Preserving the V-engine shape of the left ventricle with Melody mitral valve replacement in small children

Tricuspid mechanical valve replacement for severe tricuspid stenosis in a child who underwent surgical correction of complete atrioventricular septal defect, a rare long-term complications

BACKGROUND

Complete atrioventricular septal defect is a complicated congenital heart malformations, and surgical correction is the best treatment, the severe tricuspid stenosis is a rare long-term complication after the surgery.

CASE PRESENTATION

We report a case with the complication of severe tricuspid stenosis 7 years after the surgical correction of complete atrioventricular septal defect in a child. Then the patient underwent tricuspid mechanical valve replacement, Glenn, atrial septostomy, and circumconstriction of the right pulmonary artery.

CONCLUSIONS

The patient recovered successfully with good short-term.

Replacement of the Mitral Valve Under One Year of Age: Size Matters

Surgical management of mitral valve disease in neonates and infants is challenging. When repair is no longer feasible, replacement may become inevitable, but should only be considered as an option of last resort due to the remarkably high rate of associated morbidity and mortality. Mechanical valves are the preferred choice in large annuli, while stented conduits seem promising in smaller ones. In patients with a preoperative mitral valve annulus equal or larger than 15-16 mm, an intra-annular placement of the smallest mechanical valve available should be attempted. In patients with smaller annuli, the placement of a stented valved conduit seems to display a lower mortality risk. Supra-annular implantation of prostheses should be reserved for exceptional cases and to those familiar with this technique because of the high rate of associated complications.

Cylinder mitral and tricuspid valve replacement in neonates and small children

OBJECTIVES

Atrioventricular valve replacement in small children is associated with high morbidity and mortality. There are no prostheses available with a diameter ˂15 mm. This study reports our initial experience with a cylinder valve for mitral and tricuspid valve replacement in infants and small children.

METHODS

Our cylinder valve was hand-made for patients requiring atrioventricuclar valve replacement with an annulus of <15 mm. A 12-mm Contegra valve was prepared and placed inside a 14-mm Gore-Tex tube graft and sutured on both extremities.

RESULTS

Eight patients were included, with a median age of 6.9 months (range 1 day to 38 months). Four had mitral and 4 had tricuspid valve replacement. All implants were technically successful, with no significant regurgitation, no stenosis and no left ventricular outflow tract obstruction. There were 3 early deaths from low cardiac output, in patients with significant associated lesions (severe neonatal Ebstein's, pulmonary artery-intact ventricular septum, biventricular conversion from Norwood stage 1). Two patients required early reintervention: 1 for balloon dilatation for stenosis and 1 for reoperation for paravalvular leak. During follow-up, 2 patients had mitral valve replacement with a 16-mm mechanical valve at 9 and 20 months from the cylinder valve implantation. The remaining 2 patients are alive and well 2 years and 2 months after the procedure.

CONCLUSIONS

Cylinder valve replacement of atrioventricular valves was feasible without any technical issues. It was successful in getting out of a difficult situation and allows for somatic growth and implantation of a reasonably-sized mechanical prosthesis on the annulus.