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Doppler echo evaluation of pulmonary venous-left atrial pressure gradients: human and numerical model studies

Authors :
Firstenberg, M. S
Greenberg, N. L
Smedira, N. G
Prior, D. L
Scalia, G. M
Thomas, J. D
Garcia, M. J
Source :
American journal of physiology. Heart and circulatory physiology. 279(2)
Publication Year :
2000
Publisher :
United States: NASA Center for Aerospace Information (CASI), 2000.

Abstract

The simplified Bernoulli equation relates fluid convective energy derived from flow velocities to a pressure gradient and is commonly used in clinical echocardiography to determine pressure differences across stenotic orifices. Its application to pulmonary venous flow has not been described in humans. Twelve patients undergoing cardiac surgery had simultaneous high-fidelity pulmonary venous and left atrial pressure measurements and pulmonary venous pulsed Doppler echocardiography performed. Convective gradients for the systolic (S), diastolic (D), and atrial reversal (AR) phases of pulmonary venous flow were determined using the simplified Bernoulli equation and correlated with measured actual pressure differences. A linear relationship was observed between the convective (y) and actual (x) pressure differences for the S (y = 0.23x + 0.0074, r = 0.82) and D (y = 0.22x + 0.092, r = 0.81) waves, but not for the AR wave (y = 0. 030x + 0.13, r = 0.10). Numerical modeling resulted in similar slopes for the S (y = 0.200x - 0.127, r = 0.97), D (y = 0.247x - 0. 354, r = 0.99), and AR (y = 0.087x - 0.083, r = 0.96) waves. Consistent with numerical modeling, the convective term strongly correlates with but significantly underestimates actual gradient because of large inertial forces.

Subjects

Subjects :
Life Sciences (General)

Details

Language :
English
ISSN :
03636135
Volume :
279
Issue :
2
Database :
NASA Technical Reports
Journal :
American journal of physiology. Heart and circulatory physiology
Notes :
1RO1HL56688-01A1
Publication Type :
Report
Accession number :
edsnas.20040141463
Document Type :
Report