Wollensak Gregor, Iomdina Elena
Eye Laser Center, Department of Ophthalmology, Martin-Luther-University, Halle, Germany.
Acta Ophthalmol. 2009 Feb;87(1):48-51. doi: 10.1111/j.1755-3768.2008.01190.x. Epub 2008 Jun 11.
Photodynamic riboflavin/ultraviolet-A (UVA)-induced collagen cross-linking, which increases the biomechanical stiffness of the human cornea by about 300%, has been introduced recently as a possible treatment for progressive keratoconus. The present study was undertaken to evaluate the longterm biomechanical effects of this new cross-linking treatment as a necessary prerequisite to its clinical success.
The corneas of the left eyes of nine male rabbits were cross-linked. The contralateral eyes served as controls. After removal of the central 7 mm of the epithelium, the corneas were treated with the photosensitizer riboflavin and UVA irradiation for 30 mins with an irradiance of 3 mW/cm(2) using a 370-nm UVA double diode. Groups of three animals were killed immediately after treatment and at 3 and 8 months, respectively. Biomechanical stress-strain measurements were performed using a microcomputer-controlled biomaterial tester on 4 x 10-mm corneal strips.
Corneal thickness in the treated rabbit cornea was 408 +/- 20 microm. A constant and significant increase in ultimate stress (of 69.7-106.0%), Young's modulus of elasticity (of 78.4-87.4%) and a decrease in ultimate strain (of 0.57-78.4%) were found over a time period of up to 8 months after cross-linking treatment.
Riboflavin/UVA-induced collagen cross-linking leads to a longterm increase in biomechanical rigidity which remains stable over time. These data support our previous longterm clinical observations and give hope that this new treatment will halt progressive keratoconus definitively.
光动力核黄素/紫外线A(UVA)诱导的胶原交联可使人类角膜的生物力学硬度增加约300%,最近已被引入作为进行性圆锥角膜的一种可能治疗方法。本研究旨在评估这种新的交联治疗的长期生物力学效应,这是其临床成功的必要前提。
对9只雄性兔子的左眼角膜进行交联。对侧眼作为对照。去除中央7mm的上皮后,用光敏剂核黄素和UVA照射角膜30分钟,使用370nm的UVA双二极管,辐照度为3mW/cm²。每组三只动物分别在治疗后立即、3个月和8个月处死。使用微机控制的生物材料测试仪对4×10mm的角膜条进行生物力学应力-应变测量。
治疗后的兔角膜厚度为408±20μm。在交联治疗后的长达8个月的时间段内,发现极限应力持续且显著增加(69.7%-106.0%),杨氏弹性模量增加(78.4%-87.4%),极限应变降低(0.57%-78.4%)。
核黄素/UVA诱导的胶原交联导致生物力学硬度长期增加,且随时间保持稳定。这些数据支持了我们之前的长期临床观察,并让人希望这种新治疗将最终阻止进行性圆锥角膜的发展。
