二维角膜瓣拉伸测量法评估角膜生物力学特性:在紫外线核黄素交联术中的应用。
Corneal biomechanical properties from two-dimensional corneal flap extensiometry: application to UV-riboflavin cross-linking.
机构信息
Instituto de Óptica "Daza de Valdés," Consejo Superior de Investigaciones Científicas, Madrid, Spain.
出版信息
Invest Ophthalmol Vis Sci. 2012 Jul 27;53(8):5010-5. doi: 10.1167/iovs.12-9583.
PURPOSE
Corneal biomechanical properties are usually measured by strip extensiometry or inflation methods. We developed a two-dimensional (2D) flap extensiometry technique, combining the advantages of both methods, and applied it to measure the effect of UV-Riboflavin cross-linking (CXL).
METHODS
Corneal flaps (13 pig/8 rabbit) from the de-epithelialized anterior stroma (96 μm) were mounted on a custom chamber, consisting of a BK7 lens, a reflective retina, and two reservoirs (filled with Riboflavin and silicone oil). Stretching the corneal flap during five pressure increase/decrease cycles (0-30 mm Hg) changed the refractive power of the system, whose Zernike aberrations were monitored with a ray-tracing aberrometer. Porcine flaps were used to test the system. Rabbits were treated with CXL unilaterally in vivo following standard clinical procedures. Flaps were measured 1 month postoperatively. An analytical model allowed estimating Young's modulus from the change in surface (strain) and pressure (stress). Confocal microscopy examination was performed before, and at different times after CXL.
RESULTS
Flap curvature changed with increased function of IOP in pig flaps (23.4 × 10⁻³ D/mm Hg). In rabbit flaps curvature changed significantly less in 1 month post CXL (P = 0.026) than in untreated corneas [17.0 vs. 6.36 millidiopter (mD)/mm Hg]. Young's modulus was 2.29 megapascals (MPa) in porcine corneas, 1.98 MPa in untreated rabbit corneas, and 4.83 MPa in 1 month post CXL rabbit corneas. At the same time, highly reflective structures were observed in the rabbit midstroma after treatment.
CONCLUSIONS
2D flap extensiometry allows estimating corneal elasticity in vitro. The measurements are spatially resolved in depth, minimize the effects of corneal hydration, and preserve the integrity of the cornea. The method proved the efficacy of CXL in increasing corneal rigidity after 1 month in rabbits.
目的
角膜生物力学特性通常通过条带拉伸测量或膨胀法来测量。我们开发了一种二维(2D)瓣拉伸测量技术,结合了这两种方法的优点,并应用于测量紫外线-核黄素交联(CXL)的效果。
方法
从去上皮的前基质(96 μm)取下角膜瓣(13 只猪/8 只兔),安装在一个定制的腔室上,该腔室由 BK7 透镜、反射视网膜和两个储液器(充满核黄素和硅油)组成。在五个压力增加/减少循环(0-30 mmHg)期间拉伸角膜瓣会改变系统的屈光力,系统的泽尼克像差用光线追踪像差仪进行监测。使用猪瓣来测试系统。兔子按照标准临床程序进行单侧体内 CXL 治疗。术后 1 个月测量瓣。一个分析模型允许从表面(应变)和压力(应力)的变化中估计杨氏模量。在 CXL 之前和之后的不同时间进行共焦显微镜检查。
结果
猪瓣的瓣曲率随眼压的增加而变化(23.4×10⁻³ D/mm Hg)。在 1 个月的 CXL 后,兔瓣的曲率变化明显小于未经处理的角膜(P = 0.026)[17.0 与 6.36 毫弧度(mD)/mm Hg]。猪角膜的杨氏模量为 2.29 兆帕斯卡(MPa),未经处理的兔角膜为 1.98 MPa,1 个月的 CXL 兔角膜为 4.83 MPa。同时,在处理后兔的中基质中观察到高反射结构。
结论
2D 瓣拉伸测量法可在体外估计角膜弹性。测量在深度上具有空间分辨率,最大限度地减少角膜水合作用的影响,并保持角膜的完整性。该方法证明了 1 个月后 CXL 可有效增加兔角膜硬度。
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