Finite element modeling of the viscoelastic responses of the eye during microvolumetric changes.

Benjamin Cruz Perez, Hugh J Morris, Richard T Hart, Jun Liu
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引用次数: 15

Abstract

A linear viscoelastic finite element model was built to investigate factors that influenced the intraocular pressure (IOP) elevations due to micro-volumetric changes in the eye at three different rates. The viscoelastic properties of the cornea and the sclera, including the instantaneous modulus, equilibrium modulus, and relaxation time constants, parametrically varied to examine their effects on IOP elevations at different rates of volumetric changes. The simulated responses were in good agreement with the previously reported experimental results obtained from porcine globes, showing the general trend of higher IOP elevations at faster rates. The simulations showed that all viscoelastic properties influenced the profile of the dynamic IOP due to volumetric changes, and the relative significance of a specific parameter was highly dependent on the rate of change.

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微体积变化时眼睛粘弹性响应的有限元建模。
建立线性粘弹性有限元模型,探讨三种不同速率下眼内微体积变化对眼压升高的影响因素。角膜和巩膜的粘弹性特性,包括瞬时模量、平衡模量和松弛时间常数,在不同的体积变化率下,参数化地变化,以检查它们对IOP升高的影响。模拟的反应与先前报道的猪球的实验结果很好地一致,显示了IOP升高的总体趋势,速度更快。模拟结果表明,由于体积的变化,所有粘弹性特性都会影响动态眼内压的轮廓,并且特定参数的相对重要性高度依赖于变化率。
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