化学交联角膜组织以减少圆锥角膜患者视力丧失的进展。
Chemical Cross-Linking of Corneal Tissue to Reduce Progression of Loss of Sight in Patients With Keratoconus.
机构信息
Department of Eye and Vision Science, Institute of Life Course and Medical Sciences, University of Liverpool, Liverpool, UK.
Aravind Medical Research Foundation, Madurai, Tamil Nadu, India.
出版信息
Transl Vis Sci Technol. 2021 Apr 29;10(5):6. doi: 10.1167/tvst.10.5.6.
PURPOSE
We aimed to develop a novel chemical cross-linker treatment for keratoconus by reacting dicarboxylic acid spacer molecules and amine functional groups on protein structure of the tissue using carbodi-imide chemistry. We propose this as an alternative to conventional cross-linking treatment for keratoconus.
METHODS
The study involved optimization of the cross-linker formulation. Mechanical stiffness of ex vivo porcine and human corneas after application of the cross-linker was measured. Histochemical analysis was performed to record changes in gross morphology after cross-linker treatment on ex vivo porcine and human and in vivo rabbit corneas. Terminal deoxynucleotidyl transferase-mediated dUTP-X nick-end-labeling (TUNEL) staining was performed to study apoptotic effects of cross-linker. Cytotoxicity potential of cross-linker was evaluated by studying explant cultures for cellular outgrowth and immunostaining assays on porcine and human corneas after treatment.
RESULTS
We demonstrated a clinically relevant increase in stiffness in ex vivo experiments using porcine and human cornea without removal of corneal epithelium. Histological analysis showed no change in gross morphology of cornea and no evidence of apoptosis. In vivo treatment of rabbit eyes demonstrated initial thinning of corneal epithelium that recovered after seven days although with abnormal regularity of cells. Cellular outgrowth from corneal explant cultures after treatment further confirmed cell survival after treatment.
CONCLUSIONS
This chemical cross-linking of corneal tissue has potential advantages over current therapeutic options including lower cytotoxicity to stromal cells than ultraviolet A treatment.
TRANSLATIONAL RELEVANCE
The cross-linker has potential to become a treatment for keratoconus because it overcomes the need for procedures using specialized equipment and ensures accessibility to large populations.
目的
我们旨在通过使用碳化二亚胺化学将二羧酸间隔分子和组织中蛋白质结构上的胺官能团反应,开发一种用于圆锥角膜的新型化学交联剂治疗方法。我们建议将其作为圆锥角膜常规交联治疗的替代方法。
方法
本研究涉及交联剂配方的优化。应用交联剂后,离体猪和人眼角膜的机械硬度得到测量。对离体猪和人眼角膜以及体内兔眼角膜进行交联处理后的大体形态变化进行组织化学分析。通过末端脱氧核苷酸转移酶介导的 dUTP-X 缺口末端标记(TUNEL)染色研究交联剂的凋亡作用。通过研究细胞外植体培养物中的细胞外生和猪眼角膜和人眼角膜的免疫染色测定,评估交联剂的细胞毒性潜力。
结果
我们在不去除角膜上皮的情况下,使用猪和人眼角膜进行了离体实验,证明了硬度有临床相关的增加。组织学分析显示角膜大体形态没有变化,也没有凋亡的证据。兔眼的体内治疗显示角膜上皮的初始变薄,但在七天后恢复,尽管细胞的排列异常。治疗后角膜外植体培养物中的细胞外生进一步证实了治疗后的细胞存活。
结论
与当前的治疗选择相比,这种角膜组织的化学交联具有潜在的优势,包括对基质细胞的细胞毒性低于紫外线 A 治疗。
翻译
张婷
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