RD7.3 | Imaging in Internal Medicine — Practice Quiz

Correct. Non-contrast CT (NCCT) is the mandatory first-line study in suspected acute stroke. Its overriding purpose is to exclude haemorrhage, because thrombolysis given to a haemorrhagic stroke is catastrophic.

Every patient with suspected acute stroke gets an immediate non-contrast CT brain to exclude haemorrhage before any thrombolytic decision. CT cannot be withheld for a 'cleaner' study.

The first and time-critical question is haemorrhage or not. NCCT answers this immediately and governs whether thrombolysis can proceed; advanced vascular/perfusion imaging follows only after haemorrhage is excluded.

Correct. A hyperdense MCA represents acute intraluminal thrombus and may be the ONLY CT abnormality in the first 1–2 hours of a large MCA-territory stroke, when the brain parenchyma still looks normal.

The hyperdense MCA sign is acute intraluminal thrombus and is often the earliest (sometimes the only) CT finding in hyperacute large-vessel stroke.

The hyperdense MCA sign reflects fresh thrombus in the vessel lumen. Always check the Sylvian fissure for an asymmetrically dense artery — it can be the earliest and only clue to a large-vessel occlusion.

Correct. CTPA is the first-line definitive imaging study for PE in almost every patient. It directly demonstrates intraluminal filling defects and assesses clot burden and right-heart strain.

CTPA is the first-line definitive imaging test for suspected PE; V/Q scanning is the alternative when CTPA is contraindicated or to minimise radiation.

CTPA is first-line for confirming PE. V/Q is reserved for patients in whom CTPA is contraindicated (e.g. severe contrast allergy, renal impairment) or to reduce radiation, such as in pregnancy.

Correct. In pregnancy, V/Q scanning is a recognised alternative to CTPA, partly to reduce radiation dose to maternal breast tissue. Imaging must not be withheld when PE is suspected, as untreated PE is a leading cause of maternal death.

Pregnancy is a recognised situation in which V/Q scanning is chosen over CTPA to reduce radiation; definitive imaging is never withheld when PE is suspected.

Pregnancy is a key special situation where V/Q is considered as an alternative to CTPA to limit radiation, especially to breast tissue. PE must still be definitively investigated; D-dimer is unreliable and a chest X-ray cannot exclude PE.

Correct. The chest X-ray confirms heart failure (cardiomegaly with CTR >0.5 on a PA film, cephalisation, Kerley B lines). Echocardiography is the next step to measure ejection fraction, which distinguishes HFrEF from HFpEF and directs therapy.

CXR confirms congestion and cardiomegaly (CTR >0.5 on PA film); echocardiography then measures EF (HFrEF <40%) to classify heart failure and direct therapy.

The radiograph already establishes failure. The next study must answer 'what is the ejection fraction?' — echocardiography provides this and classifies the heart failure to guide long-term treatment.

Correct. The signs follow a staged sequence mapping onto rising capillary wedge pressure: cardiomegaly and upper-lobe diversion, then interstitial oedema (Kerley B lines), then alveolar (bat-wing) oedema and pleural effusions.

Radiographic heart-failure signs appear in a predictable order with rising pulmonary venous pressure: cardiomegaly/upper-lobe diversion → interstitial (Kerley B) oedema → alveolar (bat-wing) oedema and effusions.

Read the CXR as a pressure gauge: cardiomegaly and cephalisation appear first, then interstitial (Kerley B) changes, and finally alveolar bat-wing oedema with effusions as pressure rises further.

Correct. Ultrasound is first-line for diffuse liver disease. Fatty liver shows increased echogenicity, classically seen as loss of the normal hepatorenal contrast — the liver becomes brighter than the adjacent right renal cortex.

Ultrasound is first-line for diffuse liver disease; fatty liver shows increased echogenicity (loss of hepatorenal contrast — liver brighter than right renal cortex).

Ultrasound is the first-line modality. Fatty infiltration increases echogenicity, making the liver brighter than the right kidney (loss of hepatorenal echo contrast). Arterial hyperenhancement with washout is the CT/MRI signature of HCC, not steatosis.

Correct. The classic imaging signature of HCC on multiphasic CT/MRI is arterial-phase hyperenhancement followed by washout in the portal venous/delayed phase, reflecting its predominant arterial blood supply.

HCC on multiphasic CT/MRI shows arterial-phase hyperenhancement with portal venous/delayed-phase washout; surveillance in cirrhosis uses 6-monthly USG ± AFP.

HCC characteristically shows arterial hyperenhancement (it is fed mainly by the hepatic artery) with subsequent washout on portal venous/delayed phases. Progressive peripheral nodular fill-in describes a haemangioma; absent enhancement with water density describes a simple cyst.