Anesthesiology
1 questionsPeri-operative respiratory failure is an example of
UPSC-CMS 2025 - Anesthesiology UPSC-CMS Practice Questions and MCQs
Question 61: Peri-operative respiratory failure is an example of
- A. Type II respiratory failure
- B. Type III respiratory failure (Correct Answer)
- C. Type I respiratory failure
- D. Type IV respiratory failure
Explanation: ***Type III respiratory failure*** - This is often termed **peri-operative respiratory failure**, characterized by **atelectasis**, **reduced functional residual capacity**, and abnormal gas exchange post-surgery. - It results from the effects of anesthesia, surgery, and pain on respiratory mechanics, leading to **poor lung expansion** and hypoxemia. *Type II respiratory failure* - Characterized by **hypercapnia (high PCO2)** and **hypoxemia (low PO2)**, indicating inadequate alveolar ventilation. - Common causes include conditions like **COPD exacerbations** or **neuromuscular disorders** impacting the respiratory pump. *Type I respiratory failure* - Defined by **hypoxemia (low PO2)** with normal or low PCO2, indicating a primary problem with oxygenation. - Examples include **pulmonary edema** or **pneumonia**, where gas exchange is impaired at the alveolar-capillary membrane. *Type IV respiratory failure* - This categorization refers to **shock-related respiratory failure**, where inadequate oxygen delivery to respiratory muscles leads to their failure. - It is typically seen in states of **severe circulatory collapse**, such as septic or cardiogenic shock, and is not directly related to the peri-operative period in the way Type III is.
Internal Medicine
9 questionsWhich of the following statements are typical for classic heat stroke? I. Older patient II. Normokalemia III. Hyponatremia IV. Marked lactic acidosis Select the correct answer using the code given below :
Which of the following statements are correct regarding Weil's disease? I. It is caused by a virus named leptospira II. Acute kidney injury can lead to oliguria in this disease III. Microscopic agglutination is the investigation of choice IV. Ceftriaxone given parenterally is effective treatment Select the correct answer using the code given below :
Which of the following are components of SOFA scoring system? I. PaO_2 / FiO_2 ratio II. Mean arterial pressure III. Glasgow coma scale IV. Prothrombin Time with INR Select the correct answer using the code given below :
What are the components to establish the diagnosis of Brain Death? I. Absent brain stem reflexes II. Apnoea in presence of elevated PCO_2 III. Hypothermia IV. Irreversible and unresponsive coma Select the correct answer using the code given below :
The most common cause for nontraumatic sub-arachnoid haemorrhage is
The murmur of mitral regurgitation is best heard at
A 28 year female presented to emergency with fever, agitation and delirium. She was on regular medication of Carbimazole 40 mg daily, but missed her doses for the last 2 days. Which of the following scoring systems would you like to do to assess severity of disease?
Out of the following areas of brain, which area is most commonly affected on brain imaging in Wilson's disease?
Which of the following are secondary iron overload conditions? I. Transfusion related iron load II. Thalassemia III. Hepatitis C associated liver disease Select the correct answer using the code given below :
UPSC-CMS 2025 - Internal Medicine UPSC-CMS Practice Questions and MCQs
Question 61: Which of the following statements are typical for classic heat stroke? I. Older patient II. Normokalemia III. Hyponatremia IV. Marked lactic acidosis Select the correct answer using the code given below :
- A. I and III (Correct Answer)
- B. II and IV
- C. I and II
- D. III and IV
Explanation: ***I and III*** - **Older patients** are particularly susceptible to classic heat stroke due to impaired thermoregulation and reduced ability to acclimate to heat [1], [2]. - **Hyponatremia** can occur in classic heat stroke due to excessive fluid intake (often plain water) that dilutes serum sodium, or increased sodium loss through sweat. *II and IV* - **Normokalemia** is not typical in severe heat stroke, as **hyperkalemia** is more common due to **rhabdomyolysis** and **cellular damage**. - While metabolic acidosis is common, **marked lactic acidosis** is more characteristic of **exertional heat stroke** due to intense muscle activity, rather than classic heat stroke [1]. *I and II* - While **older patients** are a key risk factor for classic heat stroke [2], **normokalemia** is less typical, with **hyperkalemia** being a more frequent finding in severe cases. - **Normokalemia** would not adequately explain the electrolyte disturbances seen in severe heat stroke. *III and IV* - **Hyponatremia** is a common finding in classic heat stroke due to dilutional effects or sodium loss. - However, **marked lactic acidosis** is predominantly seen in **exertional heat stroke** rather than classic heat stroke, which is more associated with environmental heat exposure [1].
Question 62: Which of the following statements are correct regarding Weil's disease? I. It is caused by a virus named leptospira II. Acute kidney injury can lead to oliguria in this disease III. Microscopic agglutination is the investigation of choice IV. Ceftriaxone given parenterally is effective treatment Select the correct answer using the code given below :
- A. I, II and III
- B. II, III and IV (Correct Answer)
- C. I, III and IV
- D. I, II and IV
Explanation: ***II, III and IV*** - **Weil's disease**, a severe form of leptospirosis, frequently causes **acute kidney injury (AKI)**, which can manifest as **oliguria** due to renal tubular damage and interstitial nephritis [2]. - The **microscopic agglutination test (MAT)** is considered the gold standard for diagnosing leptospirosis due to its high specificity and sensitivity in detecting specific antibodies against *Leptospira* serovars [2]. - **Ceftriaxone** is an effective parenteral antibiotic for treating severe leptospirosis, including Weil's disease, particularly when oral antibiotics are insufficient or the patient is critically ill. *I, II and III* - Statement I is incorrect because Weil's disease is caused by a **spirochete bacterium**, *Leptospira interrogans*, not a virus [1]. - While statements II and III are correct regarding **AKI and oliguria** and the utility of **MAT**, the incorrectness of statement I makes this option wrong. *I, III and IV* - Statement I is incorrect as Weil's disease is caused by a **bacterium** (*Leptospira*), not a virus [1]. - While statements III and IV are correct, the presence of an incorrect statement (I) makes this composite option incorrect. *I, II and IV* - Statement I is factually incorrect; Weil's disease is caused by the **bacterium *Leptospira***, not a virus [1]. - Although statements II and IV are correct—**AKI with oliguria** is a feature and **ceftriaxone** is a treatment—the fundamental error in statement I invalidates this option.
Question 63: Which of the following are components of SOFA scoring system? I. PaO_2 / FiO_2 ratio II. Mean arterial pressure III. Glasgow coma scale IV. Prothrombin Time with INR Select the correct answer using the code given below :
- A. I, II and IV
- B. II, III and IV
- C. I, III and IV (Correct Answer)
- D. I, II and III
Explanation: ***I, III and IV*** - The **Sequential Organ Failure Assessment (SOFA) score** evaluates organ dysfunction based on six systems: respiration, coagulation, liver, cardiovascular, central nervous system, and renal. - **PaO2/FiO2 ratio** assesses respiratory function, **Glasgow Coma Scale (GCS)** assesses central nervous system function [1], [3], and **Prothrombin Time with INR** assesses coagulation function, all of which are included in the SOFA score calculation. *I, II and IV* - This option incorrectly includes **Mean Arterial Pressure** as a primary component for calculating the cardiovascular SOFA score, though it is indirectly considered when evaluating the use of vasopressors [2]. - The SOFA cardiovascular component primarily relies on **vasopressor dosage** required to maintain blood pressure, rather than absolute mean arterial pressure alone. *II, III and IV* - This option omits the **PaO2/FiO2 ratio**, which is a crucial parameter for assessing respiratory organ dysfunction within the SOFA scoring system. - It incorrectly focuses on **Mean Arterial Pressure** as a direct component instead of the vasopressor requirement. *I, II and III* - This choice omits **Prothrombin Time (PT) with INR**, which is a vital indicator for assessing the **coagulation system** within the SOFA score. - It incorrectly includes **Mean Arterial Pressure** as a direct, standalone component rather than vasopressor support for the cardiovascular system.
Question 64: What are the components to establish the diagnosis of Brain Death? I. Absent brain stem reflexes II. Apnoea in presence of elevated PCO_2 III. Hypothermia IV. Irreversible and unresponsive coma Select the correct answer using the code given below :
- A. II and IV only
- B. I, II and III
- C. I, III and IV
- D. I, II and IV (Correct Answer)
Explanation: ***I, II and IV*** - The diagnosis of **brain death** requires the demonstration of a complete and irreversible cessation of all brain and brainstem functions [2]. This includes **absent brainstem reflexes**, as the brainstem controls vital functions like breathing, pupil constriction, and gag reflex [3], [4]. - The **apnea test**, which involves demonstrating apnea in the presence of elevated PaCO2 (typically >60 mmHg or 20 mmHg above baseline), confirms irreversible loss of respiratory drive, a key brainstem function [4]. An **irreversible and unresponsive coma** signifies the complete loss of consciousness and cortical function [1]. *II and IV only* - This option is incomplete as it omits **absent brainstem reflexes**, which are crucial for the diagnosis of brain death and signify the loss of essential brainstem functions [3]. - While **apnea in the presence of elevated PaCO2** and **irreversible and unresponsive coma** are components, the absence of brainstem reflexes must also be confirmed [4]. *I, II and III* - This option incorrectly includes **hypothermia** as a diagnostic criterion for brain death. Hypothermia (<36°C) can mimic brain death by causing a reversible coma and suppressed brainstem reflexes, and thus must be excluded or corrected before brain death assessment [3]. - The diagnosis of brain death requires excluding conditions that can confound the clinical assessment, such as hypothermia or presence of central nervous system depressant drugs [3], [4]. *I, III and IV* - This option incorrectly includes **hypothermia** as a diagnostic criterion for brain death, which is a confounding factor that must be corrected before assessment [3]. - While **absent brainstem reflexes** and an **irreversible, unresponsive coma** are essential, the critical component of **apnea in the presence of elevated PaCO2** is missing, which is necessary to confirm the irreversible loss of respiratory drive [4].
Question 65: The most common cause for nontraumatic sub-arachnoid haemorrhage is
- A. A-V malformation
- B. Saccular aneurysm rupture (Correct Answer)
- C. Extension from primary intracerebral haemorrhage
- D. Idiopathic
Explanation: ***Saccular aneurysm rupture*** - **Saccular (berry) aneurysms** are the most common cause of non-traumatic subarachnoid hemorrhage (SAH), accounting for about 85% of cases [1]. - Rupture of these aneurysms, often located at arterial bifurcations in the **Circle of Willis**, leads to sudden bleeding into the subarachnoid space [1]. *A-V malformation* - **Arteriovenous malformations (AVMs)** are a less common cause of non-traumatic SAH compared to saccular aneurysms. - While AVM rupture can cause SAH, it is typically responsible for a smaller percentage of cases. *Extension from primary intracerebral haemorrhage* - While an **intracerebral hemorrhage** can extend into the subarachnoid space, causing secondary SAH, this is not considered the primary or most common cause of non-traumatic SAH itself [2]. - The initial event for most SAH cases directly involves subarachnoid bleeding, not delayed extension from within the brain parenchyma. *Idiopathic* - An **idiopathic** diagnosis means the cause is unknown, which is only assigned after all known causes, such as aneurysm rupture or AVM, have been ruled out. - Given the high prevalence of saccular aneurysm rupture as a cause, true idiopathic SAH is relatively rare.
Question 66: The murmur of mitral regurgitation is best heard at
- A. Tricuspid area
- B. Aortic area
- C. Cardiac apex (Correct Answer)
- D. Pulmonary area
Explanation: ***Cardiac apex*** - The **mitral valve** is located at the cardiac apex, and the murmur of **mitral regurgitation** is typically loudest at this point [1]. - Mitral regurgitation creates a **holosystolic murmur** that radiates to the axilla [1]. *Tricuspid area* - This area is located at the **lower left sternal border** and is where murmurs originating from the **tricuspid valve** are best heard, such as tricuspid regurgitation [2]. - Murmurs heard here are not characteristic of mitral valve dysfunction. *Aortic area* - The aortic area is at the **right upper sternal border**, primarily for auscultation of the **aortic valve**. - Conditions like **aortic stenosis** or **aortic regurgitation** are best heard here [3]. *Pulmonary area* - This area is located at the **left upper sternal border** and is where murmurs related to the **pulmonic valve** are best heard. - Examples include **pulmonic stenosis** or **pulmonic regurgitation**.
Question 67: A 28 year female presented to emergency with fever, agitation and delirium. She was on regular medication of Carbimazole 40 mg daily, but missed her doses for the last 2 days. Which of the following scoring systems would you like to do to assess severity of disease?
- A. Sequential Organ Failure Assessment Score
- B. DAS 28 score
- C. Burch-Wartofsky score (Correct Answer)
- D. Expanded Disability Status Scale
Explanation: ***Burch-Wartofsky score*** - The patient's symptoms of **fever, agitation, and delirium** following missed carbimazole doses are highly suggestive of **thyroid storm** [1]. - The **Burch-Wartofsky score** is specifically designed to assess the **likelihood and severity of thyroid storm**, evaluating symptoms related to thermoregulation, central nervous system, gastrointestinal/hepatic dysfunction, cardiovascular dysfunction, and precipitating factors. *Sequential Organ Failure Assessment Score* - The **SOFA score** is used to track the progression of organ dysfunction and predict mortality in critically ill patients, often in the context of **sepsis or general critical illness**. - While thyroid storm can lead to multi-organ dysfunction, the SOFA score does not specifically diagnose or assess the severity of **thyroid storm** itself. *DAS 28 score* - The **DAS28 (Disease Activity Score 28)** is a validated tool for measuring disease activity in patients with **rheumatoid arthritis**. - It assesses joint count, patient global assessment, and inflammatory markers, which are irrelevant to the clinical picture of **fever and delirium**. *Expanded Disability Status Scale* - The **Expanded Disability Status Scale (EDSS)** is a method of quantifying disability in **multiple sclerosis**. - It evaluates neurological function in various systems and is not applicable to an acute presentation of **fever, agitation, and delirium** [2].
Question 68: Out of the following areas of brain, which area is most commonly affected on brain imaging in Wilson's disease?
- A. Thalamus
- B. Sub-cortex
- C. Basal ganglia (Correct Answer)
- D. Cerebellum
Explanation: ***Basal ganglia*** - The **basal ganglia**, particularly the **putamen** and **globus pallidus**, are the most commonly affected brain regions due to their high susceptibility to **copper deposition** in Wilson's disease. - Imaging findings like **hyperintense lesions** on T2-weighted MRI in these areas are characteristic of neurodegeneration and edema caused by copper accumulation. *Thalamus* - While the **thalamus** can be affected in later stages of Wilson's disease, it is not typically the primary or most common site of involvement compared to the basal ganglia. - Thalamic lesions are usually seen in more advanced cases and may contribute to cognitive deficits and motor symptoms. *Sub-cortex* - The term **sub-cortex** refers to a broad region beneath the cerebral cortex, encompassing many structures, including the basal ganglia, thalamus, and white matter. - While structures within the sub-cortex are affected, "basal ganglia" is a more specific and accurate answer for the most commonly affected area. *Cerebellum* - **Cerebellar involvement** is less common than basal ganglia involvement in Wilson's disease, though it can occur in some patients. - When affected, it can lead to **ataxia** and coordination problems, but it is not the most consistently or severely damaged area.
Question 69: Which of the following are secondary iron overload conditions? I. Transfusion related iron load II. Thalassemia III. Hepatitis C associated liver disease Select the correct answer using the code given below :
- A. I and II only
- B. I and III only
- C. II and III only
- D. I, II and III (Correct Answer)
Explanation: ***I, II and III*** - All three listed conditions—**transfusion-related iron load**, **thalassemia**, and **Hepatitis C associated liver disease**—are well-recognized causes of secondary iron overload. - Secondary iron overload occurs due to external factors or underlying diseases that cause increased iron absorption or repeated administration of iron. [1] *I and II only* - This option is incomplete as **Hepatitis C associated liver disease** can also lead to secondary iron overload due to impaired iron metabolism and chronic inflammation. - It dismisses a known cause of secondary iron accumulation. *I and III only* - This option is incomplete because **thalassemia**, particularly **transfusion-dependent thalassemia**, is a classic example of secondary iron overload due to frequent blood transfusions and ineffective erythropoiesis. - It overlooks a major cause of transfusion-related iron accumulation. [1] *II and III only* - This option is incomplete as **transfusion-related iron load** is a direct and common cause of secondary iron overload, especially in patients requiring regular blood transfusions for conditions like anemia. [1] - It ignores the most direct mechanism of iron accumulation in many chronic diseases.