Femoral artery compression and aortic constriction demonstrated that early diastolic wave reflection shortens left ventricular relaxation time, whereas late systolic reflection prolongs it.
Does the timing and magnitude of arterial wave reflection affect left ventricular relaxation and coronary flow in patients with heart disease and in dogs?
The timing of arterial wave reflection during the cardiac cycle significantly impacts left ventricular relaxation and coronary flow, with early diastolic reflection improving relaxation and late systolic reflection impairing it.
The influence of timing and magnitude of arterial wave reflection (WR) on afterload-dependent relaxation was evaluated in patients with a variety of heart diseases (group 1, age 40 yr) and in dogs. While both femoral arteries were compressed (FC), WR returned just after the dicrotic notch (early diastole) in group 1 but before the dicrotic notch (late systole) in group 2. The time constant of the left ventricular pressure decay (tau) was shortened during FC in group 1, whereas it was prolonged in group 2. In dogs, a constriction of the thoracic aorta induced a late systolic augmentation of WR with a prolongation of tau (cf. group 2), whereas constriction of the lower abdominal aorta induced an early diastolic augmentation of WR with a shortening of tau (cf. group 1). With aortic constriction, coronary flow increased, and there was a close correlation between the peak change in backward aortic pressure and that in coronary flow regardless of the timing of WR. Thus the time at which WR returns during the cardiac cycle may have an important effect on left ventricular relaxation and coronary flow.
Yano et al. (Sun,) conducted a other in Variety of heart diseases. Femoral artery compression and aortic constriction was evaluated on Time constant of the left ventricular pressure decay (tau). Femoral artery compression and aortic constriction demonstrated that early diastolic wave reflection shortens left ventricular relaxation time, whereas late systolic reflection prolongs it.
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