Silvia Tavazzi, Anna Galli, Francesco Maspero, Giulia Carlotta Rizzo, Fabrizio Zeri, Erika Ponzini
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引用次数: 0
Abstract
In contact lens (CL) wear, maintaining adequate CL hydration is essential to prevent ocular dryness and associated discomfort. In this context, dehydration of worn Etafilcon A and Kalifilcon A CLs hydrated by natural tears was monitored using an in-vitro gravimetric method. A kinetic model was applied to derive the water kinetics coefficient, which emerged as a reliable indicator of the on-eye hydration state and water diffusion mechanisms. A significant reduction in water content and a tendency from a polymer-hindered water diffusion toward free diffusion were observed after just five minutes of wear, suggesting a rapid initial adaptation to the ocular environment that alters the material resistance to water evaporation. After two hours of wear, a similar effect was evident in approximately half of the samples investigated, indicating that a new hydration equilibrium may eventually be reached over time.
在隐形眼镜(CL)佩戴,保持足够的CL水合作用是必不可少的,以防止眼睛干燥和相关的不适。在这种情况下,使用体外重量法监测磨损的Etafilcon A和Kalifilcon A CLs经自然泪液水合后的脱水情况。应用动力学模型推导出了水动力学系数,该系数可作为眼内水化状态和水扩散机制的可靠指标。在磨损五分钟后,观察到水含量显著减少,并且从聚合物阻碍水扩散向自由扩散的趋势,这表明对眼睛环境的快速初始适应改变了材料对水蒸发的抵抗力。经过两个小时的磨损,在大约一半的样品中可以明显地看到类似的效果,这表明随着时间的推移,最终可能会达到新的水化平衡。
期刊介绍:
Contact Lens & Anterior Eye is a research-based journal covering all aspects of contact lens theory and practice, including original articles on invention and innovations, as well as the regular features of: Case Reports; Literary Reviews; Editorials; Instrumentation and Techniques and Dates of Professional Meetings.
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