市售高能可见光过滤眼镜片的光谱透射率。

IF 1.6 4区 医学 Q3 OPHTHALMOLOGY Optometry and Vision Science Pub Date : 2024-09-03 DOI:10.1097/opx.0000000000002171
Nishanee Rampersad,Anthony Carlson
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This study reports on the spectral transmission characteristics of commercially available HEV light-filtering spectacle lenses based on the recommendations of the Spectral Bands Task Force technical report.\r\n\r\nMETHODS\r\nThe spectral transmission of light through nine afocal plastic lenses, including eight commercially available HEV light-filtering lenses and one clear uncoated control lens, was evaluated using a Cary 5000 UV-Vis-NIR spectrophotometer (Agilent Technologies, Johannesburg, South Africa) for wavelengths 250 to 780 nm. The percentage transmission values are reported for UV radiation and visible light, with emphasis for HEV light (380 to 500 nm) and the three subbands therein.\r\n\r\nRESULTS\r\nAll lenses blocked UV-C and UV-B radiation (250 to 315 nm). For UV-A radiation (315 to 380 nm), six lenses showed optimal 100% absorption, whereas three lenses allowed ≤12%. 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引用次数: 0

摘要

意义尽管支持使用高能可见光(HEV)过滤镜片的证据有限,但这种镜片仍被广泛推广。市售镜片的光谱透射性能各不相同,尤其是在 HEV 光区域,它们在透射紫外线 (UV)-A 和 HEV 光方面的表现也不尽相同。高能可见光过滤眼镜片正在市场上广泛销售,以通过减少 HEV 光的照射来促进眼部健康和改善睡眠。方法使用 Cary 5000 紫外-可见-近红外分光光度计(安捷伦科技公司,南非约翰内斯堡)对九种非焦距塑料镜片(包括八种市售的高能可见光过滤镜片和一种未镀膜的透明对照镜片)的光谱透射率进行了评估,波长为 250 至 780 纳米。结果所有镜片都能阻挡 UV-C 和 UV-B 辐射(250 至 315 纳米)。对于紫外线-A 辐射(315 至 380 纳米),六片镜片显示出最佳的 100% 吸收率,而三片镜片的吸收率≤12%。对于波长为 400 至 455 纳米和 455 至 500 纳米的 HEV 光,HEV 滤光镜片的透射率分别为 55% 至 90% 和 75% 至 95%。结论:HEV 滤光眼镜片的透光性能各不相同,对紫外线-A 和 HEV 光的透光性能也不一定相同。验光人员在向患者推荐 HEV 滤光眼镜时,应考虑这些透射性能,尤其是 HEV 光的透射性能。
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Spectral transmission of commercially available high-energy visible light-filtering spectacle lenses.
SIGNIFICANCE High-energy visible (HEV) light-filtering spectacle lenses are being widely promoted despite limited evidence to support their use. The spectral transmission properties of commercially available lenses varied, particularly in the HEV light region, and they do not perform in the same way for transmission of ultraviolet (UV)-A and HEV light. PURPOSE Although HEV light is important for several visual and nonvisual functions, there are concerns over the potential adverse effects of increased HEV light exposure. High-energy visible light-filtering spectacle lenses are being widely marketed to promote ocular health and improve sleep by reducing exposure to HEV light. This study reports on the spectral transmission characteristics of commercially available HEV light-filtering spectacle lenses based on the recommendations of the Spectral Bands Task Force technical report. METHODS The spectral transmission of light through nine afocal plastic lenses, including eight commercially available HEV light-filtering lenses and one clear uncoated control lens, was evaluated using a Cary 5000 UV-Vis-NIR spectrophotometer (Agilent Technologies, Johannesburg, South Africa) for wavelengths 250 to 780 nm. The percentage transmission values are reported for UV radiation and visible light, with emphasis for HEV light (380 to 500 nm) and the three subbands therein. RESULTS All lenses blocked UV-C and UV-B radiation (250 to 315 nm). For UV-A radiation (315 to 380 nm), six lenses showed optimal 100% absorption, whereas three lenses allowed ≤12%. The transmission values for the HEV light-filtering lenses ranged from 55 to 90% and 75 to 95% for HEV light of wavelengths 400 to 455 nm and 455 to 500 nm, respectively. In contrast, the control lens showed 92 (400 to 455 nm) and 93% (455 to 500 nm) transmission. CONCLUSIONS The HEV light-filtering spectacle lenses varied in their transmission properties and do not necessarily perform in the same way for transmission of UV-A and HEV light. Optometric personnel should consider these transmission properties, particularly for HEV light, when making recommendations to patients about HEV light-filtering spectacle lenses.
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来源期刊
Optometry and Vision Science
Optometry and Vision Science 医学-眼科学
CiteScore
2.80
自引率
7.10%
发文量
210
审稿时长
3-6 weeks
期刊介绍: Optometry and Vision Science is the monthly peer-reviewed scientific publication of the American Academy of Optometry, publishing original research since 1924. Optometry and Vision Science is an internationally recognized source for education and information on current discoveries in optometry, physiological optics, vision science, and related fields. The journal considers original contributions that advance clinical practice, vision science, and public health. Authors should remember that the journal reaches readers worldwide and their submissions should be relevant and of interest to a broad audience. Topical priorities include, but are not limited to: clinical and laboratory research, evidence-based reviews, contact lenses, ocular growth and refractive error development, eye movements, visual function and perception, biology of the eye and ocular disease, epidemiology and public health, biomedical optics and instrumentation, novel and important clinical observations and treatments, and optometric education.
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