Does valve size impact hemodynamic, left ventricular mass regression, and prosthetic valve deterioration with a sutureless aortic valve?

Objective: To assess the mid-term clinical outcomes, hemodynamics, left ventricular (LV) mass regression, and structural valve deterioration (SVD) in patients implanted with the Perceval aortic sutureless valve across valve sizes.

Methods: Data were obtained from a multicenter European trial and a US Investigational Device Exemption trial. Echocardiography data were analyzed by an echocardiography core lab. A mixed-effects regression model was used to assess relationships between hemodynamic outcomes, time from the procedure, and valve sizes. The Valve Academic Research Consortium (VARC)-3 definition for bioprosthetic valve failure was applied.

Results: A Perceval sutureless valve was implanted in 970 patients. The median patient age was 77.8 years, 57.2% were female, the median Society of Thoracic Surgeons predicated risk of mortality was 3.3% (range, 2.1%-6.2%), and 33.4% had a concomitant procedure. The median clinical follow-up was 45.7 months (range, 28.2-76.1 months). Small and medium valves were implanted more commonly in women than in men (16.9% vs 1.9% for small and 55.1% vs 19.5% for medium; P < .001). The mean aortic valve gradients decreased significantly postimplantation and remained stable across all valve sizes throughout the follow-up period. All patients were free from severe patient-prosthesis mismatch (with an effective orifice area/m² of >0.8). Significant LV mass regression was documented regardless valve sizes, plateaued at -9.1% at 5 years. Freedom from SVD and reintervention were 95.2% and 96.3%, respectively, at 5 years and were independent of implanted valve size (P = .22). The VARC-3 stage 3 bioprosthetic valve failure rate was low, 2.8% at 5 years.

Conclusions: The Perceval valve demonstrated low and stable mean gradients, significant LV mass regression, and low SVD and reintervention rates across all valve sizes.