晶状体弹性的年龄相关性变化对调节能力下降的影响比形状变化更大。

Age-Related Changes in Lens Elasticity Contribute More to Accommodative Decline Than Shape Change.

作者信息

Pu Yutian, Hoshino Masato, Uesugi Kentaro, Yagi Naoto, Wang Kehao, Pierscionek Barbara K

机构信息

Key Laboratory for Biomechanics and Mechanobiology of Ministry for Education, Beijing Advanced Innovation Center for Biomedical Engineering, School of Engineering Medicine and School of Biological Science and Medical Engineering, Beihang University, Beijing, China.

Japan Synchrotron Radiation Research Institute (Spring-8), 1-1-1, Kouto, Sayo-cho, Sayo-gun, Hyogo, Japan.

出版信息

Invest Ophthalmol Vis Sci. 2025 Jan 2;66(1):16. doi: 10.1167/iovs.66.1.16.

DOI:10.1167/iovs.66.1.16

PMID:39775694

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11717130/

Abstract

PURPOSE

To determine whether lens biomechanical or geometric changes contribute to the decline in the accommodative capacity of the human eye, and to examine any differences in zonular function between different age groups.

METHODS

Eighteen finite element whole eye models were developed to simulate the accommodative process. Six models were constructed in each of the two age cohorts, from the fourth and the sixth decades of life using data from ex vivo human lenses. An additional six models combining the material properties of lenses from the fourth decade with the geometry of those from the sixth decade were included. Optical lens models developed based on the results of mechanical simulations were used to calculate the central optical power (COP).

RESULTS

The change in COP was significantly greater for both the fourth-decade models and the mixed models compared with the sixth-decade models. The rates of the change in geometric parameters relative to the increment of change in COP in the mixed models were greater than those in the fourth-decade models. The distribution of zonular force was consistent across all three groups. However, the sixth-decade models and mixed models exhibited similar distributions of zonular angles, both of which were greater than those in the fourth-decade models.

CONCLUSIONS

Both biomechanical and geometric age-related changes contribute to the accommodative decline, with the material property manifesting a more substantial impact. Age-related changes in the lens do not influence the distribution of zonular tension, but do affect the angles that the zonule makes with the lens surface.

摘要

目的

确定晶状体生物力学或几何形状的变化是否会导致人眼调节能力下降，并研究不同年龄组之间悬韧带功能的差异。

方法

开发了18个全眼有限元模型来模拟调节过程。利用来自离体人晶状体的数据，在两个年龄组中各构建6个模型，分别来自生命的第四个十年和第六个十年。另外还包括6个模型，其结合了第四个十年晶状体的材料特性和第六个十年晶状体的几何形状。基于力学模拟结果开发的光学晶状体模型用于计算中央屈光力（COP）。

结果

与第六个十年的模型相比，第四个十年的模型和混合模型的COP变化均显著更大。混合模型中几何参数相对于COP变化增量的变化率大于第四个十年的模型。所有三组悬韧带力的分布是一致的。然而，第六个十年的模型和混合模型表现出相似的悬韧带角度分布，两者均大于第四个十年的模型。

结论

与年龄相关的生物力学和几何形状变化均导致调节能力下降，其中材料特性的影响更为显著。晶状体与年龄相关的变化不影响悬韧带张力的分布，但会影响悬韧带与晶状体表面的夹角。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/10b5/11717130/50c13282c7e3/iovs-66-1-16-f001.jpg

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晶状体弹性的年龄相关性变化对调节能力下降的影响比形状变化更大。

Age-Related Changes in Lens Elasticity Contribute More to Accommodative Decline Than Shape Change.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

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方法

结果

结论

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