Photoacoustic microscopy: Photoacoustic microscopy
Junjie Yao,Lihong V. Wang +1 more
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TLDR
Focusing on state-of-the-art developments in PAM, this Review discusses the key features of PAM implementations and their applications in biomedical studies.Abstract:
Photoacoustic microscopy (PAM) is a hybrid in vivo imaging technique that acoustically detects optical contrast via the photoacoustic effect. Unlike pure optical microscopic techniques, PAM takes advantage of the weak acoustic scattering in tissue and thus breaks through the optical diffusion limit (~1 mm in soft tissue). With its excellent scalability, PAM can provide high-resolution images at desired maximum imaging depths up to a few millimeters. Compared with backscattering-based confocal microscopy and optical coherence tomography, PAM provides absorption contrast instead of scattering contrast. Furthermore, PAM can image more molecules, endogenous or exogenous, at their absorbing wavelengths than fluorescence-based methods, such as wide-field, confocal, and multi-photon microscopy. Most importantly, PAM can simultaneously image anatomical, functional, molecular, flow dynamic and metabolic contrasts in vivo. Focusing on state-of-the-art developments in PAM, this Review discusses the key features of PAM implementations and their applications in biomedical studies.read more
Citations
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Lensless high-resolution photoacoustic imaging scanner for in vivo skin imaging
Taiichiro Ida,Hideaki Iwazaki,Toshiyuki Omuro,Yasushi Kawaguchi,Yasuyuki Tsunoi,Satoko Kawauchi,Shunichi Sato +6 more
TL;DR: The design, imaging algorithm and characteristics of the system, based on a unique lensless design for in vivo skin imaging, are described in this paper, showing the capability for imaging arterioles and venues in the skin.
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High-contrast light focusing through scattering media with multi-pixel encoding
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High spatiotemporal resolution optoacoustic sensing with photothermally induced acoustic vibrations in optical fibres.
TL;DR: In this article, photothermally induced acoustic vibrations (PTAVs) are used to realize high-performance optical fiber-based optoacoustic sensing, which can provide label-free visualization of the diffusion dynamics in microfluidics at a higher spatiotemporal resolution.
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Rapid High-Resolution Mosaic Acquisition for Photoacoustic Remote Sensing.
TL;DR: A method that combines mechanical stages with optical scanning for the rapid acquisition of high-resolution large FOVs and is validated by imaging a 1 × 1 mm2 section of unstained histopathological human tissue is described.
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Axial accuracy and signal enhancement in acoustic-resolution photoacoustic microscopy by laser jitter effect correction and pulse energy compensation
Amir Asadollahi,Hamid Latifi,Manojit Pramanik,Hamed Qazvini,Ali Rezaei,Hamed Nikbakht,Abolfazl Abedi +6 more
TL;DR: A high-speed data acquisition system in combination with a fast photodetector and a software-based approach is used to capture laser pulses precisely in order to reduce the effect of timing jitter and normalization of the photoacoustic signals based on pulse peak-powers simultaneously.
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Photoacoustic Tomography: In Vivo Imaging from Organelles to Organs
Lihong V. Wang,Song Hu +1 more
TL;DR: A review of the state of the art of photoacoustic tomography for both biological and clinical studies can be found in this paper, where the authors discuss the current state-of-the-art and discuss future prospects.
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