Rapid stimulation (overdrive) of rabbit sinus node pacemaker cells caused a progressive decrease in maximum diastolic potential, overshoot, and maximum rate of depolarization.
Does rapid stimulation (overdrive) alter transmembrane action potentials and spontaneous activity in rabbit sinus node pacemaker cells?
Post-overdrive suppression of the sinus node is likely attributable to ionic shifts following overdrive and can be potentiated by metabolic dysfunction.
We studied the mechanism of post-overdrive suppression in superfused rabbit sinus node pacemaker cells. Small specimens of sinus node tissue isolated from rabbit hearts were driven at a fast rate (overdrive) for 10-120 seconds using single sucrose gap methods. During the control perfusion (35 degrees C Tyrode's solution), overdrive caused a progressive decrease in maximum diastolic potential (MDP), overshoot (OS), and maximum rate of depolarization at phase 0 dV/dt)max. After cessation of the overdrive, the rate of diastolic depolarization decreased, and the spontaneous activity was suppressed temporarily (post-overdrive suppression). MDP, OS, (dV/dt)max, and the spontaneous activity returned within a few seconds to the level observed before overdrive. Atropine (2 x 10(-6) g/ml) did not influence the effects of overdrive. After ouabain administration (3 x 10(-7) g/ml) or in low temperature perfusate (25 degrees C), the effects of overdrive were accentuated, and a marked suppression of spontaneous activity with a long pause of over several seconds was seen following the overdrive. These results suggest that the post-overdrive suppression of sinus node is attributable, at least in part, to ionic shifts following overdrive, and may be potentiated by metabolic dysfunction of pacemaker cells.
Kodama et al. (Tue,) reported a other. Rapid stimulation (overdrive) vs. Control perfusion was evaluated on Transmembrane action potentials (maximum diastolic potential, overshoot, maximum rate of depolarization, spontaneous activity). Rapid stimulation (overdrive) of rabbit sinus node pacemaker cells caused a progressive decrease in maximum diastolic potential, overshoot, and maximum rate of depolarization.
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