Hypermetabolism, increased heart rate, and lipolysis are responses to high catecholamine levels associated with burn injury. This study tests the hypothesis that adrcncrgic beta blockade in burns could reduce myocardial work, lipolysis, and negative nitrogen balance without adversely affecting cardiac or metabolic function. Eighteen patients with burns of 70 ± 3% total burn surface area (TBSA) (Mean ± SEM), were studied after a 5-day infusion of 2 nig/Kg of intravenous (I.V.) propranolol infusion every 24 hours without their cardiac output or resting energy expenditure being adversely reduced. Heart rate, left ventricular work, and rate pressure product were significantly reduced by 20, 22, and 36%, respectively (P < 0.05). Plasma glucose, free fatty acids, triglycerides, and insulin levels remained unchanged. The rate of urea production, however, was significantly increased by 54 ± 12% in fasted patients, and to a much lesser 12 ± 2% in fed patients. The marked decrease in myocardial work afforded by propranolol administration may be of clinical benefit in the treatment of large burns. Variations in drug dosage and feeding regimens will, however, need to be perfected to limit catabolic effects.
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