We studied 130 patients undergoing percutaneous balloon mitral valvotomy. The relation between valvular morphology according to a previously described echocardiographic scoring system and hemodynamic outcome expressed as qualitative ("good" and
Previous investigations have shown that the size of a regurgitant jet as assessed by color Doppler flow mapping is independently affected by the flow rate and velocity (or driving pressure) of the jet. Fluid dynamics theory predicts that jet momentum (given by the orifice flow rate multiplied by velocity) should best predict the appearance of the jet in the receiving chamber and also that this momentum should remain constant throughout the jet. To test this hypothesis, we measured jet area versus driving pressure, flow rate, velocity, orifice area, and momentum and showed that momentum is the optimal jet parameter: jet area = 1.25 (momentum).28, r = 0.989, p less than 0.0001. However, the very curvilinear nature of this function indicated that chamber constraint strongly affected jet area, which limited the ability to predict jet momentum from observed jet area. To circumvent this limitation, we analyzed the velocities per se within the Doppler flow map. For jets formed by 1-81-mm Hg driving pressure through 0.005-0.5-cm2 orifices, the velocity distribution confirmed the fluid dynamic prediction: Gaussian (bell-shaped) profiles across the jet at each level with the centerline velocity decaying inversely with distance from the orifice. Furthermore, momentum was calculated directly from the flow maps, which was relatively constant within the jet and in good agreement with the known jet momentum at the orifice (r = 0.99). Finally, the measured momentum was divided by orifice velocity to yield an accurate estimate of the orifice flow rate (r = 0.99). Momentum was also divided by the square of velocity to yield effective orifice area (r = 0.84). We conclude that momentum is the single jet parameter that best predicts the color area displayed by Doppler flow mapping. Momentum can be measured directly from the velocities within the flow map, and when combined with orifice velocity, momentum provides an accurate estimate of flow rate and orifice area.
Percutaneous mitral balloon valvuloplasty was performed in 150 patients. There were 124 women and 26 men (mean age 53 +/- 1 years). A left to right shunt through the created atrial communication was present in 28 patients (19%) after valvuloplasty. The pulmonary to systemic flow ratio was greater than or equal to 2:1 in 4 patients and less than 2:1 in 24. Univariate predictors of left to right shunting after valvuloplasty included older age (p less than 0.01), lower cardiac output before mitral valvuloplasty (p less than 0.01), higher New York Heart Association functional class before valvuloplasty (p less than 0.05), presence of mitral valve calcification under fluoroscopy (p less than 0.01) and higher echocardiographic score (p less than 0.05). Multiple stepwise logistic regression analysis identified the presence of mitral valve calcification (p less than 0.02) and lower cardiac output (p less than 0.02) as the independent predictors of a left to right shunt through the atrial communication after balloon valvuloplasty. Follow-up (10 +/- 1 months) of patients with an atrial septal defect after valvuloplasty showed that 1) 6 patients died (3 in the hospital and 3 at 2, 16 and 18 months, respectively, after valvuloplasty); 2) an atrial septal defect was demonstrated in 3 of 6 patients who underwent mitral valve replacement (6 +/- 0.8 months after valvuloplasty); and 3) 13 patients were in functional class I, 2 patients were in class II and 1 patient was in class III at 13 +/- 1 months after valvuloplasty.(ABSTRACT TRUNCATED AT 250 WORDS)
A total of 18 male patients with Duchenne muscular dystrophy (DMD), aged 8-29 years (mean, 15.7 years), were prospectively studied to assess the cardiomyopathy associated with DMD, using clinical parameters and noninvasive cardiovascular investigations: electrocardiogram (ECG), Holter monitoring, and echocardiography. In addition, five clinical tests of cardiovascular autonomic function were used to assess the role of the autonomic nervous system in the pathogenesis of dysrhythmias. The majority of subjects were asymptomatic, but four had abnormal physical findings. All had abnormal ECG, the commonest abnormality (in 16) being tall R waves or increased R/S ratios in the right precordial leads; 14 had abnormal findings on echocardiography, including three with poor left ventricular function and five with mitral valve prolapse (MVP). Labile abrupt sinus tachycardia was present in 11, and four had high-grade ventricular ectopy. None had definite clinical evidence of autonomic dysfunction. The cardiomyopathy of DMD appears to be unrelated to disease severity. However, abnormal Q waves or Q/R ratios in ECG leads I, aVL9 and V5-V6 are significantly related to young age (p less than 0.05), and high-grade ventricular ectopy occurred significantly more frequently (p less than 0.05) in older subjects (greater than 15 years). Dysrhythmias were not related to the presence of MVP, poor left ventricular function, or autonomic dysfunction.
The magnitude and spatial distribution of normal leakage through mechanical prosthetic valves were studied in an in vitro model of mitral regurgitation. The effective regurgitant orifice was calculated from regurgitant rate at different transvalvular pressure differences and flow velocities. This effective orifice area was 0.6 to 2 mm2 for three tilting disc prostheses (Medtronic-Hall sizes 21, 25 and 29) and 0.2 to 1.1 mm2 for three bileaflet valves (St. Jude Medical sizes 21, 25 and 33). In the single disc valves, Doppler color flow examination disclosed a prominent central regurgitant jet around the central hole for the strut, accompanied by minor leakage along the rim of the disc (central to peripheral jet area ratio 3.3 +/- 1.2). The bileaflet prostheses showed a peculiar complex pattern: in planes parallel to the two disc axes, convergent peripherally arising jets were visualized, whereas in orthogonal planes several diverging jets were seen. Mounting the disc and bileaflet valves on a water-filled tube allowed reproduction and interpretation of this pattern: for the bileaflet valve, the jets originated predominantly from valve ring protrusions that contained the axis hinge points and created a converging V pattern in planes parallel to the leaflets and a diverging V pattern in orthogonal planes. Similar patterns were observed during transesophageal echocardiography in 20 patients with a normally functioning St. Jude prosthesis. In 10 patients with a Medtronic-Hall valve, a dominant central jet was observed with one or more smaller peripheral jets. The median central to peripheral jet area ratio was 5 to 1.(ABSTRACT TRUNCATED AT 250 WORDS)
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