ATR-FTIR, SAXS and UV-Vis Studies of Silicone Hydrogel and Bio-Hydrogel Soft Contact Lenses

Asian Journal of Applied Chemistry Research Pub Date : 2022-10-18 DOI:10.9734/ajacr/2022/v12i1210

S. Bayari, Tuğba Göcen, A. Bacıoğlu, S. İde

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Abstract

Aims: This study aimed to evaluate the effect of contact lens materials on the structural properties and to examine ultraviolet (UVA part) and visible (Vis) transmittance with and without UV filters of the commercially available silicone hydrogel (SiHy) and bio-hydrogel (bio-Hy) soft contact lenses (CLs) in vitro. Place and Duration of Study: Hacettepe University, Department of Physics, Ankara, Turkey, between May 2018 and May 2021. Methodology:Attenuated Total Reflectance Fourier Transform Infrared (ATR-FTIR) spectra of CLs were recorded (at removing from its package, after 10 min, 1 h and 1 day at room temperature) in the 4000-650 cm-1region to estimate water contents of CLs. Hierarchical Cluster Analysis (HCA) was performed to differentiate chemical structure of CLs based on the spectral differences. Ultraviolet (UVA) and visible light transmittance of (CLs) was measured in the 315 -800 nm region. Small Angle X-ray Scattering (SAXS) analyses were performed to obtain further structural information on nano-scale. Results: One of the key observations in this study is the large influence of lens water content. The HCA analysis grouped all the CLs of same brand in same cluster based on their chemical similarity. The UVA transmittance results showed that CLs with UV blockers almost met ClassI and ClassII standards. The size (11.8-39.9 nm) and differences in morphologies of the nano globules were determined and correlated with equilibrium water content (EWC). Conclusion: This work was designed to explain important characteristics of commercial CLs and results will have implications for future experimental and clinical research regarding hydration/ dehydration experiments with CL polymers.

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有机硅水凝胶和生物水凝胶软性隐形眼镜的ATR-FTIR、SAXS和UV-Vis研究

目的:评价隐形眼镜材料对隐形眼镜结构性能的影响，并对市售硅水凝胶(SiHy)和生物水凝胶(bio-Hy)软性隐形眼镜(CLs)的紫外(UVA)部分和可见光(Vis)透过率进行检测。学习地点和时间:2018年5月至2021年5月，土耳其安卡拉Hacettepe大学物理系。方法:在4000-650 cm-1区域记录CLs的衰减全反射傅立叶变换红外(ATR-FTIR)光谱(从包装中取出时，室温下10分钟，1小时和1天)，以估计CLs的含水量。基于光谱差异，采用层次聚类分析(HCA)对CLs的化学结构进行区分。在315 ~ 800 nm范围内测定了CLs的紫外(UVA)和可见光透过率。小角x射线散射(SAXS)分析得到纳米尺度的结构信息。结果:本研究的关键观察结果之一是晶状体含水量的影响很大。HCA分析根据化学相似性将同一品牌的所有CLs归为同一类。UVA透过率测试结果显示，使用UV阻滞剂的CLs几乎符合i类和i类标准。测定了纳米微球的尺寸(11.8 ~ 39.9 nm)和形貌差异，并将其与平衡含水量(EWC)进行了关联。结论:本研究旨在解释商用CL的重要特征，其结果将对未来CL聚合物水合/脱水实验的实验和临床研究产生影响。

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Asian Journal of Applied Chemistry Research

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