■ Maintenance fluids: Calculate maintenance fluids (see Table 1.15)
and add to deficit replacement.
■ Solution:Use D5.25 NS (D5^1 / 4 NS) for infants and D5.45 NS
(D5^1 / 2 NS) in children.
■ Treatment of the underlying cause should be simultaneous.
A 22-year-old previously healthy male presents to the ED complaining of
flulike symptoms and progressive shortness of breath. On examination
he appears ill with BP 80/50, HR 120, RR 30 and T 38.0ºC. He has evi-
dence of poor perfusion, bilateral rales, and jugular venous distention. Bedside
cardiac ultrasound shows diffuse hypokinesis. What is the best initial manage-
ment of this patient?
This patient is in cardiogenic shock from acute myocarditis. The goal of
treatment is to improve myocardial contractility and pump function. Ensuring
adequate ventilation and oxygenation is the first step in management, followed
by the initiation of dopamine or dobutamine (if SBP > 90 mmHg) to improve
pump function.
Cardiogenic Shock
Occurs when a primary cardiac disorder results in a decrease in cardiac output
to a level that is insufficient to meet tissue demands for oxygen.
Cardiac output is determined by HR and stroke volume.
CO (L/min) = HR (beats/min) ×SV (L/beat)
Stroke volume is itself determined by the interrelation of preload, afterload, and
contractility. Problems in any of the determinants of CO may cause cardiogenic
shock.
ETIOLOGY
Etiologies include:
■ Classically thought of as pump failure from myocardial injury or
dysfunction: Myocarditis, cardiomyopathy, ischemia, infarct, contusion
■ Arrhythmias
RESUSCITATION
TABLE 1.15. Calculating Maintenance Fluids
PATIENTWEIGHT DAILYMAINTENANCEFLUIDS
For the first 0–10 kg 100 mL/kg/day
For the next 10–20 kg 50 mL/kg/day
From 20–70 kg 20 mL/kg/day
Deficit fluids (in liters) = Add up total mL and divide by 24 to obtain hourly rate.
% fluid loss ×weight in kg.
Replace one-half the deficit
over first 8 hours, the rest over
the next 16 hours.
Acute MI is the most common
cause of cardiogenic shock.