Department of Cardiovascular Diseases, University of Leuven, Leuven, Belgium.
Department of Cardiovascular Diseases, University of Leuven, Leuven, Belgium.
J Thorac Cardiovasc Surg. 2014 Apr;147(4):1398-1404.e2. doi: 10.1016/j.jtcvs.2013.06.022. Epub 2013 Jul 26.
This study assesses the performance and cellular features of decellularized ovine aortic homografts coated with stromal cell-derived factor-1α (SDF-1α) and its natural linker, fibronectin (FN), after implantation in the right ventricular outflow tract of adolescent sheep.
Right ventricular outflow tract reconstructions using cryopreserved (n = 7), decellularized (n = 8), and decellularized FN/SDF-1α-coated aortic ovine homografts (n = 6) were performed. Echocardiographic, morphologic, radiographic, histologic, and immunohistochemical examinations were performed 5 months after implantation.
There were no hemodynamic differences between groups, except for the decellularized homografts' tendency to develop more valve regurgitation (3 of 8 grafts had regurgitation >2/4). All decellularized, but coated, grafts had normal hemodynamics. Decellularized valve conduits were less calcified than cryopreserved conduits (P < .05), but coated valve conduits were free of calcification (P < .05). The same was found for pannus in the outflow parts. Immune response (CD45(+), CD45R(+), or CD11b(+) cells) was decreased in decellularized valves compared with cryopreserved grafts, but was virtually absent (P < .05) in coated grafts. Collagen organization and density in the leaflets and walls were decreased in cryopreserved and decellularized valves, but not in coated valves (P < .05). Coating improved re-endothelialization (P < .05).
Coating of decellularized allografts with FN/SDF-1α prevents cryopreserved heart valve-mediated immune response, conduit calcification, and pannus formation and stimulates re-endothelialization.
本研究评估了包被基质细胞衍生因子-1α(SDF-1α)及其天然连接蛋白纤维连接蛋白(FN)的脱细胞绵羊主动脉同种移植物在青少年羊右心室流出道植入后的性能和细胞特征。
使用冷冻保存(n=7)、脱细胞(n=8)和脱细胞 FN/SDF-1α 涂层的主动脉绵羊同种移植物(n=6)进行右心室流出道重建。植入后 5 个月进行超声心动图、形态学、影像学、组织学和免疫组织化学检查。
除脱细胞同种移植物有更倾向于发展为 2/4 以上的反流(8 个移植物中有 3 个)外,各组间血流动力学无差异。所有脱细胞但涂层的移植物血流动力学均正常。脱细胞瓣膜导管比冷冻保存导管钙化程度低(P<0.05),但涂层瓣膜导管无钙化(P<0.05)。流出道部分的血管翳也是如此。与冷冻保存移植物相比,脱细胞瓣膜中的免疫反应(CD45(+)、CD45R(+)或 CD11b(+)细胞)减少,但涂层移植物中的免疫反应几乎不存在(P<0.05)。冷冻保存和脱细胞瓣膜中的瓣叶和瓣壁胶原组织和密度减少,但涂层瓣膜中无减少(P<0.05)。涂层可改善再内皮化(P<0.05)。
FN/SDF-1α 涂层脱细胞同种移植物可防止冷冻保存心脏瓣膜介导的免疫反应、导管钙化和血管翳形成,并刺激再内皮化。
