调节模型：晶状体几何形状和机械性能对远视形成的影响。

Model of accommodation: contributions of lens geometry and mechanical properties to the development of presbyopia.

机构信息

Department of Mechanical and Aerospace Engineering, Princeton University, Princeton, NJ, USA.

出版信息

J Cataract Refract Surg. 2010 Nov;36(11):1960-71. doi: 10.1016/j.jcrs.2010.09.001.

DOI:10.1016/j.jcrs.2010.09.001

PMID:21029906

Abstract

PURPOSE

To determine the relative importance of lens geometry and mechanical properties for the mechanics of accommodation and the role of these elements in the causes and potential correction of presbyopia.

SETTING

Department of Mechanical and Aerospace Engineering, Princeton University, Princeton, New Jersey, USA.

DESIGN

Experimental study.

METHODS

Finite element methods and ray-tracing algorithms were used to model the deformation and optical power of the human crystalline lens during accommodation. The mechanical model treats the lens as an axisymmetric object, and the optical model incorporates a gradient refractive index. Using these models, the accommodation of a broad range of lenses with different geometries and mechanical properties were investigated.

RESULTS

The most significant result was that reshaping the 45-year-old lens to the geometry of the 29-year-old lens, while retaining the mechanical properties, restored the former's accommodation amplitude to 72% to 94% of that of the 29-year-old lens, depending on ciliary body displacement. That is, reshaping can add 1.8 to 3.7 diopters of accommodation. A sensitivity analysis showed that this result was robust over a wide range of mechanical and geometrical properties.

CONCLUSION

The study results suggest that a significant amount of the loss of accommodation is due to changes in lens geometry.

摘要

目的

确定晶状体几何形状和机械性能对调节力学的相对重要性，以及这些因素在老视的原因和潜在矫正中的作用。

地点

美国新泽西州普林斯顿大学机械与航空航天工程系。

设计

实验研究。

方法

采用有限元方法和光线追踪算法来模拟人眼晶状体在调节过程中的变形和光焦度。力学模型将晶状体视为轴对称物体，光学模型则包含了折射率梯度。利用这些模型，研究了具有不同几何形状和机械性能的各种晶状体的调节情况。

结果

最显著的结果是，将 45 岁晶状体的形状重塑为 29 岁晶状体的形状，同时保持其机械性能，可使前者的调节幅度恢复到后者的 72%至 94%，具体取决于睫状体的位移。也就是说，塑形可以增加 1.8 至 3.7 个屈光度的调节能力。敏感性分析表明，这一结果在广泛的机械和几何性能范围内是稳健的。

结论

研究结果表明，调节能力的大量丧失归因于晶状体形状的变化。

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调节模型：晶状体几何形状和机械性能对远视形成的影响。

Model of accommodation: contributions of lens geometry and mechanical properties to the development of presbyopia.

机构信息

出版信息

PURPOSE

SETTING

DESIGN

METHODS

RESULTS

CONCLUSION

目的

地点

设计

方法

结果

结论

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