蝶鞍纤维插入角度对适应性的影响

Vision Pub Date : 2024-07-23 DOI:10.3390/vision8030045
Liying Feng, Barbara K. Pierscionek, Henk Weeber, Carmen Canovas Vidal, Jos J. Rozema
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摘要

目的:随着年龄的增长,眼球中的睫状体会发生前移,与年轻眼睛相比,老年眼睛的睫状体插入角度会发生变化。本研究旨在模拟不同楔角的晶状体容纳,以考虑楔角位置对晶状体容纳能力的影响。方法:以 11 岁、29 岁和 45 岁的晶状体为基础,使用二维轴对称结构构建模型,该结构包括囊、皮质、核和带状纤维。通过改变带状纤维与睫状体连接点的位置来模拟不同的带状纤维。分析了不同睫状体纤维插入角度对模型形状和光功率的影响。结果显示模型显示,梭状纤维与晶状体表面的角度越小,模拟拉伸时的光学功率变化越大。当拉伸模型并改变小梁角度时,11 岁、29 岁和 45 岁模型的光学功率变化分别达到 0.17 D、0.24 D 和 0.30 D。在 11 岁、29 岁和 45 岁的模型中,Zonular 角对前表面曲率半径的影响分别变化了 0.29 mm、0.23 mm 和 0.25 mm。结论较大的晶状体纤维插入角会导致较小的变形和较小的适应性变化,而平行晶状体会导致晶状体形状的最大变化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Effect of the Zonular Fiber Angle of Insertion on Accommodation
Purpose: With age, there is an anterior shift of the ciliary body in the eye, which alters the angle of zonular insertion in older eyes compared with younger eyes. This study aims to simulate lens accommodation with different zonular angles to consider the influence of zonular position on lens accommodative capacity. Methods: Models were constructed based on lenses aged 11, 29, and 45 years using a 2D axisymmetric structure that included a capsule, cortex, nucleus, and zonular fibers. The different zonular fibers were simulated by changing the position of the point where the zonular fibers connect to the ciliary body. The effect of the different zonular fiber insertion angles on the model shape and optical power was analyzed. Results: The models show that smaller angles made by zonular fibers to the surface of the lens lead to larger optical power changes with simulated stretching. When the models were stretched, and when varying the zonule angles, the optical power of the 11-, 29-, and 45-year-old models changed up to 0.17 D, 0.24 D, and 0.30 D, respectively. The effect of zonular angles on the anterior radius of curvature of the anterior surface varied by 0.29 mm, 0.23 mm, and 0.25 mm for the 11-, 29-, and 45-year-old models, respectively. Conclusions: Larger zonular fiber insertion angles cause smaller deformation and less accommodative change, while parallel zonules induce the largest change in lens shape.
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