Titlebook: LED-Based Photoacoustic Imaging; From Bench to Bedsid Mithun Kuniyil Ajith Singh Book 2020 Springer Nature Singapore Pte Ltd. 2020 Human in

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Deformation-Compensated Averaging for Deep-Tissue LED and Laser Diode-Based Photoacoustic Imaging Inartbeat…) or extrinsic (freehand probe guidance) tissue motion, however, leads to phase cancellation of the averaged PA signal when the axial displacement of tissue becomes larger than half the acoustic wavelength at the probe’s centre frequency. Motion-compensated averaging (DCA) is a solution to t

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Vascular Complexity Evaluation Using a Skeletonization Approach and 3D LED-Based Photoacoustic Imagecterization of the vascular network can be a powerful means for earlier pathologies revealing and for their monitoring. For this reason, non-invasive and quantitative methods for the evaluation of blood vessels complexity is a very important issue. Many imaging techniques can be used for visualizing

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Multiscale Signal Processing Methods for Improving Image Reconstruction and Visual Quality in LED-BaHowever, the LED-based PAI systems not only inherit the problems of optical and acoustic attenuations encountered by PAI but also suffers from low signal-to-noise ratio (SNR) and relatively lower imaging depths. This necessitates the use of computational signal and image analysis methodologies which

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LED-Based Functional Photoacoustics—Portable and Affordable Solution for Preclinical Cancer Imagingpplicability in image-guided drug delivery and monitoring therapeutic response holds great promise for clinical translation. Current PAI techniques rely on using bulky lasers to provide the nanosecond pulsed light for photoacoustic signal generation. Tremendous growth in semiconductor industry withi