中红外激光辐射对眼组织影响的评价(实验研究)

Q4 Medicine

Oftalmologiya Pub Date : 2023-10-02 DOI:10.18008/1816-5095-2023-3-508-514

Yu. N. Yusef, D. V. Petrachkov, E. N. Korobov, I. A. Novikov, M. V. Kravchik

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引用次数: 0

摘要

目的:研究波长为3.0 μm的中红外激光对眼组织的影响。材料和方法。实验激光装置为“中红外2 ~ 8 μm精密手术用激光手术刀”。该激光器产生的辐射光谱范围与水、蛋白质和胆固醇酯等生物组织发色团的光谱吸收峰一致，这使得在精密外科(眼科、神经外科、血管外科)中使用该激光器成为可能。在本研究中，我们选择的波长为3µm，与水的光谱吸收峰重合。以猪眼和尸体眼的视网膜、脉络膜、巩膜为生物组织。在空气中进行了激光辐射对组织的影响。在不同的模式下进行混凝剂的应用:1)单脉冲，2)连续模式。用扫描电子显微镜观察激光辐射对眼组织的影响。结果。当暴露于能量为1mj的单一激光脉冲时，观察到视网膜的穿透缺陷。当能量为1 ~ 3 mJ的激光脉冲照射在脉络膜上时，弹坑深度为110 ~ 130µm，弹坑宽度为97 ~ 122µm，附带损伤区为22 ~ 28µm。当能量为1 ~ 3mj的单脉冲激光照射巩膜时，弹坑深度为170 ~ 201µm，宽度为260 ~ 303µm，附带损伤区为57 ~ 72µm。连续照射脉络膜和巩膜时，激光参数相似的激光照射深度、凝固宽度、附带损伤区均大于单脉冲照射。结论。使用波长为3 μm的激光，可以解剖眼部组织，这可以用于玻璃体视网膜手术的视网膜切开术，切除脉络膜色素上皮复合体，以及非穿透性深巩膜切除术的抗青光眼手术。然而，需要进一步研究优化激光参数，如包内脉冲数、脉冲持续时间和脉冲能量。

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Evaluation of the Impact of Mid-Infrared Laser Radiation on Eye Tissues (Experimental Study)

Purpose — to study the effect of a mid-infrared laser with a wavelength of 3.0 μm on the eye tissue. Materials and methods . An experimental laser device “Laser scalpel in the middle infrared range 2–8 μm for precision surgery” was used. The range of the radiation spectrum generated by this laser coincides with the spectral absorption peaks of such biological tissue chromophores as water, proteins and cholesterol esters, which makes it possible to use this laser in precision surgery (ophthalmology, neurosurgery, vascular surgery). In this study, we chose a wavelength of 3 µm, which coincides with the peak of the spectral absorption of water. The retina, choroid, sclera of porcine and cadaveric eyes was used as biological tissue. The effect of laser radiation on tissue was carried out in air. The application of coagulates was performed in different modes: 1) single pulses, 2) continuous mode. The impact of laser radiation on eye tissues was assessed using a scanning electron microscope. Results . When exposed to a single laser pulse with an energy of even 1 mJ, a through defect of the retina was observed. When exposed to a single laser pulse on the choroid with an energy of 1 to 3 mJ, the depth of the crater was 110–130 µm, the width of the crater was 97–122 µm, and the zone of collateral damage was 22–28 µm. When exposed to a single laser pulse on the sclera with an energy of 1 to 3 mJ, the depth of the crater was 170–201 µm, the width of the crater was 260–303 µm, and the zone of collateral damage was 57–72 µm. With continuous exposure to laser radiation on the choroid and sclera, the depth, width of the coagulate, the zone of collateral damage with similar laser parameters were greater than with a single pulse. Conclusion . Using this laser at a wavelength of 3 μm, it is possible to dissect eye tissues, which can be useful in vitreoretinal surgery for retinotomy, cutting out the choroid-pigment epithelium complex, and in antiglaucoma surgery for non-penetrating deep sclerectomy. However, further research is needed to optimize such laser parameters as the number of pulses in a packet, pulse duration, and pulse energy.

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来源期刊

Oftalmologiya Medicine-Ophthalmology

CiteScore

0.60

自引率

0.00%

发文量

审稿时长

8 weeks

期刊介绍： The scientific journal Oftalmologiya is included in the Scopus database. Publisher country is RU. The main subject areas of published articles are Ophthalmology, Физиология, Клиническая медицина, Профилактическая медицина, Медико-биологические науки, Фармацевтические науки. Before sending a scientific article, we recommend you to read the section For authors. This will allow you to prepare an article better for publication, to make it more interesting for the readers and useful for the scientific community. By following these steps, you will greatly increase the likelihood of your scientific article publishing in journals included in international citation systems (e.g., Scopus). Then you may choose a different journal, select the journal included to list of SAC Russia journal list, or send your scientific work for review and publication.