Multiple treatment approach to limit cardiac ischemia-reperfusion injury.

BACKGROUND: This study evaluates a multiple treatment approach (ie, pharmacologic preconditioning [diazoxide], sodium-proton exchange inhibition [cariporide], and controlled reperfusion) to improve the outcome from severe cardiac ischemia-reperfusion injury that occurs during a cardiac operation. METHODS: Five groups of 10 pigs (group 1: control, group 2: diazoxide, group 3: cariporide, group 4: controlled reperfusion, and group 5: combination of diazoxide and cariporide-controlled reperfusion) underwent 75 minutes of left anterior descending occlusion, 1 hour of cardioplegic arrest, and 2 hours of reperfusion. Prior to occlusion, each group received an infusion of vehicle alone (ie, dimethylsulfoxide for the control and the controlled reperfusion groups) or vehicle with drug (ie, diazoxide or cariporide, or both for all other groups). Infarct size (primary outcome) was measured and was normalized to the region at risk. Regional function (secondary outcome) was measured using preload recruitable work area. RESULTS: Infarct size as a function of area at risk was decreased by cariporide-controlled reperfusion, and combination treatment compared with the control group (14 +/- 6%, 15 +/- 8%, and 9 +/- 4% vs 24 +/- 9%; p < 0.02), and variation in infarct size was decreased by combination treatment compared with the controlled reperfusion group alone (p < 0.02). Recovery of systolic function during reperfusion significantly improved in the left anterior descending region in the cariporide and combination groups compared with the control, controlled reperfusion, or diazoxide groups (group-time effect, p < 0.05). CONCLUSIONS: Combined use of controlled reperfusion, cariporide, and diazoxide decreases myocyte necrosis and loss of systolic function compared with an untreated control group. Combination treatment has the potential to improve the results of cardiac surgery, however further improvements are needed before clinical application.

Regional differences in ventricular fibrillation in the open-chest porcine left ventricle.

It has been hypothesized that during ventricular fibrillation (VF), the fastest activating region, the dominant domain, contains a stable reentrant circuit called a mother rotor. This hypothesis postulates that the mother rotor spawns wavefronts that propagate to maintain VF elsewhere and implies that the ratio of wavefronts propagating off a region to those propagating onto it (propoff/propon) should be >1 for the dominant domain but <1 elsewhere. To test this prediction in the left ventricular (LV) epicardium of a large animal, most of the LV free wall was mapped with 1008 electrodes in 7 pigs. VF activation rate was faster in the posterior than in the anterior LV (10.0+/-1.3Hz versus 9.3+/-1.3Hz; P<0.001). The anterior LV had a higher fraction of wavefronts that blocked than did the posterior LV and had a propoff/propon ratio <1 (P<0.001). The mean conduction velocity vectors of the VF wavefronts pointed in the direction from the posterior to the anterior LV. Although these findings favor a dominant domain in the posterior LV, the facts that the anterior LV had a higher incidence of reentry than did the posterior LV and that the posterior LV did not have propoff/propon significantly different from 1 do not. Thus, quantitative regional differences are present over the porcine LV epicardium during VF. Although these differences are not totally consistent with the presence of a dominant domain within the LV free wall, the mean conduction velocity vector is consistent with one in the septum.