J Refract Surg. 2013 Dec;29(12):850-4. doi: 10.3928/1081597x-20131115-05.
To investigate the relationship between corneal hysteresis (CH) and intraocular pressure (IOP) using porcine eyes in the low to high IOP ranges.
In vitro porcine eyes were used to investigate the relationship of CH and IOP. IOP was altered by changing the height of a drip stand within the dynamic range of 60 mm Hg. CH and IOP were measured with the Ocular Response Analyzer (ORA; Reichert Ophthalmic Instruments, Depew, NY) at different heights. Second-order polynomial regression method was employed to assess the nonlinear correlation of CH and IOP.
CH demonstrated an initial plateau stage with low IOP, which then decreased as IOP increased to higher values up to 60 mm Hg. The maximum CH value of approximately 6 to 8 mm Hg was achieved when IOP ranged from 11 to 25 mm Hg. The nonlinear regression lines of Goldmann correlated IOP (IOPg) and CH can be described as CH = − 0.0029 × IOPg2 + 0.1005 × IOPg + 5.2824, R2 = 0.3676, P < .05.
CH was relatively constant for lower values of IOP and showed a decreasing relationship at higher values of IOP. This nonlinear relationship provides insight into understanding the viscoelastic nature of CH over a wider range of IOP values. The experimental data on porcine eyes may indicate that IOP should be taken into account when analyzing the deformation response of the cornea to an applied air puff.
利用猪眼在低至高眼压范围内研究角膜滞后(CH)与眼压(IOP)之间的关系。
采用体外猪眼研究 CH 与 IOP 的关系。通过改变滴注架的高度在 60mmHg 的动态范围内改变 IOP。在不同高度用眼反应分析仪(ORA;Reichert Ophthalmic Instruments,Depew,NY)测量 CH 和 IOP。采用二阶多项式回归方法评估 CH 和 IOP 的非线性相关性。
CH 在低眼压时呈现初始平台阶段,然后随着眼压升高到 60mmHg 以上而下降。当眼压在 11 至 25mmHg 范围内时,CH 的最大值约为 6 至 8mmHg。Goldmann 相关眼压(IOPg)和 CH 的非线性回归线可以描述为 CH =-0.0029×IOPg2 + 0.1005×IOPg + 5.2824,R2 = 0.3676,P <.05。
CH 在较低的 IOP 值下相对稳定,在较高的 IOP 值下呈下降关系。这种非线性关系提供了对 CH 在更宽的 IOP 值范围内粘弹性的理解。猪眼的实验数据表明,在分析角膜对空气脉冲施加的变形反应时,应考虑 IOP。
