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Title: The electrophysiology of rabbit hearts with left ventricular hypertrophy under normal and ischaemic conditions. Author: Hicks MN, McIntosh MA, Kane KA, Rankin AC, Cobbe SM. Journal: Cardiovasc Res; 1995 Aug; 30(2):181-6. PubMed ID: 7585803. Abstract: OBJECTIVES: To examine the cardiac electrophysiological effects of left ventricular hypertrophy (LVH) and to determine whether any observed differences are modified by global zero-flow ischaemia. METHODS: LVH was induced by perinephritic hypertension in New Zealand White rabbits. Transmembrane action potential recordings were made using conventional floating glass microelectrodes and effective refractory periods (ERP) determined by programmed stimulation in isolated arterially perfused interventricular septa during normal perfusion and a 30-min period of global ischaemia. The electrophysiological data were pooled into 6-min periods during ischaemia. RESULTS: The post-operative blood pressure was 76(2) mmHg (mean(s.e.m.)) and 113(2) mmHg (P < 0.0005) in the sham and perinephritic rabbits respectively. The left ventricular to body weight ratio was 0.27(0.01) g kg-1 in the sham and 0.36(0.02) g kg-1 in the perinephritic group (P < 0.005) representing 33% hypertrophy. In the isolated septa, prior to ischaemia, the hypertrophied group exhibited significant prolongations in action potential duration to 50% and 90% repolarisation (APD50, APD90) and ERP of 20%, 12% and 19% respectively (P < 0.005) without any differences in resting membrane potential (Em), upstroke velocity (dV/dtmax) or amplitude (APA) of the action potential. During ischaemia Em, APA and dV/dtmax progressively decreased to a similar extent in both groups. Ischaemia resulted in shortenings in APD50, APD90 and ERP in the hypertrophy group of 122(9) ms, 131(8) ms and 99 (6) ms respectively which were greater than those observed in the control group (84 (7) ms, 115 (7) ms and 50 (13) ms, P < 0.05). These differences resulted in loss of the preischaemic prolongation of repolarisation and refractoriness in the hypertrophy group. CONCLUSIONS: There was enhanced shortening of APD and ventricular refractoriness in hypertrophied muscle during global ischaemia. This could increase the dispersion of repolarization and refractoriness between normal and ischaemic hypertrophied muscle during regional ischaemia which may explain the increased susceptibility of hypertrophied hearts to arrhythmias.[Abstract] [Full Text] [Related] [New Search]