Use of biomaterials in corneal endothelial repair.

IF 2.3 Q2 OPHTHALMOLOGY
Therapeutic Advances in Ophthalmology Pub Date : 2021-12-23 eCollection Date: 2021-01-01 DOI:10.1177/25158414211058249
Noor Ahmed Hussain, Francisco C Figueiredo, Che J Connon
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引用次数: 5

Abstract

Human corneal endothelium (HCE) is a single layer of hexagonal cells that lines the posterior surface of the cornea. It forms the barrier that separates the aqueous humor from the rest of the corneal layers (stroma and epithelium layer). This layer plays a fundamental role in maintaining the hydration and transparency of the cornea, which in turn ensures a clear vision. In vivo, human corneal endothelial cells (HCECs) are generally believed to be nonproliferating. In many cases, due to their nonproliferative nature, any damage to these cells can lead to further issues with Descemet's membrane (DM), stroma and epithelium which may ultimately lead to hazy vision and blindness. Endothelial keratoplasties such as Descemet's stripping automated endothelial keratoplasty (DSAEK) and Descemet's membrane endothelial keratoplasty (DEK) are the standard surgeries routinely used to restore vision following endothelial failure. Basically, these two similar surgical techniques involve the replacement of the diseased endothelial layer in the center of the cornea by a healthy layer taken from a donor cornea. Globally, eye banks are facing an increased demand to provide corneas that have suitable features for transplantation. Consequently, it can be stated that there is a significant shortage of corneal grafting tissue; for every 70 corneas required, only 1 is available. Nowadays, eye banks face long waiting lists due to shortage of donors, seriously aggravated when compared with previous years, due to the global COVID-19 pandemic. Thus, there is an urgent need to find alternative and more sustainable sources for treating endothelial diseases, such as utilizing bioengineering to use of biomaterials as a remedy. The current review focuses on the use of biomaterials to repair the corneal endothelium. A range of biomaterials have been considered based on their promising results and outstanding features, including previous studies and their key findings in the context of each biomaterial.

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生物材料在角膜内皮修复中的应用。
人角膜内皮(HCE)是排列在角膜后表面的单层六边形细胞。它形成了将房水与其他角膜层(间质层和上皮层)分开的屏障。这一层在维持角膜的水合作用和透明度方面起着至关重要的作用,从而确保清晰的视力。在体内,人类角膜内皮细胞(HCECs)通常被认为是不增殖的。在许多情况下,由于它们的非增殖性,对这些细胞的任何损伤都可能导致Descemet膜(DM)、间质和上皮的进一步问题,最终可能导致视力模糊和失明。内皮角膜移植术,如Descemet剥离自动内皮角膜移植术(DSAEK)和Descemet膜内皮角膜移植术(DEK)是内皮功能衰竭后恢复视力的常规标准手术。基本上,这两种类似的手术技术都是将角膜中心病变的内皮层替换为取自供体角膜的健康层。在全球范围内,眼库正面临着越来越多的需求,需要提供具有适合移植功能的角膜。因此,可以这样说,角膜移植组织明显短缺;每需要70个角膜,只有1个可用。如今,由于全球COVID-19大流行,眼库面临着捐献者短缺的漫长等待名单,与往年相比,这一情况严重恶化。因此,迫切需要寻找治疗内皮疾病的替代和更可持续的来源,例如利用生物工程将生物材料作为一种补救措施。现就生物材料在角膜内皮修复中的应用作一综述。一系列生物材料根据其有希望的结果和突出的特点,包括以前的研究及其在每种生物材料背景下的主要发现,被考虑。
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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来源期刊
CiteScore
4.50
自引率
0.00%
发文量
44
审稿时长
12 weeks
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