Takayuki Kawashima1, Tadashi Umeno1, Takeshi Terazawa2, Tomoyuki Wada1, Takashi Shuto1, Haruto Nishida3, Hirofumi Anai4, Yasuhide Nakayama5, Shinji Miyamoto1. 1. Department of Cardiovascular Surgery, Oita University, Yufu, Oita, Japan. 2. Department of Mechanical Systems Engineering, Aichi University of Technology, Gamagori, Aichi, Japan. 3. Department of Diagnostic Pathology, Oita University, Yufu, Oita, Japan. 4. Clinical Engineering Research Center, Oita University, Yufu, Oita, Japan. 5. Biotube Co., Ltd, Chuo, Tokyo, Japan.
Abstract
OBJECTIVES: Aortic valve neocuspidization has shown satisfactory clinical outcomes; however, autologous pericardium durability is a concern for young patients. This study applied an autologous collagenous membrane (Biosheet®), produced by in-body tissue architecture, to aortic valve neocuspidization and investigated its long-term outcome in a goat model. METHODS: Moulds were embedded subcutaneously in 6 goats. After 2 months, Biosheets formed in the moulds. We performed aortic valve neocuspidization using a portion of the sheets with a thickness of 0.20-0.35 mm, measured by optical coherence tomography. Animals were subjected to echocardiography and histological evaluation at 6 months (n = 3) and 12 months (n = 3). As a control, the glutaraldehyde-treated autologous pericardium was used in 4 goats that were similarly evaluated at 12 months. RESULTS: All animals survived the scheduled period. At 6 months, Biosheets maintained valve function and showed a regeneration response: fusion to the annulus, cell infiltration to the leaflets and appearance of elastic fibres at the ventricular side. After 12 months, the regenerative structure had changed little without regression, and there was negligible calcification in the 1/9 leaflets. However, all cases had one leaflet tear, resulting in moderate-to-severe aortic regurgitation. In the pericardium group, three-fourths of the animals experienced moderate-to-severe aortic regurgitation with a high rate of calcification (9/12 leaflets). CONCLUSIONS: Biosheets may have regeneration potential and anti-calcification properties in contrast to autologous pericardium. However, in order to obtain reliable outcome, further improvements are required to strictly control and optimize its thickness, density and homogeneity.
OBJECTIVES: Aortic valve neocuspidization has shown satisfactory clinical outcomes; however, autologous pericardium durability is a concern for young patients. This study applied an autologous collagenous membrane (Biosheet®), produced by in-body tissue architecture, to aortic valve neocuspidization and investigated its long-term outcome in a goat model. METHODS: Moulds were embedded subcutaneously in 6 goats. After 2 months, Biosheets formed in the moulds. We performed aortic valve neocuspidization using a portion of the sheets with a thickness of 0.20-0.35 mm, measured by optical coherence tomography. Animals were subjected to echocardiography and histological evaluation at 6 months (n = 3) and 12 months (n = 3). As a control, the glutaraldehyde-treated autologous pericardium was used in 4 goats that were similarly evaluated at 12 months. RESULTS: All animals survived the scheduled period. At 6 months, Biosheets maintained valve function and showed a regeneration response: fusion to the annulus, cell infiltration to the leaflets and appearance of elastic fibres at the ventricular side. After 12 months, the regenerative structure had changed little without regression, and there was negligible calcification in the 1/9 leaflets. However, all cases had one leaflet tear, resulting in moderate-to-severe aortic regurgitation. In the pericardium group, three-fourths of the animals experienced moderate-to-severe aortic regurgitation with a high rate of calcification (9/12 leaflets). CONCLUSIONS: Biosheets may have regeneration potential and anti-calcification properties in contrast to autologous pericardium. However, in order to obtain reliable outcome, further improvements are required to strictly control and optimize its thickness, density and homogeneity.
Authors: Sarah Nordmeyer; Peter Murin; Antonia Schulz; Friederike Danne; Johannes Nordmeyer; Johanna Kretzschmar; Daria Sumbadze; Katharina Rose Luise Schmitt; Oliver Miera; Mi-Young Cho; Nicodeme Sinzobahamvya; Felix Berger; Stanislav Ovroutski; Joachim Photiadis Journal: Eur J Cardiothorac Surg Date: 2018-12-01 Impact factor: 4.191
Authors: Adrian H Chester; Ismail El-Hamamsy; Jonathan T Butcher; Najma Latif; Sergio Bertazzo; Magdi H Yacoub Journal: Glob Cardiol Sci Pract Date: 2014-01-29