Three-Month Outcomes of Aortic Valve Reconstruction Using Collagenous Membranes (Biosheets) Produced by in Body Tissue Architecture in A Goat Model: A Preliminary Study [post]

Keitaro Okamoto, Tadashi Umeno, Tomoyuki Wada, Takashi Shuto, Hirofumi Anai, Haruto Nishida, Yasuhide Nakayama, Shinji Miyamoto
2020 unpublished
Background: Autologous pericardium is widely used as a plastic material in intracardiac structures, in the pulmonary artery, and in aortic valve leaflets. For aortic valve reconstruction (AVRec) using the Ozaki procedure, it has produced excellent clinical results within a 10-year period. In-body tissue architecture (iBTA), which is based on the phenomenon of tissue encapsulation of foreign materials, can be used to prepare autologous prosthetic tissues. In this preliminary study, we examined
more » ... ether biosheets can be used as valve leaflet material for glutaraldehyde-free AVRec by subchronic implantation experiments in goats and evaluated its performance compared with glutaraldehyde-treated autologous pericardium for AVRec. Methods: Biosheets were prepared by embedding molds for two months into the dorsal subcutaneous spaces of goats. Allogenic biosheets (n=4) cut into the shape of the valve were then implanted to the aortic valve annulus of four goats for three months without glutaraldehyde treatment. Autologous pericardium (n=4) was used as a control. Valve function was observed using echocardiography. Results: All goats survived the three-month study period. In biosheets, the leaflet surfaces were very smooth and, on histology, partially covered with a thin neointima (including endothelial cells). Biosheets were more thoroughly assimilated into the aortic root compared with autologous pericardium.Conclusions: For the first time, biosheets could be used for large animal AVRec without glutaraldehyde fixation. In this limited preliminary study, it was found that biosheets had superior engraftment and regeneration performance as an aortic valve leaflet material compared with autologous pericardium.
doi:10.21203/rs.3.rs-105784/v1 fatcat:npmac45ynfgv7c76pns5qfl37i