超连续谱光源可实现组织床内毛细血管的活体光学微血管成像。
Supercontinuum light source enables in vivo optical microangiography of capillary vessels within tissue beds.
机构信息
Department of Bioengineering, University of Washington, Seattle, Washington 98195, USA.
出版信息
Opt Lett. 2011 Aug 15;36(16):3169-71. doi: 10.1364/OL.36.003169.
Abstract
This Letter reports on the use of a supercontinuum light source to achieve ultrahigh resolution and ultrahigh sensitive optical microangiography (OMAG) imaging of microcirculations within tissue beds in vivo. After passing through a specially designed optical filter with a passband of 120 nm centered on 800 nm, the light source is coupled into an optic-fiber-based OMAG system that provides a measured axial resolution of ∼3 μm over a ranging distance of 2 mm. Within this ranging distance, the system gives an averaged signal-to-noise ratio of 87 dB and a sensitivity roll-off of 7 dB at an A-scan rate of 70 kHz. We demonstrate the capability of the system to visualize a detailed microvascular perfusion map, including the single red blood cells within the capillaries, by imaging a mouse ear flap in vivo.
摘要
这封信件报告了使用超连续谱光源实现超高分辨率和超高灵敏度的活体组织内微循环光学微血管造影(OMAG)成像。光源通过一个中心波长为 800nm、带宽为 120nm 的特制光学滤波器后,耦合进入基于光纤的 OMAG 系统,该系统在 2mm 的测量距离内提供了约 3μm 的轴向分辨率。在这个测量距离内,系统在 70kHz 的 A 扫描率下,平均信噪比为 87dB,灵敏度下降 7dB。我们通过对活体小鼠耳瓣成像,证明了该系统能够可视化详细的微血管灌注图,包括毛细血管内的单个红细胞。
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