Li H F, Petroll W M, Møller-Pedersen T, Maurer J K, Cavanagh H D, Jester J V
Department of Ophthalmology, University of Texas Southwestern Medical Center, Dallas 75235-9057, USA.
Curr Eye Res. 1997 Mar;16(3):214-21. doi: 10.1076/ceyr.16.3.214.15412.
To study the feasibility of measuring total corneal thickness, as well as the thickness of the epithelium and Bowman's layer, using a novel in vivo confocal microscopy through-focusing (CMTF) methodology.
The central cornea was scanned from the epithelium to endothelium at an average focal plane speed of 32 microns/sec for rabbits, and 64 microns/sec for humans. Scans were initially video-recorded and later digitized. From digital images, CMTF intensity curves were generated by calculating the average pixel intensity in the central 180 x 180 pixel region (285 microns x 285 microns) of each image in the scan, and plotting as a function of z-depth. Peaks in this intensity profile were then empirically correlated to unique corneal layers using a program which interactively displayed images corresponding to the mouse cursor position along the intensity profile curve. Sublayer thickness values were then calculated from the z-axis positions of the relevant peaks in the intensity curve. Ten normal rabbits and seven human volunteers were evaluated in the study. Both CMTF and ultrasonic pachymetry (UP) measurements were performed on rabbit eyes to determine the agreement between CMTF and UP.
Distinct epithelial, basal lamina, and endothelial peaks were identified for all 10 rabbit eyes. The mean central corneal thickness in the rabbit was 381.6 +/- 27.3 microns by CMTF and 384.4 +/- 28.7 microns by UP. The mean difference in central corneal thickness between CMTF and UP was -2.8 +/- 7.1 microns which was not statistically significant (p > 0.2 by paired t-test). Central epithelial thickness in the rabbit measured by CMTF was 47.7 +/- 2.2 microns. The average coefficients of variation for repeated scans were 2.5% and 0.7% for epithelial and corneal thickness, respectively. The standard errors for both epithelial and corneal thickness were less than 1.5 microns for all rabbits. The reproducibilities for epithelial and corneal thickness measurements were 2.2 microns and 2.6 microns, respectively, calculated as the square root of the within group variances of One-Way ANOVA. Intensity profiles for human corneas showed strong epithelial and endothelial peaks, as well as smaller peaks corresponding to the basal-epithelial nerve plexus and the denser anterior layer of stromal keratocyte nuclei. The mean central corneal thickness in the human was 532.1 +/- 18.8 microns; central epithelial thickness was 50.6 +/- 3.9 microns; central Bowman's layer thickness was 16.6 +/- 1.1 microns. The average coefficients of variation for repeated scans were 5.9%, 13.2%, and 1.6% for epithelial, Bowman's layer, and corneal thickness, respectively. The standard errors for all measurements were less than 2.4 microns. The reproducibilities for epithelial, Bowman's layer, and corneal thickness measurements were 3.2 microns, 2.3 microns, and 10.0 microns, respectively.
CMTF is a novel, reproducible technique for obtaining epithelial and corneal thickness measurements during clinical in vivo confocal microscopy of the cornea. More importantly, this methodology provides the first objective, quantitative approach for measurement and analysis of depth and thickness of corneal sub-layers which may prove uniquely valuable in temporally assessing corneal function.
使用一种新型的体内共聚焦显微镜透焦(CMTF)方法,研究测量角膜总厚度以及上皮层和鲍曼层厚度的可行性。
以平均焦平面速度对兔眼中央角膜从上皮层扫描至内皮细胞层,兔眼扫描速度为32微米/秒,人眼扫描速度为64微米/秒。扫描最初进行视频记录,随后数字化。从数字图像中,通过计算扫描中每个图像中央180×180像素区域(285微米×285微米)内的平均像素强度,并将其绘制为z深度的函数,生成CMTF强度曲线。然后使用一个程序,将该强度分布图中的峰值与独特的角膜层进行经验性关联,该程序可交互式显示与沿强度分布图曲线的鼠标光标位置相对应的图像。然后根据强度曲线中相关峰值的z轴位置计算子层厚度值。本研究评估了10只正常兔和7名人类志愿者。对兔眼同时进行CMTF和超声测厚(UP)测量,以确定CMTF与UP之间的一致性。
在所有10只兔眼中均识别出明显的上皮层、基底层和内皮细胞层峰值。通过CMTF测量,兔眼中央角膜平均厚度为381.6±27.3微米,通过UP测量为384.4±28.7微米。CMTF与UP测量的中央角膜厚度平均差值为-2.8±-7.1微米,差异无统计学意义(配对t检验,p>0.2)。通过CMTF测量,兔眼中央上皮层厚度为47.7±2.2微米。重复扫描的上皮层和角膜厚度平均变异系数分别为2.5%和0.7%。所有兔的上皮层和角膜厚度标准误差均小于1.5微米。根据单因素方差分析组内方差的平方根计算,上皮层和角膜厚度测量的重复性分别为2.2微米和2.6微米。人眼角膜的强度分布图显示出明显的上皮层和内皮细胞层峰值,以及对应于基底上皮神经丛和基质角膜细胞核较密集前层的较小峰值。人眼中央角膜平均厚度为532.1±18.8微米;中央上皮层厚度为50.6±3.9微米;中央鲍曼层厚度为16. +/1.1微米。重复扫描的上皮层、鲍曼层和角膜厚度平均变异系数分别为5.9%、13.2%和1.6%。所有测量的标准误差均小于2.4微米。上皮层、鲍曼层和角膜厚度测量的重复性分别为3.2微米、2.3微米和10.0微米。
CMTF是一种在角膜临床体内共聚焦显微镜检查期间获取上皮层和角膜厚度测量值的新型、可重复技术。更重要的是,该方法为角膜子层深度和厚度的测量与分析提供了首个客观、定量的方法,这在临时评估角膜功能方面可能具有独特价值。
