Safety and Precision of Two Different Flap-morphologies Created During Low Energy Femtosecond Laser-assisted LASIK.

IF 1.6 Q3 OPHTHALMOLOGY
Johannes Steinberg, Juliane Mehlan, Bulat Mudarisov, Toam Katz, Andreas Frings, Vasyl Druchkiv, Stephan J Linke
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引用次数: 0

Abstract

Purpose: Currently, two major principles exist to create LASIK flaps: firstly, a strictly horizontal (2D) cut similar to the microkeratome-cut and secondly an angled cut with a "step-like" edge (3D). The strictly horizontal (2D) cut method can be performed using apparatus such as the low-energy FEMTO LDV Z8 laser and its predecessors which are specific to this type. Alternatively, the low-energy FEMTO LDV Z8 laser's 3D flap design creates an interlocking flap-interface surface which potentially contributes toward flap stability. In addition, the FEMTO LDV Z8 offers flap-position adjustments after docking (before flap-creation). The current study analyzed precision, safety, efficacy, as well as patient self-reported pain and comfort levels after applying two different types of LASIK flap morphologies which were created with a low-energy, high-frequency femtosecond (fs) laser device.

Methods: A prospective, interventional, randomized, contralateral eye, single-center comparison study was conducted from November 2019 to March 2020 at the Hamburg vision clinic/ zentrumsehstärke, Hamburg, Germany. Eleven patients and 22 eyes received low-energy fs LASIK treatment for myopia or myopic astigmatism in both eyes. Before the treatment, the eyes were randomized (one eye was treated with the 2D, the other eye with the 3D method).

Results: The mean central flap thickness one month after surgery was 110.7 ± 1.6 μm (2D) and 111.2 ± 1.7 μm (3D); P = 0.365 (2D vs 3D). Flap thickness measured at 13 different points resulted in no statistically significant differences between any of the measurement points within/between both groups; demonstrating good planarity of the flap was achieved using both methods. Despite not being statistically significant, the surgeons recognized an increase in the presence of an opaque bubble layer in the 3D flap eyes during surgery and some patients reported higher, yet not statistically significant, pain scores in the 3D flap eyes during the first hours after the treatment. Overall, safety- and efficacy indices were 1.03 and 1.03, respectively.

Conclusion: In this prospective, randomized, contralateral eye study, the low-energy fs laser yielded predictable lamellar flap thicknesses and geometry at one-month follow-up. Based on these results, efficacy and safety of the corresponding laser application, that is, 2D vs 3D, are equivalent.

Abstract Image

Abstract Image

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低能飞秒激光辅助LASIK手术中两种不同皮瓣形态的安全性和精度。
目的:目前,创建LASIK皮瓣的两个主要原则是:第一,类似于微角膜切割的严格水平切割(2D),第二,具有“阶梯”边缘的角度切割(3D)。严格的水平(2D)切割方法可以使用低能量FEMTO LDV Z8激光器及其前身等设备来执行,这些设备专门用于这种类型。另外,低能量的FEMTO LDV Z8激光器的3D襟翼设计创造了一个互锁的襟翼界面表面,这可能有助于襟翼的稳定性。此外,FEMTO LDV Z8在对接后(在襟翼形成之前)提供襟翼位置调整。目前的研究分析了使用低能量,高频飞秒(fs)激光设备创建的两种不同类型的LASIK皮瓣形态后的准确性,安全性,有效性以及患者自我报告的疼痛和舒适度。方法:2019年11月至2020年3月,在德国汉堡视力诊所/ zentrumsehstärke进行了一项前瞻性、介入性、随机、对侧眼、单中心比较研究。11例患者22只眼接受低能fs LASIK治疗双眼近视或近视散光。治疗前,双眼随机选取(一只眼采用2D方法,另一只眼采用3D方法)。结果:术后1个月中心瓣平均厚度分别为110.7±1.6 μm (2D)和111.2±1.7 μm (3D);P = 0.365 (2D vs 3D)。在13个不同测点测量皮瓣厚度,两组内/组间任何测点之间均无统计学差异;两种方法均可获得良好的皮瓣平面度。尽管没有统计学意义,但外科医生在手术过程中发现3D皮瓣眼中不透明气泡层的存在增加,一些患者在治疗后的头几个小时内报告3D皮瓣眼的疼痛评分较高,但没有统计学意义。总体而言,安全性和有效性指数分别为1.03和1.03。结论:在这项前瞻性、随机、对侧眼研究中,低能量激光在一个月的随访中获得了可预测的板层瓣厚度和几何形状。基于这些结果,相应激光应用的有效性和安全性,即2D与3D,是等效的。
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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来源期刊
CiteScore
3.60
自引率
0.00%
发文量
63
审稿时长
30 weeks
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