TY - JOUR
T1 - Mitral valve coaptation and its relationship to late diastolic flow
T2 - A color Doppler and vector flow map echocardiographic study in normal subjects
AU - Sherrid, Mark V.
AU - Kushner, Josef
AU - Yang, Georgiana
AU - Ro, Richard
N1 - Publisher Copyright:
© 2017, Wiley Periodicals, Inc.
PY - 2017/4/1
Y1 - 2017/4/1
N2 - Background: Three competing theories about the mechanism of mitral coaptation in normal subjects were evaluated by color Doppler and vector flow mapping (VFM): (1) beginning of ventricular (LV) ejection, (2) “breaking of the jet” of diastolic LV inflow, and (3) returning diastolic vortices impacting the leaflets on their LV surfaces. Methods and Results: We analyzed 80 color Doppler frames and 320 VFM measurements. In all 20 normal subjects, coaptation occurred before LV ejection, 78±16 ms before onset. On color Doppler frames the larger anterior, and smaller posterior vortices circle back and, in all cases, strike the ventricular surfaces of the leaflets. On the first closing-begins frame, for the first time, vortex velocity normal to the ventricular surface of the anterior leaflet (AML) is greater than that in the mitral orifice, and the angle of attack of LV vortical flow onto the AML is twice as high as the angle of flow onto the valve in orifice. Thus, at the moment coaptation begins, vortical flow strikes the mitral leaflet with higher velocity, and higher angle of attack than orifice flow, and thus with greater force. According to the “breaking of the jet” theory, one would expect to see de novo LV flow perpendicular to the leaflets beginning after transmitral flow terminates. Instead, the returning continuous LV vortical flow that impacts the valve builds continuously after the P-wave. Conclusions: Late diastolic vortices strike the ventricular surfaces of the mitral leaflets and contribute to valve coaptation, permitted by concomitant decline in transmitral flow.
AB - Background: Three competing theories about the mechanism of mitral coaptation in normal subjects were evaluated by color Doppler and vector flow mapping (VFM): (1) beginning of ventricular (LV) ejection, (2) “breaking of the jet” of diastolic LV inflow, and (3) returning diastolic vortices impacting the leaflets on their LV surfaces. Methods and Results: We analyzed 80 color Doppler frames and 320 VFM measurements. In all 20 normal subjects, coaptation occurred before LV ejection, 78±16 ms before onset. On color Doppler frames the larger anterior, and smaller posterior vortices circle back and, in all cases, strike the ventricular surfaces of the leaflets. On the first closing-begins frame, for the first time, vortex velocity normal to the ventricular surface of the anterior leaflet (AML) is greater than that in the mitral orifice, and the angle of attack of LV vortical flow onto the AML is twice as high as the angle of flow onto the valve in orifice. Thus, at the moment coaptation begins, vortical flow strikes the mitral leaflet with higher velocity, and higher angle of attack than orifice flow, and thus with greater force. According to the “breaking of the jet” theory, one would expect to see de novo LV flow perpendicular to the leaflets beginning after transmitral flow terminates. Instead, the returning continuous LV vortical flow that impacts the valve builds continuously after the P-wave. Conclusions: Late diastolic vortices strike the ventricular surfaces of the mitral leaflets and contribute to valve coaptation, permitted by concomitant decline in transmitral flow.
KW - echocardiography
KW - mitral regurgitation
KW - mitral valve
KW - mitral valve closure
KW - physiology
KW - regurgitation
UR - http://www.scopus.com/inward/record.url?scp=85014087656&partnerID=8YFLogxK
U2 - 10.1111/echo.13480
DO - 10.1111/echo.13480
M3 - Article
C2 - 28247433
AN - SCOPUS:85014087656
SN - 0742-2822
VL - 34
SP - 537
EP - 548
JO - Echocardiography
JF - Echocardiography
IS - 4
ER -