Recent studies have attempted to predict the severity of regurgitant l
esions from color Doppler jet size, which is a function of orifice mom
entum for free jets, Jets of mitral and tricuspid regurgitation, howev
er, are opposed by flows entering the atria, Despite their low velocit
ies, these counterflows may have considerable momentum that can limit
jet penetration, The purpose of this study was to address the hypothes
is that such counterflow fields influence regurgitant jet size, Steady
flow was driven through 2.4- and 5.1-mm-diameter circular orifices at
2 to 6 m/s, At a constant orifice velocity and flow rate, the velocit
y of a uniform counterflow field was varied from 5 to 30 cm/s, Jet dim
ensions were measured by both fluorescent dye visualization and Dopple
r color flow mapping, The results showed that despite its relatively l
ow velocities, counterflow dramatically curtailed jet length and area,
Jet dimensions were functions of the ratio of jet to counterflow mome
ntum, Thus, atrial inflow may participate in determining jet size and
can alter the relation between jet size and lesion severity in mitral
and tricuspid regurgitation.