飞秒激光切割人晶状体囊膜及去细胞化用于角膜内皮生物工程

Femtosecond Laser Cutting of Human Crystalline Lens Capsule and Decellularization for Corneal Endothelial Bioengineering.

作者信息

Ben Moussa Olfa, Parveau Louise, Aouimeur Inès, Egaud Grégory, Maurin Corantin, Fraine Sofiane, Urbaniak Sébastien, Perrache Chantal, He Zhiguo, Xxx Sedao, Dorado Cortez Oliver, Poinard Sylvain, Mauclair Cyril, Gain Philippe, Thuret Gilles

机构信息

Laboratory Biology, Engineering and Imaging for Ophthalmology, BiiO, Faculty of Medicine, Health Innovation Campus, Jean Monnet University, 10 Rue de la Marandière, 42270 Saint-Priest-en-Jarez, France.

GIE Manutech-USD, 18 Rue Professeur Benoît Lauras, 42000 Saint-Etienne, France.

出版信息

Bioengineering (Basel). 2024 Mar 5;11(3):255. doi: 10.3390/bioengineering11030255.

DOI:10.3390/bioengineering11030255

PMID:38534529

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10968626/

Abstract

The bioengineering of corneal endothelial grafts consists of seeding in vitro cultured corneal endothelial cells onto a thin, transparent, biocompatible, and sufficiently robust carrier which can withstand surgical manipulations. This is one of the most realistic alternatives to donor corneas, which are in chronic global shortage. The anterior capsule of the crystalline lens has already been identified as one of the best possible carriers, but its challenging manual preparation has limited its use. In this study, we describe a femtosecond laser cutting process of the anterior capsule of whole lenses in order to obtain capsule discs of 8 mm diameter, similar to conventional endothelial grafts. Circular marks made on the periphery of the disc indicate its orientation. Immersion in water for 3 days is sufficient to completely remove the lens epithelial cells and to enable the seeding of corneal endothelial cells, which remain viable after 27 days of culture. Therefore, this method provides a transparent, decellularized disc ready to form viable tissue engineered endothelial grafts.

摘要

角膜内皮移植片的生物工程包括将体外培养的角膜内皮细胞接种到一种薄的、透明的、生物相容性好且足够坚固的载体上，该载体能够承受手术操作。这是供体角膜的最现实替代方案之一，而全球范围内供体角膜长期短缺。晶状体前囊已被确定为最佳的可能载体之一，但其具有挑战性的手工制备限制了其应用。在本研究中，我们描述了一种对完整晶状体前囊进行飞秒激光切割的过程，以获得直径8毫米的囊盘，类似于传统的内皮移植片。在盘的周边制作的圆形标记表明其方向。在水中浸泡3天足以完全去除晶状体上皮细胞，并能够接种角膜内皮细胞，这些细胞在培养27天后仍保持活力。因此，该方法提供了一个透明的、去细胞化的盘，可用于形成有活力的组织工程化内皮移植片。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a259/10968626/5caab3a87573/bioengineering-11-00255-g001.jpg

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Femtosecond Laser Cutting of Human Crystalline Lens Capsule and Decellularization for Corneal Endothelial Bioengineering.飞秒激光切割人晶状体囊膜及去细胞化用于角膜内皮生物工程

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飞秒激光切割人晶状体囊膜及去细胞化用于角膜内皮生物工程

Femtosecond Laser Cutting of Human Crystalline Lens Capsule and Decellularization for Corneal Endothelial Bioengineering.

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