N. Eldrup et al., Impact of off-pump coronary artery surgery on myocardial performance and beta-adrenoceptor function, J CARDIOTHO, 15(4), 2001, pp. 428-432
Objective: To determine the hemodynamic changes during beating heart revasc
ularization of the left anterior descending artery, the circumflex artery,
and the right coronary artery as well as cardiovascular beta -adrenoceptor
function before and after off-pump coronary artery bypass surgery.
Design: Prospective study.
Setting: University department of cardiothoracic anesthesia.
Participants: Twenty patients scheduled for off-pump coronary artery bypass
surgery using the Octopus 2 stabilizer system.
Interventions: Isoproterenol, 4 mug, was administered intravenously after i
nduction of anesthesia and again after surgery to monitor cardiac beta -rec
eptor function.
Measurements and Main Results: The hemodynamic responses to isoproterenol a
nd cardiovascular variables were monitored before, during, and after immobi
lization of the target coronary artery with catheters in the radial and pul
monary arteries. During surgery on the left anterior descending artery (n =
23), stroke volume and cardiac index decreased 17 mL (21%) and 400 mL (17%
). During revascularization of the circumflex artery (n = 9), stroke volume
and cardiac index decreased 19 mL (28%) and 300 mL (17%). During surgery o
n the posterior aspect of the heart (n = 13), stroke volume and cardiac ind
ex decreased 22 mL (29%) and 400 mL (17%). All the cardiovascular variables
had returned to baseline values 5 minutes after releasing the heart. The h
emodynamic responses to isoproterenol were equal before and after surgery.
Conclusion: This study provides evidence that the hemodynamic changes assoc
iated with off-pump surgery on the 3 major coronary arteries are similar an
d of short duration. No desensitization of cardiovascular beta -adrenocepto
rs was found. This finding is in contrast to the deterioration in beta -adr
enoceptor function seen after surgery with cardiopulmonary bypass. Copyrigh
t (C) 2001 by W.B. Saunders Company.