Spectral reflectance technique for retinal blood oxygen evaluation in humans

Applied Imagery Pattern Recognition Workshop, 2002. Proceedings. Pub Date : 2002-10-16 DOI:10.1109/AIPR.2002.1182264

J. Beach

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引用次数: 7

Abstract

Retinal diseases such as diabetic retinopathy, glaucoma, vein occlusion and optic nerve atrophy are associated with abnormal oxygen tension and bloodflow in surface vessels of the retina. Visible reflected light spectroscopy has in the past been applied to hemoglobin oxygen saturation measurements from the body surface, as with measurements from skin and wounds, from intact brain vessels during surgical intervention, and as well, from the retinal vessels and other ocular structures inside the body. All of these measurements are complicated by lack of visible light penetration, interference from secondary chromophores, specular return of light and wavelength-dependent penetration to different layers in different structures. We present spectral reflectance curves obtained with a prism-grating-prism (PGP) spectrographic camera from structures producing hemoglobin signatures, including the retinal artery and vein, the pigmented retina and the optic disk, as well as from the macular area which is free of this signature. Oxygen-dependent changes in the hemoglobin signature are determined from vessels and tissue surround.

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光谱反射技术评价人眼视网膜血氧

糖尿病视网膜病变、青光眼、静脉闭塞和视神经萎缩等视网膜疾病与视网膜表面血管的氧张力和血流异常有关。过去，可见反射光光谱学已被应用于体表血红蛋白氧饱和度的测量，以及皮肤和伤口的测量，手术过程中完整的脑血管的测量，以及体内视网膜血管和其他眼部结构的测量。由于缺乏可见光穿透、二次发色团的干扰、光的镜面反射以及对不同结构中不同层的波长相关穿透，所有这些测量都很复杂。我们展示了用棱镜光栅棱镜(PGP)光谱相机从产生血红蛋白特征的结构中获得的光谱反射曲线，包括视网膜动脉和静脉，色素视网膜和视盘，以及从没有这种特征的黄斑区域获得的光谱反射曲线。血红蛋白特征中的氧依赖性变化是由血管和组织周围确定的。

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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Applied Imagery Pattern Recognition Workshop, 2002. Proceedings.

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