Multifocal photoacoustic microscopy through an ergodic relay (Conference Presentation)

Photons Plus Ultrasound: Imaging and Sensing 2019 Pub Date : 2019-03-04 DOI:10.1117/12.2513502

Yang Li, T. T. Wong, Junhui Shi, H. Hsu, Lihong V. Wang

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Abstract

To date, most optical-resolution photoacoustic microscopy (OR-PAM) systems rely on mechanical scanning with confocally aligned optical excitation and ultrasonic detection. As a result, the imaging speed of these systems is limited by the scanning speed. Although several multifocal OR-PA computed tomography (MFOR-PACT) systems had been developed to address this limitation, they were hindered by the complex design in a constrained physical space. Here, we present a two-dimensional (2D) MFOR-PAM system based on a 2D microlens array and an acoustic ergodic relay. This system is able to detect PA signals generated from 400 optical foci in parallel with a single-element transducer, and then raster scan the optical foci patterns to form an image. This system has improved the imaging resolution of a conventional photoacoustic ergodic relay system from 220 μm to 13 μm. Moreover, this system has reduced the imaging time of a conventional OR-PAM system at the same resolution and laser repetition rate by 400 times. We demonstrated the ability of the system with both in vitro and in vivo experiments.

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通过遍历传递的多焦点光声显微镜(会议报告)

迄今为止，大多数光学分辨率光声显微镜(OR-PAM)系统依赖于机械扫描与共聚焦对准光激发和超声波检测。因此，这些系统的成像速度受到扫描速度的限制。尽管已经开发了几种多焦点OR-PA计算机断层扫描(MFOR-PACT)系统来解决这一限制，但它们在受限的物理空间中受到复杂设计的阻碍。在这里，我们提出了一个基于二维微透镜阵列和声学遍历继电器的二维MFOR-PAM系统。该系统能够利用单元件传感器并行检测400个光学焦点产生的声光信号，然后对光学焦点图形进行光栅扫描以形成图像。该系统将传统光声遍历继电器系统的成像分辨率从220 μm提高到13 μm。此外，该系统在相同分辨率和激光重复率下，将传统OR-PAM系统的成像时间缩短了400倍。我们通过体外和体内实验证明了该系统的能力。

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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Photons Plus Ultrasound: Imaging and Sensing 2019

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