隐形眼镜
镜头(地质)
材料科学
眼睑
眼科
微流控
光学
纳米技术
医学
物理
作者
Yangzhi Zhu,Rohollah Nasiri,Elham Davoodi,Shiming Zhang,Sourav Saha,Matthew Linn,Lu Jiang,Reihaneh Haghniaz,Martin C. Hartel,Vadim Jucaud,Mehmet R. Dokmeci,Anna Herland,Ehsan Toyserkani,Ali Khademhosseini
出处
期刊:Small
[Wiley]
日期:2022-12-23
卷期号:19 (11): e2207017-e2207017
被引量:21
标识
DOI:10.1002/smll.202207017
摘要
The contact lens (CL) industry has made great strides in improving CL-wearing experiences. However, a large amount of CL wearers continue to experience ocular dryness, known as contact lens-induced dry eye (CLIDE), stemming from the reduction in tear volume, tear film instability, increased tear osmolarity followed by inflammation and resulting in ocular discomfort and visual disturbances. In this article, to address tear film thinning between the CL and the ocular surface, the concept of using a CL with microchannels to deliver the tears from the pre-lens tear film (PrLTF) to the post-lens ocular surface using in vitro eye-blink motion is investigated. This study reports an eye-blink mimicking system with microfluidic poly(2-hydroxyethyl methacrylate) (poly(HEMA)) hydrogel with integrated microchannels to demonstrate eye-blink assisted flow through microchannels. This in vitro experimental study provides a proof-of-concept result that tear transport from PrLTF to post-lens tear film can be enhanced by an artificial eyelid motion in a pressure range of 0.1-5 kPa (similar to human eyelid pressure) through poly(HEMA) microchannels. Simulation is conducted to support the hypothesis. This work demonstrates the feasibility of developing microfluidic CLs with the potential to help prevent or minimize CLIDE and discomfort by the enhanced transport of pre-lens tears to the post-lens ocular surface.
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