The feasibility of ureteral tissue engineering using autologous veins: an orthotopic animal model with long term results.

Oliver Engel, Robert de Petriconi, Björn G Volkmer, Kilian M Gust, Jens Mani, Axel Haferkamp, Richard E Hautmann, Georg Bartsch
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引用次数: 8

Abstract

Background: In an earlier study we demonstrated the feasibility to create tissue engineered venous scaffolds in vitro and in vivo. In this study we investigated the use of tissue engineered constructs for ureteral replacement in a long term orthotopic minipig model. In many different projects well functional ureretal tissue was established using tissue engineering in animals with short-time follow up (12 weeks). Therefore urothelial cells were harvested from the bladder, cultured, expanded in vitro, labelled with fluorescence and seeded onto the autologous veins, which were harvested from animals during a second surgery. Three days after cell seeding the right ureter was replaced with the cell-seeded matrices in six animals, while further 6 animals received an unseeded vein for ureteral replacement. The animals were sacrificed 12, 24, and 48 weeks after implantation. Gross examination, intravenous pyelogram (IVP), H&E staining, Trichrome Masson's Staining, and immunohistochemistry with pancytokeratin AE1/AE3, smooth muscle alpha actin, and von Willebrand factor were performed in retrieved specimens.

Results: The IVP and gross examination demonstrated that no animals with tissue engineered ureters and all animals of the control group presented with hydronephrosis after 12 weeks. In the 24-week group, one tissue engineered and one unseeded vein revealed hydronephrosis. After 48 weeks all tissue engineered animals and none of the control group showed hydronephrosis on the treated side. Histochemistry and immunohistochemistry revealed a multilayer of urothelial cells attached to the seeded venous grafts.

Conclusions: Venous grafts may be a potential source for ureteral reconstruction. The results of so far published ureteral tissue engineering projects reveal data up to 12 weeks after implantation. Even if the animal numbers of this study are small, there is an increasing rate of hydronephrosis revealing failure of ureteral tissue engineering with autologous matrices in time points longer than 3 months after implantation. Further investigations have to prove adequate clinical outcome and appropriate functional long-term results.

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利用自体静脉进行输尿管组织工程的可行性:具有长期效果的原位动物模型。
背景:在早期的研究中,我们证明了在体外和体内制造组织工程静脉支架的可行性。在这项研究中,我们研究了组织工程构建体在长期原位迷你猪输尿管置换中的应用。在许多不同的项目中,利用组织工程技术在短时间随访(12周)的动物身上建立了功能良好的输尿管组织。因此,从膀胱中采集尿路上皮细胞,在体外培养、扩增,用荧光标记,然后植入在第二次手术中从动物身上采集的自体静脉中。细胞播种3天后,6只动物用细胞种子基质代替右输尿管,另外6只动物用未播种的静脉代替输尿管。植入后12、24、48周处死。对检索到的标本进行大体检查、静脉肾盂造影(IVP)、H&E染色、三色马松染色、全细胞角蛋白AE1/AE3、平滑肌α -肌动蛋白和血管性血友病因子的免疫组化。结果:IVP和肉眼检查显示,12周后,输尿管组织工程化组动物无肾积水,对照组动物无肾积水。在24周组中,一个组织工程静脉和一个非种子静脉显示肾积水。48周后,所有组织工程动物和对照组均未出现治疗侧肾积水。组织化学和免疫组织化学显示,静脉移植物上有多层尿路上皮细胞附着。结论:静脉移植物可能是输尿管重建的一个潜在来源。迄今为止发表的输尿管组织工程项目的结果显示了植入后12周的数据。即使本研究的动物数量较少,在植入后超过3个月的时间点上,肾盂积水的发生率也在增加,这表明自体基质输尿管组织工程失败。进一步的研究必须证明足够的临床结果和适当的功能长期结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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