A lab-on-fiber (LOF) optofluidic platform that provides physiologically relevant microenvironment was developed by integrating a long period grating (LPG) coupled with high order cladding mode to achieve high index sensitivity and a liquid-tight capillary tube assembly as a microfluidic chamber for LPG to mimic physiologically relevant microenvironment. We demonstrate the utility of LOF for in situ monitoring the construction of the [chitosan (CHI)/poly (acrylic acid) (PAA)/gentamicin sulfate (GS)/PAA]n multilayers at monolayer resolution as well as evaluating the rate of GS release at a flow rate of 0.127 mL/min at 37 °C in real time. We reveal that GS is released at a faster rate under the dynamic flow condition than in a static medium. Our findings underscore the importance of conducting drug release studies in physiologically relevant conditions.
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机译:通过集成长周期光栅(LPG)和高阶包层模式以实现高折射率灵敏度和液密毛细管组件作为微流体腔室,开发了提供生理相关微环境的光纤实验室(LOF)光流体平台。 LPG模仿生理相关的微环境。我们展示了LOF在单层分辨率下用于原位监测[壳聚糖(CHI)/聚(丙烯酸)(PAA)/硫酸庆大霉素(GS)/ PAA] n多层膜的结构以及评估GS速率的实用性在37°C下以0.127 mL / min的流速实时释放。我们发现,在动态流动条件下,GS的释放速率比在静态介质中的释放速率快。我们的发现强调了在生理相关条件下进行药物释放研究的重要性。
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