High-speed high-resolution laser diode-based photoacoustic microscopy for in vivo microvasculature imaging.

4区计算机科学 Q1 Arts and Humanities Visual Computing for Industry, Biomedicine, and Art Pub Date : 2021-01-11 DOI:10.1186/s42492-020-00067-5

Xiufeng Li, Victor T C Tsang, Lei Kang, Yan Zhang, Terence T W Wong

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引用次数: 9

Abstract

Laser diodes (LDs) have been considered as cost-effective and compact excitation sources to overcome the requirement of costly and bulky pulsed laser sources that are commonly used in photoacoustic microscopy (PAM). However, the spatial resolution and/or imaging speed of previously reported LD-based PAM systems have not been optimized simultaneously. In this paper, we developed a high-speed and high-resolution LD-based PAM system using a continuous wave LD, operating at a pulsed mode, with a repetition rate of 30 kHz, as an excitation source. A hybrid scanning mechanism that synchronizes a one-dimensional galvanometer mirror and a two-dimensional motorized stage is applied to achieve a fast imaging capability without signal averaging due to the high signal-to-noise ratio. By optimizing the optical system, a high lateral resolution of 4.8 μm has been achieved. In vivo microvasculature imaging of a mouse ear has been demonstrated to show the high performance of our LD-based PAM system.

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用于体内微血管成像的高速高分辨率激光二极管光声显微镜。

激光二极管(ld)被认为是一种经济、紧凑的激励源，克服了光声显微镜(PAM)中常用的昂贵、笨重的脉冲激光源的要求。然而，先前报道的基于ld的PAM系统的空间分辨率和/或成像速度并没有同时优化。在本文中，我们开发了一个高速和高分辨率的基于LD的PAM系统，使用连续波LD，在脉冲模式下工作，重复频率为30 kHz，作为激发源。由于高信噪比，采用了一种同步一维振镜和二维机动平台的混合扫描机构，以实现快速成像能力，而无需信号平均。通过对光学系统的优化，获得了4.8 μm的横向分辨率。小鼠耳朵的体内微血管成像已经证明了我们基于ld的PAM系统的高性能。

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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