Loading Sequence Plays an Important Role in Enhanced Load Sensitivity of Left Ventricular Relaxation in Conscious Dogs With Tachycardia-Induced Cardiomyopathy

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Circulation. 1995;92:3560-3567

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(Circulation. 1995;92:3560-3567.)
© 1995 American Heart Association, Inc.

Articles

Loading Sequence Plays an Important Role in Enhanced Load Sensitivity of Left Ventricular Relaxation in Conscious Dogs With Tachycardia-Induced Cardiomyopathy

Shinji Ishizaka, MD; Hidetsugu Asanoi, MD; Osamu Wada, MD; Tomoki Kameyama, MD; Hiroshi Inoue, MD

From the Second Department of Internal Medicine, Toyama Medical and Pharmaceutical University, Toyama, Japan.

Correspondence to Hidetsugu Asanoi, MD, The Second Department of Internal Medicine, Toyama Medical and Pharmaceutical University, 2630 Sugitani, Toyama 930-01, Japan.

Background Left ventricular relaxation rate in the failing heartdepends more on the systolic load than in the normal heart.To elucidate the mechanisms for the enhanced load sensitivityof left ventricular relaxation in heart failure, we examinedthe relative contributions of changes in end-systolic volumeand loading sequence to the left ventricular relaxation rate.

Methods and Results In seven conscious dogs, the time constant(T_d) of left ventricular pressure decay, end-systolic volume,systolic circumferential force, and time to peak force duringcaval occlusion were compared before and after development of tachycardia-inducedheart failure. Rapid ventricular pacing decreased the slopeof the end-systolic pressure-volume relation from 4.5 to 2.8 mmHg/mL (P<.01) and prolonged T_d from 33 to 49 ms (P<.01).In normal conditions, caval occlusion reduced end-systolic force(-580 g, P<.01) and end-systolic volume (-7 mL, P<.01)but did not change T_d or time to peak force. In heart failure, however,caval occlusion shortened T_d (-11 ms, P<.01), with a concomitantdecrease in the time to peak force (-30 ms, P<.01), whileend-systolic volume and force declined slightly. Consequently,for a comparable reduction in end-systolic force, T_d decreased morein heart failure than in normal hearts, suggesting enhancedload sensitivity. Moreover, changes in T_d correlated well with thosein the time to peak force (r=.79, P<.01) but not with thosein end-systolic volume.

Conclusions Loading sequence rather than elastic recoil seemsto play the predominant role in the enhanced load sensitivityof left ventricular relaxation in heart failure.

Key Words: heart failure • conduction • catheters • pressure

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