可见光光学相干断层扫描血管造影（vis-OCTA）有助于对人视网膜进行局部微血管血氧测定。

Visible light optical coherence tomography angiography (vis-OCTA) facilitates local microvascular oximetry in the human retina.

作者信息

Song Weiye, Shao Wenjun, Yi Wei, Liu Rongrong, Desai Manishi, Ness Steven, Yi Ji

机构信息

Department of Medicine, Boston University School of Medicine, Boston Medical Center, Boston 02118, USA.

Department of Biomedical Engineering, Northwestern University, Evanston, IL 60208, USA.

出版信息

Biomed Opt Express. 2020 Jun 30;11(7):4037-4051. doi: 10.1364/BOE.395843. eCollection 2020 Jul 1.

DOI:10.1364/BOE.395843

PMID:33014584

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7510897/

Abstract

We report herein the first visible light optical coherence tomography angiography (vis-OCTA) for human retinal imaging. Compared to the existing vis-OCT systems, we devised a spectrometer with a narrower bandwidth to increase the spectral power density for OCTA imaging, while retaining the major spectral contrast in the blood. We achieved a 100 kHz A-line rate, the fastest acquisition speed reported so far for human retinal vis-OCT. We rigorously optimized the imaging protocol such that a single acquisition took < 6 seconds with a field of view (FOV) of 3×7.8 mm. The angiography enables accurate localization of microvasculature down to the capillary level and thus enables oximetry at vessels < 100 µm in diameter. We demonstrated microvascular hemoglobin oxygen saturation (sO) at the feeding and draining vessels at the perifoveal region. The longitudinal repeatability was assessed by < 5% coefficient of variation (CV). The unique capabilities of our vis-OCTA system may allow studies on the role of microvascular oxygen in various retinal pathologies.

摘要

我们在此报告首次用于人类视网膜成像的可见光光学相干断层扫描血管造影（vis - OCTA）。与现有的vis - OCT系统相比，我们设计了一种带宽更窄的光谱仪，以增加用于OCTA成像的光谱功率密度，同时保留血液中的主要光谱对比度。我们实现了100 kHz的A线速率，这是迄今为止人类视网膜vis - OCT报告的最快采集速度。我们严格优化了成像方案，使得在3×7.8 mm的视野（FOV）下，单次采集时间小于6秒。这种血管造影能够精确地将微血管定位到毛细血管水平，从而能够对直径小于100 µm的血管进行血氧测定。我们展示了中央凹周围区域供血和引流血管处的微血管血红蛋白氧饱和度（sO）。纵向重复性通过小于5%的变异系数（CV）进行评估。我们的vis - OCTA系统的独特功能可能有助于研究微血管氧在各种视网膜病变中的作用。

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