Zahra Mosala Nezhad1, Laurent de Kerchove1, Jawad Hechadi1, Saadallah Tamer1, Munir Boodhwani2, Alain Poncelet1, Philippe Noirhomme1, Jean Rubay1, Gebrine El Khoury3. 1. Division of Cardiothoracic and Vascular Surgery, Université Catholique de Louvain, Cliniques Universitaires Saint-Luc, Brussels, Belgium. 2. University of Ottawa Heart Institute, Ottawa, ONT, Canada. 3. Division of Cardiothoracic and Vascular Surgery, Université Catholique de Louvain, Cliniques Universitaires Saint-Luc, Brussels, Belgium gebrine.elkhoury@uclouvain.be elkhoury@chir.ucl.ac.be.
Abstract
OBJECTIVES: To analyse the long-term outcomes of aortic valve (AV) repair with biological patch in patient with non-rheumatic valve disease. METHODS: From 1995 to 2011, 554 patients underwent elective (AV) repair; among them, 57 (mean age 45 ± 17 years) had cusp restoration using patch for non-rheumatic valve disease. Seven (12%) patients had unicuspid valve, 30 (53%) patients had bicuspid valve and 20 (35%) had tricuspid valve. Autologous pericardium was used in 26 patients (7 treated, 19 non-treated), bovine pericardium in 26, autologous tricuspid valve leaflet in 4 and aortic homograft cusp in 1. Patching was used to repair perforation (n = 20, 35%), commissural defect (n = 18, 32%), raphe repair (n = 17, 30%) or for cusp extension (n = 2, 3.5%). Echocardiographic and clinical follow-up was 98% complete and mean follow-up was 72 ± 42.5 months. RESULTS: No hospital mortality. At 8 years, overall survival was 90 ± 5% and freedom from valve-related death was 96 ± 3%. Two patients (3.5%) needed early reoperation for aortic regurgitation (AR); they underwent re-repair and the Ross procedure, respectively. Late reoperation was necessary in 9 patients (16%) for AR (n = 4), stenosis (n = 3) or mixed disease (n = 2). They had the Ross procedure (n = 6) or prosthetic valve replacement (n = 3) with no mortality. At 8 years, freedom from reoperation was 75 ± 9%. Freedom from reoperation was slightly higher in tricuspid compared with non-tricuspid valves (92 ± 7 vs 68 ± 11%, P = 0.18) and slightly higher for bovine (95 ± 5%) compared with autologous pericardium (73 ± 11%, P = 0.38), but differences were statistically not significant. In tricuspid valves, freedom from reoperation was higher in perforation repair compared with other techniques (100 vs 50 ± 35%, P = 0.02). In bicuspid valves, freedom from reoperation was similar between different repair techniques (P = 0.38). Late echocardiography showed AR 0-1 in 30 (53%) patients, AR 2 in 12 (21%) and no AR ≥ 3. Three patients presented a mean transvalvular gradient of 30-40 mmHg. Thromboembolic events occurred in 2 patients (0.6%/patient-year), bleeding events in 1 (0.3% /patient-year) and no endocarditis occurred. CONCLUSIONS: AV repair with biological patch is feasible for various aetiologies. The techniques are safe and medium-term durability is acceptable, even excellent for perforation repair in tricuspid valve morphology. Bovine pericardium is a good alternative to autologous pericardium.
OBJECTIVES: To analyse the long-term outcomes of aortic valve (AV) repair with biological patch in patient with non-rheumatic valve disease. METHODS: From 1995 to 2011, 554 patients underwent elective (AV) repair; among them, 57 (mean age 45 ± 17 years) had cusp restoration using patch for non-rheumatic valve disease. Seven (12%) patients had unicuspid valve, 30 (53%) patients had bicuspid valve and 20 (35%) had tricuspid valve. Autologous pericardium was used in 26 patients (7 treated, 19 non-treated), bovine pericardium in 26, autologous tricuspid valve leaflet in 4 and aortic homograft cusp in 1. Patching was used to repair perforation (n = 20, 35%), commissural defect (n = 18, 32%), raphe repair (n = 17, 30%) or for cusp extension (n = 2, 3.5%). Echocardiographic and clinical follow-up was 98% complete and mean follow-up was 72 ± 42.5 months. RESULTS: No hospital mortality. At 8 years, overall survival was 90 ± 5% and freedom from valve-related death was 96 ± 3%. Two patients (3.5%) needed early reoperation for aortic regurgitation (AR); they underwent re-repair and the Ross procedure, respectively. Late reoperation was necessary in 9 patients (16%) for AR (n = 4), stenosis (n = 3) or mixed disease (n = 2). They had the Ross procedure (n = 6) or prosthetic valve replacement (n = 3) with no mortality. At 8 years, freedom from reoperation was 75 ± 9%. Freedom from reoperation was slightly higher in tricuspid compared with non-tricuspid valves (92 ± 7 vs 68 ± 11%, P = 0.18) and slightly higher for bovine (95 ± 5%) compared with autologous pericardium (73 ± 11%, P = 0.38), but differences were statistically not significant. In tricuspid valves, freedom from reoperation was higher in perforation repair compared with other techniques (100 vs 50 ± 35%, P = 0.02). In bicuspid valves, freedom from reoperation was similar between different repair techniques (P = 0.38). Late echocardiography showed AR 0-1 in 30 (53%) patients, AR 2 in 12 (21%) and no AR ≥ 3. Three patients presented a mean transvalvular gradient of 30-40 mmHg. Thromboembolic events occurred in 2 patients (0.6%/patient-year), bleeding events in 1 (0.3% /patient-year) and no endocarditis occurred. CONCLUSIONS: AV repair with biological patch is feasible for various aetiologies. The techniques are safe and medium-term durability is acceptable, even excellent for perforation repair in tricuspid valve morphology. Bovine pericardium is a good alternative to autologous pericardium.
Authors: Paolo Poggio; Laura Cavallotti; Paola Songia; Alessandro Di Minno; Pasquale Ambrosino; Liborio Mammana; Alessandro Parolari; Francesco Alamanni; Elena Tremoli; Matteo Nicola Dario Di Minno Journal: J Am Heart Assoc Date: 2016-05-18 Impact factor: 5.501