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High-speed and high-SNR photoacoustic microscopy based on a galvanometer mirror in non-conducting liquid.


ABSTRACT: 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??m, 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.

SUBMITTER: Kim JY 

PROVIDER: S-EPMC5052531 | biostudies-literature | 2016 Oct

REPOSITORIES: biostudies-literature

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High-speed and high-SNR photoacoustic microscopy based on a galvanometer mirror in non-conducting liquid.

Kim Jin Young JY   Lee Changho C   Park Kyungjin K   Han Sangyeob S   Kim Chulhong C  

Scientific reports 20161006


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 bee  ...[more]

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