Abstract
We studied the dependency of left ventricular relaxation on the timing of an abrupt increase in systolic load. In 10 canine isolated heart-lung preparations, a load step of 15 mmHg was imposed at specific intervals throughout systole, and the time of loading was defined as the interval from the R wave to the completion of the load step (R-load interval). Preload was held constant. The right atrium was paced at a cycle length of 450 ms. The decay of left ventricular pressure during isovolumic relaxation was described by a single exponential time constant (Texp). Load effects on isovolumic relaxation were expressed as a percent change in Texp as compared with Texp of the beat preceding the load intervention. Loads imposed early in systole consistently prolonged Texp [mean delta Texp = +17.01 +/- 1.64% (SE) for R-load intervals less than or equal to 120 ms]. Load changes late in systole consistently abbreviated Texp [mean delta Texp = -9.49 +/- 0.86% (SE) for R-load intervals greater than or equal to 130 ms]. The transition from augmentation to diminution of Texp always occurred when the R-load interval was 120-130 ms. The mean time interval of electromechanical systole for the test beats was not significantly different (P greater than or equal to 0.05) from that of the control beats [R-load intervals less than or equal to 120: test = 247.0 +/- 27.8 (SD) ms; control = 246.6 +/- 26.8 (SD) ms] [R-load intervals greater than or equal to 130: test = 243.3 +/- 29.1 (SD) ms; control = 243.8 +/- 28.4 (SD) ms].(ABSTRACT TRUNCATED AT 250 WORDS)
Published Version
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