The results confirm that stereoselectivity can be demonstrated by a lengthening of atrioventricular conduction time for the more fat-soluble bupivacaine. However, for the less fat-soluble ropivacaine, the S(-)-isomer has no advantage over the R(+)-isomer for preventing slowing of atrioventricular conduction in clinical concentrations. Neither anesthetic showed stereoselective inotropic effects, but ropicavaine isomers had lesser cardiodepressant effects than bupivacaine isomers because of the replacement of the butyl- by a propyl-terminal group.
In the present study, we sought to investigate the effects of differing inotropic conditions on regional myocardial function in ischaemic segments. In an experimental pig model ( n =11), the regional deformation parameters peak systolic strain rate [SR(SYS) (peak velocity of thickening)], systolic strain [epsilon(SYS) (systolic wall thickening)] and post-systolic strain [epsilon(PST) (ongoing wall thickening after end of systole)] were measured during normal perfusion and regional ischaemia of the posterior wall. These parameters were compared with global contractility [E(ES) (end-systolic elastance)] measured by a conductance catheter. Ischaemia was induced by an active coronary hypoperfusion in the circumflex coronary artery. Measurements were done at baseline, during dobutamine and during esmolol infusion. In normal perfused hearts, SR(SYS) (4.8+/-0.2 s(-1) at baseline) increased during dobutamine infusion, decreased during esmolol infusion and correlated significantly with global E(ES). In addition, epsilon(SYS) averaged 93+/-3% at baseline and there was almost no epsilon(PST) (4+/-1%) in normal myocardium. In ischaemic myocardium, SR(SYS) and epsilon(SYS) were significantly reduced compared with normal myocardium at baseline (SR(SYS)=2.8+/-0.3 s(-1), and epsilon(SYS)=43+/-6%; P <0.001 compared with normal perfused hearts), whereas global E(ES) was unchanged. In contrast, epsilon(PST) was significantly increased in regional ischaemic segments compared with the non-ischaemic myocardium (15+/-2%; P <0.001). During the dobutamine infusion, SR(SYS) remained unchanged. In contrast, epsilon(SYS) decreased (25+/-5%; P <0.001) and epsilon(PST) increased (25+/-4%; P <0.05) significantly during dobutamine infusion in ischaemic myocardium. In ischaemic segments, an inotropic stimulation with dobutamine resulted in a shift of strain from systole (epsilon(SYS)) to post-systole (epsilon(PST)). Thus dobutamine induced ineffective myocardial work in ischaemic segments.
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