Optical glucose sensor using a single Faraday rotator

Proceedings of the IEEE 23rd Northeast Bioengineering Conference Pub Date : 1997-05-21 DOI:10.1109/NEBC.1997.594934
Sunghoon Jang, M. D. Fox
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引用次数: 10

Abstract

A new approach to non-invasive closed loop optical glucose sensing has been proposed. Incident light on the cornea travels into the eye and reflects from the retina. The reflected light contains information about glucose concentration in the aqueous humor which can potentially be used to measure long term and instantaneous blood glucose concentration. Previous designs have utilized two Faraday rotators to create a closed loop system. The data reported here indicates that only one Faraday rotator is actually needed for this system. The modifications not only cut the system cost substantially, but also improve sensitivity by 143%, over a two Faraday rotator implementation.
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使用单个法拉第旋转器的光学葡萄糖传感器
提出了一种无创闭环光学葡萄糖传感的新方法。入射到角膜上的光进入眼睛并从视网膜反射出来。反射光包含房水中葡萄糖浓度的信息,可以潜在地用于测量长期和瞬时血糖浓度。以前的设计利用两个法拉第旋转器来创建一个闭环系统。这里报告的数据表明,该系统实际上只需要一个法拉第旋转器。这些改进不仅大大降低了系统成本,而且与两个法拉第旋转器相比,灵敏度提高了143%。
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Proceedings of the IEEE 23rd Northeast Bioengineering Conference
Proceedings of the IEEE 23rd Northeast Bioengineering Conference
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