Simple: Color Edition
3rd Edition
Author(s)Aaron Berkowitz MD PhD
TEST BANK
1
Reference: Ch. 1 — The Cardiovascular System: Heart Failure —
Left Heart Failure
Question Stem: A 72-year-old man with chronic ischemic
cardiomyopathy is admitted with worsening dyspnea,
orthopnea needing three pillows, and pink frothy sputum.
Which assessment finding should the nurse expect as the most
immediate sign of left-sided heart failure causing pulmonary
edema?
A. Distended neck veins and hepatomegaly
B. Bibasilar crackles and hypoxemia on pulse oximetry
C. Dependent pitting edema in the lower extremities
D. Elevated jugular venous pressure with clear lung fields
Correct Answer: B
,Rationale — Correct: Left-sided heart failure causes elevated
left atrial and pulmonary venous pressures producing
pulmonary interstitial/alveolar edema; bibasilar crackles and
hypoxemia are immediate clinical signs of pulmonary fluid
accumulation. (Berkowitz explains pulmonary congestion as the
hallmark of left HF.)
Rationale — Incorrect:
A. Distended neck veins and hepatomegaly are signs of right-
sided failure or chronic systemic venous congestion.
C. Dependent peripheral edema is more pronounced in right-
sided or chronic biventricular failure, not the earliest sign of
acute left-sided pulmonary edema.
D. Elevated JVP with clear lungs would point away from left-
sided pulmonary congestion; JVP elevation suggests right-sided
or pericardial problems.
Teaching Point: Left heart failure → pulmonary venous
congestion → crackles, hypoxemia, orthopnea.
Citation: Berkowitz, 2023, Ch. 1: The Cardiovascular System —
Heart Failure (Left).
2
Reference: Ch. 1 — Preload, Afterload, and Treatment of Heart
Failure
Question Stem: A patient with chronic heart failure receives IV
furosemide. Which pathophysiologic effect produced by
diuresis most directly reduces left ventricular preload and
,improves pulmonary symptoms?
A. Decreased systemic vascular resistance lowering afterload
B. Reduced circulating blood volume lowering venous return
C. Increased myocardial contractility via inotropy
D. Improved heart rate control reducing myocardial oxygen
demand
Correct Answer: B
Rationale — Correct: Diuretics reduce intravascular volume,
which lowers venous return (preload). Lower preload decreases
pulmonary capillary hydrostatic pressure and alleviates
pulmonary congestion. (Berkowitz emphasizes preload
reduction as the mechanism by which diuretics relieve
congestive symptoms.)
Rationale — Incorrect:
A. Decreasing systemic vascular resistance lowers afterload,
which is more the effect of vasodilators, not diuretics.
C. Diuretics do not directly increase myocardial contractility;
positive inotropes do.
D. Diuretics do not directly control heart rate.
Teaching Point: Diuretics relieve congestion by lowering
circulating volume and preload.
Citation: Berkowitz, 2023, Ch. 1: The Cardiovascular System —
Preload/Afterload.
3
, Reference: Ch.1 — The Kidneys in Heart Failure
Question Stem: A patient with decompensated heart failure has
low urine output and rising BUN/creatinine. Which mechanism
best explains how heart failure impairs renal function?
A. Direct kidney infection from venous stasis
B. Increased renal perfusion from sympathetic activation
C. Reduced renal perfusion leading to RAAS activation and
sodium retention
D. Hyperfiltration due to increased cardiac output
Correct Answer: C
Rationale — Correct: Reduced cardiac output lowers renal
perfusion, triggering sympathetic tone and RAAS activation;
angiotensin II and aldosterone promote sodium/water
retention, worsening preload and edema. Berkowitz highlights
this maladaptive kidney response in HF.
Rationale — Incorrect:
A. Venous stasis does not typically cause direct kidney infection.
B. Sympathetic activation constricts renal vessels and reduces,
not increases, effective renal perfusion.
D. Hyperfiltration occurs in different conditions (e.g., early
diabetic nephropathy), not typical HF with low output.
Teaching Point: HF → decreased renal perfusion → RAAS
activation → sodium/water retention.
Citation: Berkowitz, 2023, Ch. 1: The Cardiovascular System —
Kidneys in Heart Failure.