Abstract

An isolated working rat heart preparation was used to characterise the temperature-dependency of the anti-ischaemic properties of nifedipine. In this study hearts were subjected to pre-ischaemic infusion with the St Thomas' cardioplegic solution with or without added nifedipine (0.075 mumol X litre-1). Hearts were then rendered globally ischaemic for various periods, (35, 42, 48, 56, 55, 65, 80, 105 or 130 min) at various temperatures (37.0, 35.5, 34.0, 32.5, 31.0, 29.0, 27.0, 24.0 or 20.0 degrees C, respectively). The duration of ischaemia at each temperature was selected to produce a post-ischaemic (37 degrees C) recovery of aortic flow that was approximately 50% of its pre-ischaemic (37 degrees C) control. In addition to functional indices (aortic flow, cardiac output, coronary flow, aortic pressure and heart rate) creatine kinase leakage during reperfusion was measured. At all temperatures at or above 31 degrees C the addition of nifedipine enhanced significantly (maximal value = 43%) the post-ischaemic recovery of aortic flow and other indices of pump function, while at the same time reducing significantly (by up to 56%) enzyme leakage. At ischaemic temperatures below 31 degrees C nifedipine failed to afford any significant additional protection when assessed functionally or enzymatically. It would therefore appear that hypothermia either blocks the action of nifedipine or, by acting on some common mechanism, renders the actions of the drug redundant.

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