光学微血管造影提供了人类受试者视神经乳头的微观结构和微血管之间的相关性。
Optical microangiography provides correlation between microstructure and microvasculature of optic nerve head in human subjects.
机构信息
University of Washington, Departments of Bioengineering, Seattle, Washington 98195, USA.
出版信息
J Biomed Opt. 2012 Nov;17(11):116018. doi: 10.1117/1.JBO.17.11.116018.
Abstract
It is demonstrated that optical microangiography (OMAG) is capable of imaging the detailed microstructure and microvasculature of the in vivo human optic nerve head (ONH), including the prelaminar tissue, the lamina cribrosa, the scleral rim and the vessels in the region of the circle of Zin-Haller. For demonstration, an ultrahigh sensitive OMAG system operating in the 850 nm wavelength region and a 500 kHz A-scan rate resulting in a spatial resolution of ∼6 μm were used. It was shown that OMAG provides superior results for three-dimensional imaging of the ONH compared to conventional optical coherence tomography by simultaneously recording both the microstructure and the functional microcirculation. The blood supply to the tissues of the ONH is an essential physiologic parameter needed for clinical assessment of the health of the nerve.
摘要
研究表明,光学微血管成像(OMAG)能够对活体人视神经乳头(ONH)的详细微观结构和微血管成像,包括前层组织、筛板、巩膜边缘以及 Zin-Haller 环区域的血管。为了演示,我们使用了工作在 850nm 波长区域的超高灵敏度 OMAG 系统和 500kHz 的 A 扫描速率,其空间分辨率约为 6μm。结果表明,与传统的光学相干断层扫描相比,OMAG 同时记录微观结构和功能微循环,为 ONH 的三维成像提供了更好的结果。ONH 组织的血液供应是评估神经健康所需的重要生理参数。
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