用于精确检测眼部化学烧伤 pH 值的新一代方法:最新分析进展综述。

IF 2.7 3区 化学 Q2 CHEMISTRY, ANALYTICAL
H H P Benuwan Sandaruwan, Danushika C Manatunga, Renuka N Liyanage, Narahenpitage Pabakara Costha, Rohan S Dassanayake, Ruchire Eranga Wijesinghe, Yang Zhou, Yuanyuan Liu
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引用次数: 0

摘要

意外化学品溢出导致的眼部烧伤是一种直接威胁,占紧急眼外伤的 20% 以上。在处理眼部化学烧伤时,必须及早检测眼部 pH 值。碱性化学烧伤比酸性化学烧伤更有害。目前的做法是利用石蕊、硝氮试纸、溴百里酚蓝、荧光染料和微型组合玻璃探针来检测眼部 pH 值。然而,这些方法都存在固有的缺点,导致 pH 值测量不准确、灵敏度较低、光降解、pH 值范围有限以及响应时间较长。因此,亟需开发相对简单、准确、精确的眼部 pH 检测方法。本综述旨在全面介绍意外化学灼伤时眼部 pH 值测量的传统方法,突出其优缺点。此外,研究还深入探讨了前沿技术,包括 pH 感知隐形眼镜、微流控隐形眼镜、荧光巩膜隐形眼镜、光纤 pH 技术和 pH 敏感薄膜。本研究对 2000 年以来所报告的工作进行了细致的审查。收集到的数据还有助于提出未来的研究方向,以及需要填补的研究空白,从而为眼科临床提供更快速、灵敏、准确的眼部 pH 值测量方法。本综述首次整合了眼部 pH 值检测方面的现有技术和最新进展,为推动眼科相关研究的发展和加强化学品泄漏期间的眼部烧伤管理提供了战略性概述。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Next-generation methods for precise pH detection in ocular chemical burns: a review of recent analytical advancements.

Ocular burns due to accidental chemical spillage pose an immediate threat, representing over 20% of emergency ocular traumas. Early detection of the ocular pH is imperative in managing ocular chemical burns. Alkaline chemical burns are more detrimental than acidic chemical burns. Current practices utilize litmus, nitrazine strips, bromothymol blue, fluorescent dyes, and micro-combination glass probes to detect ocular pH. However, these methods have inherent drawbacks, leading to inaccurate pH measurements, less sensitivity, photodegradation, limited pH range, and longer response time. Hence, there is a tremendous necessity for developing relatively simple, accurate, precise ocular pH detection methods. The current review aims to provide comprehensive coverage of the conventional practices of ocular pH measurement during accidental chemical burns, highlighting their strengths and weaknesses. Besides, it delves into cutting-edge technologies, including pH-sensing contact lenses, microfluidic contact lenses, fluorescent scleral contact lenses, fiber optic pH technology, and pH-sensitive thin films. The study meticulously examines the reported work since 2000. The collected data have also helped propose future directions, and the research gap needs to be filled to provide a more rapid, sensitive, and accurate measurement of ocular pH in eye clinics. For the first time, this review consolidates current techniques and recent advancements in ocular pH detection, offering a strategic overview to propel ophthalmic-related research forward and enhance ocular burn management during a chemical spillage.

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来源期刊
Analytical Methods
Analytical Methods CHEMISTRY, ANALYTICAL-FOOD SCIENCE & TECHNOLOGY
CiteScore
5.10
自引率
3.20%
发文量
569
审稿时长
1.8 months
期刊介绍: Early applied demonstrations of new analytical methods with clear societal impact
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