School of Clinical Medicine, University of Cambridge, Cambridge, UK.
Department of Urology, Cambridge University Hospitals NHS Foundation Trust, Cambridge, UK.
BJU Int. 2022 Oct;130(4):408-419. doi: 10.1111/bju.15741. Epub 2022 May 15.
To summarise the causes of ureteric damage and the current standard of care, discussing the risks and benefits of available therapeutic options. We then focus on the current and future solutions that can be provided by ureteric bioengineering and provide a description of the ideal characteristics of a bioengineered product.
We performed a literature search in February 2021 in: Google Scholar, Medline, and Web of Science. Three searches were conducted, investigating: (a) the epidemiology of ureteric pathology, (b) the current standard of care, and (c) the state of the art in ureteric bioengineering.
The most-common causes of ureteric damage are iatrogenic injury and external trauma. Current approaches to treatment include stent placement or surgical reconstruction. Reconstruction can be done using either urological tissue or segments of the gastrointestinal tract. Limitations include scarring, strictures, and infections. Several bioengineered alternatives have been explored in animal studies, with variations in the choice of scaffold material, cellular seeding populations, and pre-implantation processing. Natural grafts and hybrid material appear to be associated with superior outcomes. Furthermore, seeding of the scaffold material with stem cells or differentiated urothelial cells allows for better function compared to acellular scaffolds. Some studies have attempted to pre-implant the graft in the omentum prior to reconstruction, but this has yet to prove any definitive benefits.
There is an unmet clinical need for safer and more effective treatment for ureteric injuries. Urological bioengineering is a promising solution in preclinical studies. However, substantial scientific, logistic, and economic challenges must be addressed to harness its transformative potential in improving outcomes.
总结输尿管损伤的原因和当前的治疗标准,讨论现有治疗选择的风险和益处。然后,我们专注于当前和未来的输尿管生物工程解决方案,并描述生物工程产品的理想特征。
我们于 2021 年 2 月在 Google Scholar、Medline 和 Web of Science 中进行了文献检索。进行了三次搜索,调查了:(a) 输尿管病理的流行病学,(b) 当前的治疗标准,和(c) 输尿管生物工程的最新进展。
输尿管损伤最常见的原因是医源性损伤和外部创伤。目前的治疗方法包括支架放置或手术重建。重建可以使用泌尿科组织或胃肠道段进行。局限性包括瘢痕形成、狭窄和感染。已经在动物研究中探索了几种生物工程替代方法,在支架材料的选择、细胞接种群体和植入前处理方面存在差异。天然移植物和混合材料似乎与更好的结果相关。此外,与无细胞支架相比,支架材料中接种干细胞或分化的尿路上皮细胞可实现更好的功能。一些研究试图在重建前将移植物预先植入网膜中,但尚未证明有任何明确的益处。
输尿管损伤的治疗需要更安全、更有效的方法,这存在临床需求未得到满足的情况。泌尿外科生物工程在临床前研究中是一种有前途的解决方案。然而,为了利用其在改善结果方面的变革潜力,必须解决重大的科学、后勤和经济挑战。
