[Principles of corneal cross-linking : Presentation based on the development of the various treatment protocols].

4区医学 Q3 Medicine Ophthalmologe Pub Date : 2022-04-01 Epub Date: 2021-12-09 DOI:10.1007/s00347-021-01538-7

Janine Lenk, Robert Herber, Frederik Raiskup, Lutz E Pillunat, Eberhard Spörl

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Abstract

Background: Corneal cross-linking (CXL) is used to treat corneal ectatic diseases. The aim is to improve the reduced consolidation of the cornea in order to halt further corneal protrusion and therefore subsequent deterioration of the optical imaging proportions.

Material and methods: In this article the principles of corneal cross-linking based on riboflavin and UV light are presented including recent research results. Furthermore, the most important treatment protocols including standard CXL (S-CXL), accelerated CXL (A-CXL), transepithelial CXL (TE-CXL) and the approach of the CXL procedure for thin corneas are explained.

Results: The CXL method depends on four major components, the riboflavin solution, oxygen, UV light and the availability of cross-linking sites on the collagen tissue. According to the present state of knowledge, the photochemical process of the CXL method induces covalent bonds between the fibrils and proteoglycans and thus stabilizes the collagen fibers, resulting in corneal consolidation. In addition to the S‑CXL, which has proven its effectiveness and safety in a large number of studies, there are other treatment protocols that have been developed based on the Bunsen-Roscoe law of reciprocity. The A‑CXL protocol has the advantage of having a shorter irradiation time but it seems to be less effective than the S‑CXL protocol concerning the increase in corneal stiffness. The use of TE-CXL has so far not yet gained acceptance in the clinical practice.

Conclusion: The CXL procedures primarily aim to stabilize the cornea. In the future, in addition to stabilization of the cornea, simultaneous improvement of visual acuity will be the main focus.

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角膜交联的原理:基于各种治疗方案发展的介绍。

背景:角膜交联(CXL)用于治疗角膜膨胀性疾病。目的是改善减少实变的角膜，以阻止进一步的角膜突出，因此随后的光学成像比例恶化。材料与方法:本文介绍了核黄素与紫外光的角膜交联原理及近年来的研究成果。此外，还解释了最重要的治疗方案，包括标准CXL (S-CXL)、加速CXL (A-CXL)、经上皮CXL (TE-CXL)和薄角膜CXL手术的方法。结果:CXL法依赖于核黄素溶液、氧、紫外光和胶原组织上交联位点的可用性四个主要成分。根据目前的知识，CXL方法的光化学过程诱导原纤维和蛋白聚糖之间的共价键，从而稳定胶原纤维，导致角膜凝固。除了已在大量研究中证明其有效性和安全性的S - CXL之外，还有基于本森-罗斯科互惠定律开发的其他治疗方案。A - CXL方案的优点是照射时间较短，但在角膜硬度增加方面似乎不如S - CXL方案有效。TE-CXL的使用至今尚未在临床实践中得到认可。结论:CXL手术的主要目的是稳定角膜。在未来，除了稳定角膜，同时提高视力将是主要的焦点。

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

Ophthalmologe 医学-眼科学

CiteScore

1.80

自引率

0.00%

发文量

审稿时长

4-8 weeks

期刊介绍： Der Ophthalmologe is an internationally recognized journal dealing with all aspects of ophthalmology. The journal serves both the scientific exchange and the continuing education of ophthalmologists. Freely submitted original papers allow the presentation of important clinical studies and serve scientific exchange. Case reports feature interesting cases and aim at optimizing diagnostic and therapeutic strategies. Comprehensive reviews on a specific topical issue focus on providing evidenced based information on diagnostics and therapy. Review articles under the rubric ''Continuing Medical Education'' present verified results of scientific research and their integration into daily practice.