Mechanics of intraventricular filling: study of LV early diastolic pressure gradients and flow velocities

Mechanics of intraventricular filling: study of LV early diastolic pressure gradients and flow velocities

This study investigates mechanisms of left ventricular (LV) intracavitary flow during early, rapid filling. In eight coronary artery disease patients with normal LV ejection fraction we recorded simultaneous LV apical and outflow tract pressures and intraventricular flow velocities by color M-mode D...

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Bibliographic Details
Published in:The American journal of physiology Vol. 275; no. 3; pp. H1062 - H1069
Main Authors: Smiseth, O A, Steine, K, Sandbaek, G, Stugaard, M, Gjolberg, T
Format: Journal Article
Language:English
Published: United States 01-09-1998
Subjects:
Adult
Animals
Biomechanical Phenomena
Blood Flow Velocity
Blood Pressure
Diastole
Dogs
Humans
Male
Middle Aged
Models, Biological
Ventricular Function, Left
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Summary:This study investigates mechanisms of left ventricular (LV) intracavitary flow during early, rapid filling. In eight coronary artery disease patients with normal LV ejection fraction we recorded simultaneous LV apical and outflow tract pressures and intraventricular flow velocities by color M-mode Doppler echocardiography. In five anesthetized dogs we also recorded left atrial pressure and LV volume by sonomicrometry. In patients, as the early diastolic mitral-to-apical filling wave arrived at the apex, we observed an apex-outflow tract pressure gradient of 3.5 +/- 0.3 mmHg (mean +/- SE). This pressure gradient correlated with peak early apex-to-outflow tract flow velocity (r = 0.75, P < 0.05). The gradient was reproduced in the dog model and decreased from 3.1 +/- 0.3 to 1.7 +/- 0.5 mmHg (P < 0.05) with caval constriction and increased to 4.2 +/- 0.5 mmHg (P < 0.001) with volume loading. The pressure gradient correlated with peak early transmitral flow (expressed as time derivative of LV volume; r = 0.95) and stroke volume (r = 0.97). In conclusion, arrival of the early LV filling wave at the apex was associated with a substantial pressure gradient between apex and outflow tract. The pressure gradient was sensitive to changes in preload and correlated strongly with peak early transmitral flow. The significance of this gradient for intraventricular flow propagation in the normal and the diseased heart remains to be determined.
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ISSN:0002-9513
DOI:10.1152/ajpheart.1998.275.3.h1062