Elsheikh Ahmed, Alhasso Daad, Gunvant Pinakin, Garway-Heath David
Division of Civil Engineering, University of Dundee, Dundee, United Kingdom.
Optom Vis Sci. 2011 Jan;88(1):E102-12. doi: 10.1097/OPX.0b013e3181fc3453.
To develop a correction factor to improve the accuracy of intraocular pressure (IOP) measurements made by the Goldmann applanation tonometer (GAT), which considers the combined effects of variations in central corneal thickness (CCT), central anterior curvature (R), age, and the IOP level itself.
Nonlinear numerical simulations based on the finite element method were used to represent corneal behavior under the effect of IOP and external tonometric pressure. The simulations considered various biomechanical corneal properties including the cornea's nonuniform thickness, elliptical topography, weak stromal interlamellar cohesion, low epithelial and endothelial stiffness, and hyperelastic and hysteretic material behavior. The simulations were used to model the GAT procedure on corneas to obtain a correction equation based on the values of CCT, R, age, and IOP measured using GAT (IOPG). The efficiency of the equation in reducing the effects of corneal parameters on IOPG measurements was also assessed using an independent clinical database.
The individual effects of variations in CCT, R, and age were estimated at 1.66 mm Hg/100 μ of CCT, 0.89 mm Hg/1 mm of R, and 0.12 mm Hg/decade of age. The correction equation reduced the association between clinical IOP measurements and corneal parameters with r2 reducing from 11.8 to 0.02%.
The GAT correction factor can consider the combined effect of variations in corneal thickness, curvature, age, and IOP. The factor could significantly reduce the reliance of IOPG measurements on corneal stiffness parameters.
开发一种校正因子,以提高Goldmann压平眼压计(GAT)测量眼压(IOP)的准确性,该因子考虑了中央角膜厚度(CCT)、中央前曲率(R)、年龄以及眼压水平本身变化的综合影响。
基于有限元法的非线性数值模拟用于表示眼压和外部眼压计压力作用下的角膜行为。模拟考虑了各种角膜生物力学特性,包括角膜厚度不均匀、椭圆形地形、薄弱的基质层间凝聚力、低上皮和内皮硬度以及超弹性和滞后材料行为。模拟用于对角膜上的GAT程序进行建模,以基于使用GAT测量的CCT、R、年龄和眼压(IOPG)值获得校正方程。还使用独立的临床数据库评估了该方程在降低角膜参数对IOPG测量影响方面的效率。
CCT、R和年龄变化的个体影响估计分别为1.66 mmHg/100 μ的CCT、0.89 mmHg/1 mm的R和0.12 mmHg/每十年年龄。校正方程降低了临床眼压测量与角膜参数之间的关联,r2从11.8%降至0.02%。
GAT校正因子可以考虑角膜厚度、曲率、年龄和眼压变化的综合影响。该因子可以显著降低IOPG测量对角膜硬度参数的依赖。
