Automated quantification of mitral valve regurgitation based on normalized centerline velocity distribution

Author

Deserranno, D. ; Greenberg, NL ; Thomas, JD ; Garcia, MJ

Author_Institution

Cleveland Clinic Found., OH, USA

fYear

2001

fDate

2001

Firstpage

9

Lastpage

12

Abstract

Previous echocardiographic techniques for quantifying valvular regurgitation are limited by factors including uncertainties for orifice location and a hemispheric convergence assumption that often results in overand underestimation of flow rate and regurgitant orifice area. Using computational fluid dynamics simulations, these factors were eliminated, allowing a more accurate assessment of regurgitation. A model was developed to allow automated quantification of regurgitant orifice diameter based on the centerline velocity data available from color M-mode echocardiography. The model, validated using in vitro unsteady flow data, demonstrated improved accuracy for orifice diameter (y=0.95x+0.38, r=0.96) and volume (y=1.18x-4.72, r=0.93)

Keywords

computational fluid dynamics; echocardiography; flow simulation; haemodynamics; medical image processing; automated quantification; color M-mode echocardiography; computational fluid dynamics simulations; in vitro unsteady flow data; mitral valve regurgitation; normalized centerline velocity distribution; orifice location; regurgitant orifice diameter; Computational fluid dynamics; Computational modeling; Convergence; Echocardiography; Equations; Fluid dynamics; In vitro; Mathematical model; Orifices; Valves;

fLanguage

English

Publisher

ieee

Conference_Titel

Computers in Cardiology 2001

Conference_Location

Rotterdam

ISSN

0276-6547

Print_ISBN

0-7803-7266-2

Type

conf

DOI

10.1109/CIC.2001.977578

Filename

977578