Comprehensive in Vivo Micro-vascular Imaging of the Human Eye by Dual-beam-scan Doppler Optical Coherence Angiography

Overview

Journal Opt Express

Specialties Biophysics
Ophthalmology

Date 2011 Jan 26

PMID 21263668

Citations 56

Authors

Shuichi Makita

Franck Jaillon

Masahiro Yamanari

Masahiro Miura

Yoshiaki Yasuno

Affiliations

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Abstract

Comprehensive angiography provides insight into the diagnosis of vascular-related diseases. However, complex microvascular networks of unstable in vivo organs such as the eye require micron-scale resolution in three dimensions and a high sampling rate to access a wide area as maintaining the high resolution. Here, we introduce dual-beam-scan Doppler optical coherence angiography (OCA) as a label-free comprehensive ophthalmic angiography that satisfies theses requirements. In addition to high resolution and high imaging speed, high sensitivity to motion for detecting tiny blood flow of microvessels is achieved by detecting two time-delayed signals with scanning of two probing beams separated on a sample. We present in vivo three-dimensional imaging of the microvasculature of the posterior part of the human eye. The demonstrated results show that this technique may be used for comprehensive ophthalmic angiography to evaluate the vasculature of the posterior human eye and to diagnose variety of vascular diseases.

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