Optical Fiber Characterized with a Low Refractive Index can Detect Blood - Blood Increased Light Loss through an Air-Cladding Optical Fiber

International Conference on Biomedical Electronics and Devices Pub Date : 2016-12-06 DOI:10.5220/0003122003070310

A. Takeuchi, Tomohiro Miwa, M. Sawada, Haruo Imaizumi, Hiroyuki Sugibuchi, M. Hirose, N. Ikeda

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Abstract

Large amounts of undetected blood loss during hemodialysis are caused by venous needle dislodgement. A special air-cladding plastic optical fiber with a low refractive index, fluoropolymer, PFA fiber, JUNFLON, was developed to monitor oil and lipid leakage in industrial fields, and to monitor the dust in the air in clean rooms. To apply the air-cladding plastic optical fiber as a bleed sensor, we studied the optical effects of soaking the fiber with various liquids and porcine blood on light-loss experimental settings. Light intensity through the fiber was studied with a light emitting diode and a photodiode under various conditions of soaked fiber with reverse osmosis water, physiological saline, glucose, and porcine blood. The more the soaked length increased with all mediums, the more the light intensity decreased. Although the slopes of the decreased curves varied according to the mediums, the light scattering phenomena caused by the mediums can be applied to a bleed sensor for clinical use.

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低折射率光纤可以通过空气包层光纤检测血液增加的光损失

血液透析过程中大量未被发现的失血是由静脉针头脱位引起的。研制了一种低折射率含氟聚合物PFA专用空气包层塑料光纤JUNFLON，用于工业现场的油脂泄漏监测和洁净室空气中的粉尘监测。为了将空气包层塑料光纤作为放光传感器，研究了不同液体和猪血浸泡光纤在光损失实验环境下的光学效应。用发光二极管和光电二极管研究了反渗透水、生理盐水、葡萄糖和猪血浸泡纤维的不同条件下通过纤维的光强。各介质浸泡时间越长，光强越弱。虽然下降曲线的斜率随介质的不同而变化，但介质引起的光散射现象可以应用于临床使用的出血传感器。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International Conference on Biomedical Electronics and Devices

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