一种用于尿道重建的内皮化尿路上皮细胞种植管状移植物。
An endothelialized urothelial cell-seeded tubular graft for urethral replacement.
作者信息
Imbeault Annie, Bernard Geneviève, Rousseau Alexandre, Morissette Amélie, Chabaud Stéphane, Bouhout Sara, Bolduc Stéphane
机构信息
Département de Chirurgie, Faculté de Médecine, Université Laval, Québec, QC;
出版信息
Can Urol Assoc J. 2013 Jan-Feb;7(1-2):E4-9. doi: 10.5489/cuaj.12217.
INTRODUCTION
Many efforts are used to improve surgical techniques and graft materials for urethral reconstruction. We developed an endothelialized tubular structure for urethral reconstruction.
METHODS
Two tubular models were created in vitro. Human fibroblasts were cultured for 4 weeks to form fibroblast sheets. Then, endothelial cells (ECs) were seeded on the fibroblast sheets and wrapped around a tubular support to form a cylinder for the endothelialized tubular urethral model (ET). No ECs were added in the standard tubular model (T). After 21 days of maturation, urothelial cells were seeded into the lumen of both models. Constructs were placed under perfusion in a bioreactor for 1 week. At several times, histology and immunohistochemistry were performed on grafted nude mice to evaluate the impact of ECs on vascularization.
RESULTS
Both models produced an extracellular matrix, without exogenous material, and developed a pseudostratified urothelium. Seven days after the graft, mouse red blood cells were present only in the outer layers in T model, but in the full thickness of ET model. After 14 days, erythrocytes were present in both models, but in a greater proportion in ET model. At day 28, both models were well-vascularized, with capillary-like structures in the whole thickness of the tubes.
CONCLUSION
Incorporating endothelial cells was associated with an earlier vascularization of the grafts, which could decrease the necrosis of the transplanted tissue. As those models can be elaborated with the patient's cells, this tubular urethral graft would be unique in its autologous property.
引言
人们为改进尿道重建的手术技术和移植物材料付出了诸多努力。我们研发了一种用于尿道重建的内皮化管状结构。
方法
在体外构建了两种管状模型。将人成纤维细胞培养4周以形成成纤维细胞片。然后,将内皮细胞接种到成纤维细胞片上,并围绕管状支撑物包裹形成圆柱体,用于构建内皮化管状尿道模型(ET)。在标准管状模型(T)中未添加内皮细胞。成熟21天后,将尿路上皮细胞接种到两种模型的管腔内。构建物置于生物反应器中进行灌注培养1周。在多个时间点,对移植到裸鼠体内的样本进行组织学和免疫组织化学检测,以评估内皮细胞对血管化的影响。
结果
两种模型均在无外源性材料的情况下产生了细胞外基质,并形成了假复层尿路上皮。移植7天后,小鼠红细胞仅出现在T模型的外层,但在ET模型的全层均有出现。14天后,两种模型中均有红细胞存在,但ET模型中的比例更高。在第28天,两种模型均实现了良好的血管化,管的全层均有毛细血管样结构。
结论
加入内皮细胞与移植物更早的血管化相关,这可以减少移植组织的坏死。由于这些模型可以用患者自身的细胞构建,这种管状尿道移植物在自体特性方面将是独一无二的。
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