infarction, cardiac surgery, trauma). [3] - It is considered an **autoimmune phenomenon** where the body's immune system attacks damaged cardiac tissue. [1] *Viral infection* - While viral infections can cause general pericarditis, Dressler syndrome specifically refers to **post-cardiac injury** inflammation, not direct viral involvement. [2], [3] - Viral pericarditis typically has a more acute presentation without a preceding cardiac event. [2] *Toxin mediated* - There is no evidence to suggest that Dressler syndrome is caused by **toxins** or toxic substances. - The pathogenesis is linked to an immune response to damaged myocardial cells. *Idiopathic cause* - While some forms of pericarditis are idiopathic, Dressler syndrome has a clear **triggering event** (cardiac injury) and a well-understood autoimmune mechanism. [3] - Therefore, it is not classified as idiopathic. **References:** [1] Kumar V, Abbas AK, et al.. Robbins and Cotran Pathologic Basis of Disease. 9th ed. Diseases of the Immune System, pp. 214-215. [2] Kumar V, Abbas AK, et al.. Robbins and Cotran Pathologic Basis of Disease. 9th ed. The Heart, pp. 581-582. [3] Cross SS. Underwood's Pathology: A Clinical Approach. 6th ed. Common Clinical Problems From Cardiovascular Disease, pp. 297-298.
Pharmacology
1 questionsDigitalis is used in mitral stenosis to control the ventricular rate when the patient develops which condition?
NEET-PG 2015 - Pharmacology NEET-PG Practice Questions and MCQs
Question 761: Digitalis is used in mitral stenosis to control the ventricular rate when the patient develops which condition?
- A. Atrial fibrillation (Correct Answer)
- B. Right ventricular failure
- C. Acute pulmonary edema
- D. Myocarditis
Explanation: ***Atrial fibrillation*** - **Digitalis** (digoxin) is effective in **slowing the ventricular rate** in atrial fibrillation by increasing vagal tone and prolonging the refractory period of the AV node. - In **mitral stenosis**, an uncontrolled rapid ventricular rate due to atrial fibrillation can significantly reduce cardiac output and worsen symptoms. *Right ventricular failure* - While digitalis can improve contractility, its primary role in **RV failure** is not rate control; diuretics and afterload reduction are more commonly used. - A patient with isolated right ventricular failure due to mitral stenosis would not directly benefit from digitalis for rate control. *Acute pulmonary edema* - **Acute pulmonary edema** requires rapid diuresis, oxygen, and vasodilators to reduce preload and afterload. - Digitalis has a slower onset of action and is not the first-line treatment for acute pulmonary edema, especially if the cause is not related to a rapid ventricular rate. *Myocarditis* - **Myocarditis** is an inflammation of the heart muscle, and digitalis is generally avoided due to concerns about potentially worsening arrhythmias and myocardial damage in an inflamed heart. - Treatment for myocarditis focuses on supportive care and addressing the underlying cause, not rate control with digitalis unless specific arrhythmias develop.