[Structure and dynamics of photo-acoustic shock-waves in 193 nm excimer laser photo-ablation of the cornea].

Fortschritte der Ophthalmologie : Zeitschrift der Deutschen Ophthalmologischen Gesellschaft Pub Date : 1991-01-01

O Kermani, H Lubatschowski

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Abstract

The structure and dynamics of acoustic shock waves generated with a 193-nm ArF-excimer laser pulse (20 ns) in corneal photoablation were investigated using piezoelectric transducers (PVDF foily). The shock waves passed through the cornea at the speed of sound (1630 +/- 120 m/s). The duration of the acoustic half-value thickness was approximately 60 ns. At clinically relevant laser energy densities (200 mJ/cm2) the amplitude of the shock-waves was 80 bar. At higher energy densities (500 mJ/cm2) the amplitude reaches 150 bar. When laser pulses were applied with a spot size of 100 microns the amplitude of the acoustic transient decreased inversely with the distance to the interaction zone. At large beam diameters (4 mm), however, even at a distance of 3 mm from the interaction zone no significant decrease of the shock-wave amplitude could be found. It is assumed that the mechanical stress involved in laser-induced acoustic shock-waves may be the cause of cellular alterations and the structural damage to adjacent collagen layers leading to the onset of postoperative scar formation.

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[193 nm准分子激光角膜光烧蚀的光声冲击波结构与动力学]。

利用压电换能器(PVDF箔)研究了193nm arf准分子激光脉冲(20ns)在角膜光消融过程中产生的声激波的结构和动力学。冲击波以声速(1630 +/- 120 m/s)穿过角膜。声学半值厚度持续时间约为60ns。在临床相关的激光能量密度(200 mJ/cm2)下，冲击波振幅为80 bar。在更高的能量密度下(500 mJ/cm2)，振幅达到150 bar。当光斑尺寸为100微米时，声瞬态振幅随距离相互作用带的远近呈反比减小。然而，在大光束直径(4mm)处，即使距离相互作用区3mm，冲击波振幅也没有明显下降。据推测，激光诱导的声冲击波所涉及的机械应力可能是导致细胞改变和相邻胶原层结构损伤的原因，从而导致术后瘢痕形成。

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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Fortschritte der Ophthalmologie : Zeitschrift der Deutschen Ophthalmologischen Gesellschaft

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