In the present study, atrioventricular nodal accommodation and hysteresis characteristics were evaluated in awake, unsedated dogs, before (n = 10) and after cardiac transplantation (n = 10). Chronically instrumented animals were atrially paced at a cycle length (CL) of 400 ms, followed by an abrupt decrease in pacing CL to 300 ms, followed by an abrupt return in pacing CL to 400 ms (with pacing sustained for 60 s at each CL). Atrioventricular nodal conduction characteristics (assessed by AH intervals) were simultaneously monitored. Under control conditions, AH intervals lengthened rapidly after an abrupt decrease in pacing CL [mean time for AH interval lengthening to stabilize (Tonset) = 2 +/- 1 s], whereas AH intervals lengthened more slowly (P less than 0.05) after transplantation (Tonset = 41 +/- 4 s). Similarly, after an abrupt increase in pacing CL, control AH intervals shortened rapidly [mean time for AH interval to return to base line (Tonset) = 5 +/- 1 s], whereas AH intervals shortened more slowly (P less than 0.05) after transplantation (Tonset = 42 +/- 5 s). Thus accommodation appears to be an intrinsic atrioventricular nodal response (present after cardiac denervation by transplantation) to abrupt, sustained atrial CL changes. Furthermore equivalence (P = NS) in atrioventricular nodal accommodation responses to symmetric CL decreases and increases after transplantation suggests that hysteresis [i.e., nonequivalence (P less than 0.05) in atrioventricular nodal accommodation responses], as seen under control conditions, results primarily from extrinsic (neural) modification of intrinsic atrioventricular nodal responses to symmetric CL changes.
Cardiac electrophysiologic effects of verapamil in vivo are the result of both direct and indirect actions on the heart (the latter due to augmentation of sympathetic neural tone, diminution of parasympathetic neural tone, and increased circulating catecholamines). In this study we assessed the interaction of verapamil's direct and indirect actions on electrophysiologic properties of the heart in awake, previously instrumented, unsedated dogs. After administration of intravenous verapamil (0.2 mg/kg), electrophysiologic effects were assessed serially over a
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