Corneal ablation research at the FDA

Conference Proceedings LEOS'96 9th Annual Meeting IEEE Lasers and Electro-Optics Society Pub Date : 1996-11-18 DOI:10.1109/LEOS.1996.571652

M. Ediger, G. Pettit

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Abstract

Summary form only given. Although excimer laser refractive surgery has been available in the United States for a year-and longer elsewhere-the fundamental mechanisms of photoablation are still not fully understood. Consequently, the motivation for corneal ablation research at FDA has been to more fully describe the underlying laser-tissue interactions occurring in ultraviolet laser photoablation. Our investigations have explored the implications of laser-induced-fluorescence on the lens, DNA damage due to ultraviolet radiation and free-radical production. Studies have also been performed to evaluate the pulse-to-pulse stability of ablation, "incubation", and the effects of ablation site hydration. Time-resolved reflectivity and transmission measurements have demonstrated dynamic alteration of the optical properties of the ablation site during the laser pulse. Characteristics of the ablation plume including particle size, velocity and volume fraction have been determined by time-resolved Mie scattering measurements. Also, the values for the index of refraction and absorption coefficient (small-signal) of cornea have been obtained by critical angle reflectometry. The results of these studies are reviewed and their clinical implications discussed.

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FDA的角膜消融研究

只提供摘要形式。虽然准分子激光屈光手术在美国已经实施了一年，在其他地方则更久，但光消融的基本机制仍未被完全理解。因此，FDA进行角膜消融研究的动机是为了更全面地描述紫外线激光消融中潜在的激光与组织的相互作用。我们的研究探讨了激光诱导荧光对晶状体的影响，紫外线辐射和自由基产生造成的DNA损伤。还进行了研究，以评估消融的脉冲对脉冲稳定性，“孵化”和消融部位水化的影响。时间分辨反射率和透射率测量表明，在激光脉冲作用下，烧蚀部位的光学特性发生了动态变化。通过时间分辨米氏散射测量，确定了烧蚀羽流的粒径、速度和体积分数等特征。用临界角反射法测定了角膜的折射率和小信号吸收系数。本文回顾了这些研究的结果，并讨论了它们的临床意义。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Conference Proceedings LEOS'96 9th Annual Meeting IEEE Lasers and Electro-Optics Society

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