Left ventricular remodeling impacts the function of the Quattro stentless mitral valve bioprosthesis (a 4-year experience).

OBJECTIVE: The St Jude Quattro stentless mitral valve prosthesis (QMV) is sutured to the mitral annulus and the papillary muscle heads, thereby preserving the subvalvular apparatus. After mitral valve replacement, remodeling of the left ventricle is often observed, causing a dilated ventricle to shrink in diameter. It was our objective to assess these changes in left ventricular (LV) geometry and evaluate its effects on the function of the QMV. METHODS: From September 1997 to October 2000, 24 patients received QMV at our institution. The patients were followed up at yearly intervals (mean 4.1 +/- 2.2 years). All pre- and postoperative echocardiograms were evaluated, with attention focused on the subvalvular apparatus, leaflet morphology, and occurrence of late mitral regurgitation. In addition, all clinical outcomes and valve-related complications were recorded. RESULTS: Forty-one percent of patients (10/24) developed late mitral regurgitation (mild, n = 5; moderate, n = 5). The site of regurgitation was located at the 2 commissures in all cases. In 8 patients, changes in LV diameter had occurred. The point of leaflet coaptation had shifted away from the annulus in 4 patients. The overall mortality was 12.3%, and the postoperative stroke rate was 12.3%. CONCLUSIONS: Midterm changes in LV geometry seem to affect the competence of the QMV. Predicting these changes and subsequently adapting the sizing procedure remain a challenging task. The high rate of late valve incompetence and poor clinical outcomes has prompted us to discontinue recruitment of patients for this trial.

Pericardial patch augmentation for reconstruction of incompetent bicuspid aortic valves.

PURPOSE: Reoperation rates after repair of bicuspid aortic valves are higher than for mitral valve reconstruction. Secondary changes and small coaptation surface render repair unreliable. Satisfactory results have been reported for patch augmentation for tricuspid aortic valves. We have applied this technique for the repair of bicuspid aortic valves. DESCRIPTION: Our technique retains the bicuspid morphology of the incompetent aortic valve. A strip of glutaraldehyde-fixed pericardium is sutured to the free edge of the fused leaflet. A large coaptation surface is created, and competence of the bicuspid valve is achieved. EVALUATION: Sixteen patients underwent reconstruction of their bicuspid aortic valves by pericardial patch augmentation. There were no intraoperative or postoperative deaths. The degree of aortic regurgitation was none to trivial for all patients at a mean follow-up of 3.1 +/- 3.4 months. Planimetric effective orifice areas ranged above 2 cm2. Mean aortic gradients were 8.2 +/- 4.8 mm Hg, and the mean height of coaptation surface was 14.7 +/- 2.1 mm. CONCLUSIONS: The pericardial patch augmentation technique increases coaptation surface, and thus provides reliable early competence of reconstructed bicuspid aortic valves.