光和激光治疗血管和皮肤疾病:从实验室到诊所-更新

Xiuli Wang
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引用次数: 1

摘要

激光(受激辐射的光放大)是一种发射特定波长的光束并能将其他能量转化为电磁辐射的装置。根据所用介质的不同,激光器可以是固态激光器(红宝石或钕钇铝石榴石(Nd:YAG)激光器)、液态激光器(染料激光器)、气体激光器(氦、氦氖和准分子激光器)或半导体激光器(也称为二极管激光器)。激光在医学上的首次应用是在眼科用点焊的方法修复脱落的视网膜。然而,皮肤科医生,特别是莱昂·戈德曼博士,在医疗激光的进一步发展和应用中发挥了重要作用。戈德曼首先在皮肤病学领域使用激光治疗纹身,使用的是红宝石激光,脉冲为500毫秒。因此,他经常被称为“医学和外科激光教父”。光疗法,也称为光疗或日光疗法,经典地指的是使用紫外线(UV)光来管理疾病状况。几个世纪以来,光疗一直被用于治疗皮肤疾病。随着时间的推移,人们对光疗治疗效果的大多数认识都与观察到的自然光的效果有关。直到20世纪,人造光源才被开发出来,利用紫外线用于医疗目的。尼尔斯·芬森(Niels Finsen)是第一个通过聚焦紫外线治疗皮肤分枝杆菌感染的人,他因此获得了诺贝尔奖。在20世纪中期,紫外线B (UVB)和补骨脂素加紫外线A (PUVA)光疗被用于治疗牛皮癣。最近的进一步研究导致了宽带UVB (290-320 nm)、窄带UVB (311-313 nm)、308 nm准分子激光器和UVA-1 (340-400 nm)辐照的应用。激光和光技术及其在皮肤病学中的应用是一个快速发展的领域。激光和光源也正在与药物联合使用,以优化治疗效果。本期《医学中的光子学与激光》介绍了激光和光基治疗的一些令人鼓舞的应用,特别是在血管疾病和皮肤真菌方面。因此,本社论旨在简要讨论使用激光和光疗法治疗各种皮肤病,包括血管、真菌感染和其他疾病,如炎症、癌前病变和恶性病变。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Light and lasers for vascular and skin diseases: From bench to clinic – An update
The laser (light amplification by stimulated emission of radiation) is a device that emits light beams of specific wavelength and is able to transform other energies into electromagnetic radiation [1]. Depending on the medium they use, lasers can be solid-state lasers [ruby or neodymium:yttrium-aluminum garnet (Nd:YAG) lasers], liquid-state lasers (dye lasers), gas lasers (helium, heliumneon and excimer lasers) or semi-conductor lasers (also called diode lasers). The laser’s first medical use was to repair detached retinas by means of spot welding in ophthalmology [2]. However, dermatologists, especially Dr. Leon Goldman, played an important role in the further development and application of medical lasers. Goldman first used the laser in the field of dermatology to treat tattoos using a ruby laser, with 500-ms pulses [3]. As a result, he is often referred to as the “godfather of lasers in medicine and surgery” [4]. Light therapy, also called phototherapy or heliotherapy, classically refers to the use of ultraviolet (UV) light in the management of disease conditions. Phototherapy has been used for centuries to treat skin disorders. Most of the insights into the therapeutic benefit of phototherapy, that have been gained over time, have been related to observed effects of natural sunlight. It was not until the 20th century that artificial light sources were developed to utilize UV light for medical purposes. Niels Finsen was the first person to treat a cutaneous mycobacterial infection of the skin by the focused delivery of UV light for which he was awarded the Nobel Prize [5]. The development continued and in the middle of the 20th century, ultraviolet B (UVB) and psoralen plus ultraviolet A (PUVA) phototherapy were used, primarily for treatment of psoriasis. More recently further research has led to the application of broadband UVB (290–320 nm), narrowband UVB (311–313 nm), 308 nm excimer lasers, and UVA-1 (340–400 nm) irradiation. Laser and light technology and its use in dermatology is a rapidly advancing field. Laser and light sources are also being used in combination with pharmacological agents to optimize the therapeutic outcome [6]. This issue of Photonics & Lasers in Medicine presents some encouraging efforts in the application of lasers and light-based therapy especially in vascular diseases and dermatophyte fungi. Therefore, the present editorial aims to briefly discuss the use of lasers and light-based therapies for various skin conditions including vascular, fungal infections and other diseases such as inflammatory, premalignant and malignant lesions.
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