OBJECTIVES: Aortic valve construction using pericardial tissue has been known since the late 1960s. The procedure was re-introduced by Ozaki in 2010 and is currently used to treat specific aortic valve diseases. The exact sizing of the neo-cusps and the insertion of the commissures remain the keys to success when performing this procedure. We evaluated our experience using modified custom-made templates. METHODS: In this prospective single-centre study, we evaluated 52 consecutive patients who underwent aortic valve construction between September 2015 and March 2017 using either autologous (16 patients, 30.8%) or tissue-engineered pericardium (36 patients, 69.2%). Most patients (34, 65.4%) presented with aortic stenosis or endocarditis (5, 9.6%). Twenty patients had bicuspid and 5 had unicuspid valves. A modified sizing technique with specially designed templates was used. The primary end point was early death; the secondary end points were major adverse cardiac and cerebrovascular events, freedom from reoperation and overall mortality rate. Echocardiographic follow-up was performed intraoperatively and at 12-month intervals. RESULTS: The mean age was 60 ± 14 years; 63.5% were men; and 34 (65.4%) patients had combined procedures. The mean cross-clamp time was 99 ± 17 min. Early outcomes included 1 stroke, 2 patients needing short-term dialysis and 1 death. During follow-up (mean 11.2 ± 4.8 months), trace aortic regurgitation was observed in 4 patients; the mean pressure gradient was 6.8 ± 2.9 mmHg. Three patients died later (of non-cardiac reasons), and 5 patients needed reoperation due to endocarditis. CONCLUSIONS: Aortic valve construction using pericardial tissue could be an alternative in middle-age patients presenting with aortic valve disease in whom valve repair was not possible. The newly designed templates allow exact sizing of the neo-cusps and optimal commissure implantation; however, long-term follow-up in a larger cohort is warranted to assess the durability of the neo-valves.
OBJECTIVES: Aortic valve construction using pericardial tissue has been known since the late 1960s. The procedure was re-introduced by Ozaki in 2010 and is currently used to treat specific aortic valve diseases. The exact sizing of the neo-cusps and the insertion of the commissures remain the keys to success when performing this procedure. We evaluated our experience using modified custom-made templates. METHODS: In this prospective single-centre study, we evaluated 52 consecutive patients who underwent aortic valve construction between September 2015 and March 2017 using either autologous (16 patients, 30.8%) or tissue-engineered pericardium (36 patients, 69.2%). Most patients (34, 65.4%) presented with aortic stenosis or endocarditis (5, 9.6%). Twenty patients had bicuspid and 5 had unicuspid valves. A modified sizing technique with specially designed templates was used. The primary end point was early death; the secondary end points were major adverse cardiac and cerebrovascular events, freedom from reoperation and overall mortality rate. Echocardiographic follow-up was performed intraoperatively and at 12-month intervals. RESULTS: The mean age was 60 ± 14 years; 63.5% were men; and 34 (65.4%) patients had combined procedures. The mean cross-clamp time was 99 ± 17 min. Early outcomes included 1 stroke, 2 patients needing short-term dialysis and 1 death. During follow-up (mean 11.2 ± 4.8 months), trace aortic regurgitation was observed in 4 patients; the mean pressure gradient was 6.8 ± 2.9 mmHg. Three patients died later (of non-cardiac reasons), and 5 patients needed reoperation due to endocarditis. CONCLUSIONS: Aortic valve construction using pericardial tissue could be an alternative in middle-age patients presenting with aortic valve disease in whom valve repair was not possible. The newly designed templates allow exact sizing of the neo-cusps and optimal commissure implantation; however, long-term follow-up in a larger cohort is warranted to assess the durability of the neo-valves.
Authors: Maria von Stumm; Tatjana Sequeira-Gross; Johannes Petersen; Shiho Naito; Lisa Müller; Christoph Sinning; Evaldas Girdauskas Journal: Cardiovasc Diagn Ther Date: 2021-04
Authors: Gregory Khatchatourov; Mathieu van Steenberghe; Doris Goy; Mathieu Potin; Javier Orrit; François Perret; Nicolas Murith; Jean-Jacques Goy Journal: JTCVS Open Date: 2021-08-26
Authors: Michel Pompeu Barros Oliveira Sá; Álvaro M Perazzo; Konstantin Zhigalov; Roman Komarov; Bakytbek Kadyraliev; Soslan Enginoev; Jürgen Ennker; Aron Frederik Popov; Cesare Quarto; Alexander Weymann; Ricardo Carvalho Lima Journal: Braz J Cardiovasc Surg Date: 2019-12-01