A method has been developed to measure myocardial heat production simultaneously with mechanical (developed tension, rate of contraction and relaxation) and metabolic parameters in the arterially perfused interventricular septum of the rabbit. The system allows control of rest tension, frequency of contraction, temperature, and composition of the perfusate. The technique is based on the differential measurement of the heat flux from the muscle to the calorimetric bath. This technique is able to resolve changes in heat production as small as 0.06 mW. The resting heat production measured with the present calorimeter (1.62 +/- 0.1 mW/g wet tissue) agrees with that obtained with thermopiles and with that calculated from measurements of oxygen consumption. The heat per contraction (6.5 +/- 1.4 mJ/g wet tissue) also agreed with that measured with thermopiles in rabbit papillary muscles. The heat production measured at 22 degrees C under severe hypoxia can be fully explained by the addition of the expected change of enthalpy due to the reaction 0.5 glucose-lactate, calculated on the basis of the lactate measured in the perfusate, and the expected change of enthalpy of oxygen consumption [assuming that all remaining O2 in perfusate (0.09 vol%) is used for combustion of glucose]. These results clearly demonstrated the feasibility of this method for the correlation of changes in energy turnover, through the measurement of the heat production, with mechanical and metabolic processes on-line in arterially perfused septum.
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| http://dx.doi.org/10.1152/ajpheart.1982.243.2.H289 | DOI Listing |
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