The effects of cardiac cooling under surface-induced hypothermia on the cardiac function in the in situ heart

Abstract

It has been reported that in the excised cross-circulated dog heart model, cardiac cooling increases Emax (contractility index) and the external work (EW) of the left ventricle without affecting the systolic pressure volume area (PVA)-independent myocardial oxygen consumption (VO2). However, it remains unclear whether this cooling inotropism and oxygen-saving effect can also be demonstrated in an in situ heart. In the present study, we investigated the effect of cardiac cooling under surface-induced hypothermia in the in situ heart to assess the practical application of this method. Adult mongrel dogs were examined under surface-induced hypothermia with or without vasodilator. Using conductance catheter, pressure-volume relationship were obtained and mechanoenergetical parameters were measured. Optimal temperature for cardiac cooling was also examined. Simple hypothermia increased Emax compared with normothermia without affecting PVA-independent VO2, but EW did not increase. However, with concurrent vasodilator administration, cardiac cooling increased not only Emax but also EW without affecting PVA-independent VO 2 compared with normothermia. However, at temperature below 32°C, Tau increased significantly and diastolic dysfunction was noted. Cardiac cooling with concurrent vasodilator administration in the in situ heart has inotropic and oxygen-saving effects and optimal temperature for cardiac cooling is thought to be 34°C. © 2005 Published by European Association for Cardio-Thoracic Surgery. All rights reserved.