Optical-resolution photoacoustic microscopy (OR-PAM), a promising microscopic imaging technique with high ultrasound resolution and superior optical sensitivity, can provide anatomical, functional, and molecular information at scales ranging from the microvasculature to single red blood cells. In particular, real-time OR-PAM imaging with a high signal-to-noise ratio (SNR) is a prerequisite for widespread use in preclinical and clinical applications. Although several technical approaches have been pursued to simultaneously improve the imaging speed and SNR of OR-PAM, they are bulky, complex, not sensitive, and/or not actually real-time. In this paper, we demonstrate a simple and novel OR-PAM technique which is based on a typical galvanometer immersed in non-conducting liquid. Using an opto-ultrasound combiner, this OR-PAM system achieves a high SNR and fast imaging speed. It takes only 2 seconds to acquire a volumetric image with a wide field of view (FOV) of 4 × 8 mm2 along the X and Y axes, respectively. The measured lateral and axial resolutions are 6.0 and 37.7 μm, respectively. Finally, as a demonstration of the system’s capability, we successfully imaged the microvasculature in a mouse ear in vivo. Our new method will contribute substantially to the popularization and commercialization of OR-PAM in various preclinical and clinical applications.
展开▼
机译:光学分辨率光声显微镜(OR-PAM)是一种有前途的显微成像技术,具有高超声分辨率和出色的光学灵敏度,可以提供从微脉管系统到单个红细胞范围的解剖,功能和分子信息。尤其是,具有高信噪比(SNR)的实时OR-PAM成像是在临床前和临床应用中广泛使用的先决条件。尽管已经寻求了几种技术方法来同时提高OR-PAM的成像速度和SNR,但是它们体积大,复杂,不灵敏和/或实际上不是实时的。在本文中,我们演示了一种简单新颖的OR-PAM技术,该技术基于浸入非导电液体中的典型振镜。使用光超声合成器,该OR-PAM系统可实现高SNR和快速成像速度。沿X轴和Y轴分别获取具有4×8 mm 2 的宽视场(FOV)的体积图像只需2秒。测得的横向和轴向分辨率分别为6.0和37.7μm。最后,为了证明该系统的功能,我们成功地在体内对小鼠耳内的微脉管系统进行了成像。我们的新方法将极大地促进OR-PAM在各种临床前和临床应用中的普及和商业化。
展开▼
