Pitkanen-M. Feldman-H-S. Arthur-G-R. Covino-B-G. Chronotropic and inotropic
effects of ropivacaine, bupivacaine, and lidocaine in the spontaneously beating
and electrically paced isolated, perfused rabbit heart. Reg-Anesth.
1992 Jul-Aug. 17(4). P 183-92.
BACKGROUND AND OBJECTIVES. The purpose of this study was to compare
the inotropic and chronotropic effects of ropivacaine, bupivacaine, and lidocaine
in an isolated, spontaneously beating rabbit heart preparation. The ability
to electrically pace the heart in the presence of local anesthetic also was
examined.
METHODS. Hearts were perfused with Krebs-Henseleit solution, then exposed
to ropivacaine or bupivacaine at 1, 6, or 13 micrograms/ml or lidocaine at
6, 20, or 40 micrograms/ml (n = 6, each concentration). Left ventricular
pressure, left ventricular dP/dt (rate of change derivation from analog waveform
of the left ventricular pressure wave), pulmonary artery flow, oxygen
consumption, and electrocardiogram were monitored throughout the studies.
Drug exposure was for 30 minutes or until a 75% decrease in left ventricular
pressure occurred.
RESULTS. All preparations were exposed to 1 microgram/ml bupivacaine
or ropivacaine and 6 micrograms/ml lidocaine for the full 30 minutes. At
the intermediate concentrations, only one of six bupivacaine preparations
(6 micrograms/ml) survived the full 30-minute exposure period, compared to
six of six preparations for both ropivacaine (6 micrograms/ml) and lidocaine
(20 micrograms/ml; p less than 0.05). Similar results were found with exposure
to the highest concentrations of these local anesthetics. No electrocardiogram
changes were observed with any of the three lidocaine concentrations or with
the lowest ropivacaine and bupivacaine concentration. At the intermediate
concentration, atrioventricular conduction changes were seen with bupivacaine
in five of six preparations, compared to one of six ropivacaine preparations
(p less than 0.05). With the high concentration, ventricular tachycardia
occurred in four of six bupivacaine preparations, compared to zero of six
with ropivacaine (p less than 0.05). In general, left ventricular systolic
pressure, dP/dt, heart rate, and oxygen consumption were reduced during exposure
to all concentrations of the three local anesthetics. The most profound effects
(greater than 75% reduction) were seen with 13 micrograms/ml bupivacaine.
All local anesthetics caused an increase in the voltage required to pace
the hearts via the atria. With 6 micrograms/ml bupivacaine and 13 micrograms/ml
ropivacaine, 50% of the preparations could not be paced via the atria; and
with 13 micrograms/ml bupivacaine, none of the preparations could be paced
via the atria. The depressant effects of 6 micrograms/ml bupivacaine approximated
those seen with 13 micrograms/ml ropivacaine. The reductions in oxygen
consumption and pulmonary artery flow were not significantly different between
treatment groups.
CONCLUSION. The results of this study indicate that bupivacaine is
more cardiodepressant and arrhythmogenic than either ropivacaine or
lidocaine.