飞秒激光诱导弹性变化以改善老花眼晶状体的调节能力。

fs-Laser induced elasticity changes to improve presbyopic lens accommodation.

作者信息

Ripken Tammo, Oberheide Uwe, Fromm Michael, Schumacher Silvia, Gerten Georg, Lubatschowski Holger

机构信息

Laser Zentrum Hannover e.V., Hollerithallee 8, 30419 Hannover, Germany.

出版信息

Graefes Arch Clin Exp Ophthalmol. 2008 Jun;246(6):897-906. doi: 10.1007/s00417-007-0699-x. Epub 2007 Nov 21.

DOI:10.1007/s00417-007-0699-x

PMID:18030488

Abstract

BACKGROUND

According to the Helmholtz theory of accommodation, one of the major reasons for the development of presbyopia is the progressive sclerosis of the crystalline lens. However, both the ciliary muscle and the lens capsule stay active and elastic. Thus, the concept for regaining the deformation-ability of the crystalline lens is to create microincisions inside lens tissue to achieve gliding planes.

METHODS

For the preparation of the microincisions, near-infrared femtosecond laser pulses are used, generating laser-induced optical breakdowns. Different cutting patterns were performed, and the elasticity regain of the lenses were measured with Fisher's spinning test for thickness determination.

RESULTS

The creation of gliding planes inside lens tissue shows very good results in terms of increasing the deformation-ability. The optimization of laser parameters leads to a minimally invasive surgery with no remarkable side effects like residual gas bubbles. Furthermore, ex vivo elasticity measurements of untreated and treated pig lenses show an improvement in the flexibility of the lens. The deformation-ability increases up to 26% with a very low standard deviation (1.6%) and a high significance (p < 0.05).

CONCLUSION

Generating particular cutting patterns inside lens tissue can increase the deformation-ability of the crystalline lens. Thus, it might be one possible way to treat presbyopia.

摘要

背景

根据亥姆霍兹调节理论，老花眼形成的主要原因之一是晶状体逐渐硬化。然而，睫状肌和晶状体囊膜仍保持活跃和弹性。因此，恢复晶状体变形能力的概念是在晶状体组织内制造微小切口以形成滑动平面。

方法

为了制备微小切口，使用近红外飞秒激光脉冲产生激光诱导的光学击穿。进行了不同的切割模式，并通过费舍尔旋转试验测量晶状体的弹性恢复以确定厚度。

结果

在晶状体组织内形成滑动平面在增加变形能力方面显示出非常好的效果。激光参数的优化导致微创手术，没有像残留气泡这样的明显副作用。此外，未经处理和经处理的猪晶状体的体外弹性测量显示晶状体的柔韧性有所改善。变形能力提高了26%，标准偏差非常低（1.6%）且具有高度显著性（p < 0.05）。

结论

在晶状体组织内产生特定的切割模式可以增加晶状体的变形能力。因此，这可能是治疗老花眼的一种可行方法。

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飞秒激光诱导弹性变化以改善老花眼晶状体的调节能力。

fs-Laser induced elasticity changes to improve presbyopic lens accommodation.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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