瞳孔扩张引起虹膜组织的数值应力分析：商业设备的比较。

Numerical stress analysis of the iris tissue induced by pupil expansion: Comparison of commercial devices.

机构信息

Ophthalmic Engineering & Innovation Laboratory, Department of Biomedical Engineering, Faculty of Engineering, National University of Singapore, Singapore, Singapore.

Singapore Eye Research Institute, Singapore National Eye Centre, Singapore, Singapore.

出版信息

PLoS One. 2018 Mar 14;13(3):e0194141. doi: 10.1371/journal.pone.0194141. eCollection 2018.

DOI:10.1371/journal.pone.0194141

PMID:29538452

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5851615/

Abstract

PURPOSE

(1) To use finite element (FE) modelling to estimate local iris stresses (i.e. internal forces) as a result of mechanical pupil expansion; and to (2) compare such stresses as generated from several commercially available expanders (Iris hooks, APX dilator and Malyugin ring) to determine which design and deployment method are most likely to cause iris damage.

METHODS

We used a biofidelic 3-part iris FE model that consisted of the stroma, sphincter and dilator muscles. Our FE model simulated expansion of the pupil from 3 mm to a maximum of 6 mm using the aforementioned pupil expanders, with uniform circular expansion used for baseline comparison. FE-derived stresses, resultant forces and area of final pupil opening were compared across devices for analysis.

RESULTS

Our FE models demonstrated that the APX dilator generated the highest stresses on the sphincter muscles, (max: 6.446 MPa; average: 5.112 MPa), followed by the iris hooks (max: 5.680 MPa; average: 5.219 MPa), and the Malyugin ring (max: 2.144 MPa; average: 1.575 MPa). Uniform expansion generated the lowest stresses (max: 0.435MPa; average: 0.377 MPa). For pupil expansion, the APX dilator required the highest force (41.22 mN), followed by iris hooks (40.82 mN) and the Malyugin ring (18.56 mN).

CONCLUSION

Our study predicted that current pupil expanders exert significantly higher amount of stresses and forces than required during pupil expansion. Our work may serve as a guide for the development and design of next-generation pupil expanders.

摘要

目的

（1）使用有限元（FE）建模来估计机械瞳孔扩张引起的局部虹膜应力（即内力）；（2）比较几种市售扩张器（虹膜钩、APX 扩张器和 Malyugin 环）产生的应力，以确定哪种设计和部署方法最有可能导致虹膜损伤。

方法

我们使用了由基质、括约肌和扩张肌组成的生物逼真的三部分虹膜 FE 模型。我们的 FE 模型使用上述瞳孔扩张器模拟瞳孔从 3mm 扩张到最大 6mm，使用均匀圆形扩张作为基线比较。比较了不同设备的 FE 衍生应力、合力和最终瞳孔开口面积。

结果

我们的 FE 模型表明，APX 扩张器对括约肌产生的应力最大（最大：6.446MPa；平均：5.112MPa），其次是虹膜钩（最大：5.680MPa；平均：5.219MPa），Malyugin 环（最大：2.144MPa；平均：1.575MPa）。均匀扩张产生的应力最低（最大：0.435MPa；平均：0.377MPa）。对于瞳孔扩张，APX 扩张器所需的力最高（41.22mN），其次是虹膜钩（40.82mN）和 Malyugin 环（18.56mN）。

结论

我们的研究预测，目前的瞳孔扩张器在瞳孔扩张过程中施加的应力和力明显高于所需的量。我们的工作可以为下一代瞳孔扩张器的开发和设计提供指导。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9e42/5851615/2806f463e042/pone.0194141.g001.jpg

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瞳孔扩张引起虹膜组织的数值应力分析：商业设备的比较。

Numerical stress analysis of the iris tissue induced by pupil expansion: Comparison of commercial devices.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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