具有3.2兆赫兹A线率的双焦点快速扫描光声显微镜。
Dual-foci fast-scanning photoacoustic microscopy with 3.2-MHz A-line rate.
作者信息
Chen Jiangbo, Zhang Yachao, Bai Songnan, Zhu Jingyi, Chirarattananon Pakpong, Ni Kai, Zhou Qian, Wang Lidai
机构信息
Department of Biomedical Engineering, City University of Hong Kong, 83 Tat Chee Ave, Kowloon, Hong Kong SAR, China.
Division of Advanced Manufacturing, Shenzhen International Graduate School, Tsinghua University, Shenzhen, 518055, China.
出版信息
Photoacoustics. 2021 Aug 9;23:100292. doi: 10.1016/j.pacs.2021.100292. eCollection 2021 Sep.
We report fiber-based dual-foci fast-scanning OR-PAM that can double the scanning rate without compromising the imaging resolution, the field of view, and the detection sensitivity. To achieve fast scanning speed, the OR-PAM system uses a single-axis water-immersible resonant scanning mirror that can confocally scan the optical and acoustic beams at 1018 Hz with a 3-mm range. Pulse energies of 45∼100-nJ are sufficient for acquiring vascular and oxygen-saturation images. The dual-foci method can double the B-scan rate to 2036 Hz. Using two lasers and stimulated Raman scattering, we achieve dual-wavelength excitation on both foci, and the total A-line rate is 3.2-MHz. In in vivo experiments, we inject epinephrine and monitor the hemodynamic and oxygen saturation response in the peripheral vessels at 1.7 Hz over 2.5 × 6.7 mm. Dual-foci OR-PAM offers a new imaging tool for the study of fast physiological and pathological changes.
我们报道了基于光纤的双焦点快速扫描光学分辨率光声显微镜(OR-PAM),它能够在不影响成像分辨率、视野和检测灵敏度的情况下,将扫描速率提高一倍。为实现快速扫描速度,该OR-PAM系统采用了单轴水浸式共振扫描镜,其能够以1018 Hz的频率共聚焦扫描光学和声学光束,扫描范围为3毫米。45~100 nJ的脉冲能量足以获取血管和氧饱和度图像。双焦点方法可将B扫描速率提高一倍,达到2036 Hz。通过使用两台激光器和受激拉曼散射,我们在两个焦点上实现了双波长激发,总A线速率为3.2 MHz。在体内实验中,我们注射肾上腺素,并在2.5×6.7毫米的范围内以1.7 Hz的频率监测外周血管中的血流动力学和氧饱和度反应。双焦点OR-PAM为研究快速生理和病理变化提供了一种新的成像工具。
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