| Abstract: | Changes of left ventricular (LV) pressure-diameter-velocity relations by alterations in heart rate (HR) were investigated in 6 conscious dogs, instrumented with a pair of ultrasonic crystal probe, a micromanometer in LV and pacing electrodes on the left atrium. By atrial pacing the following four stages of HR were produced: stage (S)-I 112, S-II 134, S-III 158 and S-IV 179 bpm (mean HR). These alterations in HR were repeated before and during acute pressure loadings by methoxamine infusion. LV pressure-diameter and pressure-velocity relations were evaluated by the slope value of LV peak systolic pressure (LVSP)-end-systolic diameter, E (D) max, and by the ratio of changes in mV cf (mean velocity circumferential fiber shortening) and LVSP before and during pressure loading, delta mVcf/delta LVSP, respectively. The average of E(D) max at each stage of HR was 9.45, 12.63, 12.59, 11.22 mmHg/mm, and delta mVcf/delta LVSP was -0.009, -0.006, -0.007, -0.009 circ./sec.mmHg, respectively. E(D) max increased more at S-II and S-III than at S-I, and reversely, E(D) max decreased more at S-IV than at S-II. Similarly, delta mVcf/delta LVSP increased more at S-II than at S-I and decreased more at S-IV than at S-II, while delta LVSP and delta EDD (end-diastolic diameter) were not different between stages. These changes in E(D) max and delta mVcf/delta LVSP presented the mountainous pattern effected by alterations in HR, whose changes were almost similar to that of LV peak positive dp/dt and mVcf before pressure loading. Thus, E(D) max is augmented by an increase in HR, which suggests the Bowditch-effect. Reversely, a decrease in E(D) max at a higher rate indicates a depressed inotropic state. E(D) max is dependent on HR and is a sensitive indicator of the contractility of LV. |
