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Biomedical Photoacoustic Imaging and Sensing Using Affordable Resources

The overarching goal of this book is to provide a current picture of the latest developments in the capabilities of biomedical photoacoustic imaging and sensing in an affordable setting, such as advances in the technology involving light sources, and delivery, acoustic detection, and image reconstru...

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Bibliographic Details
Main Author: Ajith Singh, Mithun Kuniyil
Other Authors: Xia, Wenfeng
Format: eBook
Language:English
Published: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2021
Subjects:
Photoacoustics
Heat Capacity
Tumor Imaging
Laser Diodes
Vascular Malformations
Signal Enhancement
Oxygen Saturation Imaging
Hypoxia
N/a
Unsupervised Unmixing
Ultrasound
Led-based Photoacoustic Imaging
Optoacoustic
Optical-resolution Photoacoustic Microscopy
Medicine / Bicssc
Fue
Monte Carlo
Spectral Imaging
Light Delivery Optimization
Small Animal
Clinic
Optical Imaging
Fibrosis
Transparent Ultrasound Transducer
Ultrasonic Transducer
Photoacoustic
Fluence Compensation
Pre-illumination
Linear Array
Speckle
Photoacoustic Imaging
Mobile Health
Blind Source Separation
Led
Tomography
Photoacoustic Microscopy
Stroke
Endoscopy
Remote Sensing
Illumination Scheme
Light-emitting Diodes
Photo-thermal Effect
Fut
Led Divergence
Hemangioma
Laser
Ultrasound Stimulation
In Vivo
Photoacoustic Computed Tomography
3-d Printed Photoacoustic Probe Holder
Hair Follicles
Mouse
Deep Tissue Imaging
Light-emitting Diodes (led)
Peripheral Arterial Disease
Liver
Online Access:
Collection: Directory of Open Access Books - Collection details see MPG.ReNa
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245 0 0 |a Biomedical Photoacoustic Imaging and Sensing Using Affordable Resources  |h Elektronische Ressource 
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653 |a photoacoustics 
653 |a heat capacity 
653 |a tumor imaging 
653 |a laser diodes 
653 |a vascular malformations 
653 |a signal enhancement 
653 |a oxygen saturation imaging 
653 |a hypoxia 
653 |a n/a 
653 |a unsupervised unmixing 
653 |a ultrasound 
653 |a LED-based photoacoustic imaging 
653 |a optoacoustic 
653 |a optical-resolution photoacoustic microscopy 
653 |a Medicine / bicssc 
653 |a FUE 
653 |a Monte Carlo 
653 |a spectral imaging 
653 |a light delivery optimization 
653 |a small animal 
653 |a clinic 
653 |a optical imaging 
653 |a fibrosis 
653 |a transparent ultrasound transducer 
653 |a ultrasonic transducer 
653 |a photoacoustic 
653 |a fluence compensation 
653 |a pre-illumination 
653 |a linear array 
653 |a speckle 
653 |a photoacoustic imaging 
653 |a mobile health 
653 |a blind source separation 
653 |a LED 
653 |a tomography 
653 |a photoacoustic microscopy 
653 |a stroke 
653 |a endoscopy 
653 |a remote sensing 
653 |a illumination scheme 
653 |a light-emitting diodes 
653 |a photo-thermal effect 
653 |a FUT 
653 |a LED divergence 
653 |a hemangioma 
653 |a laser 
653 |a ultrasound stimulation 
653 |a in vivo 
653 |a photoacoustic computed tomography 
653 |a 3-D printed photoacoustic probe holder 
653 |a hair follicles 
653 |a mouse 
653 |a deep tissue imaging 
653 |a light-emitting diodes (LED) 
653 |a peripheral arterial disease 
653 |a liver 
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700 1 |a Ajith Singh, Mithun Kuniyil 
700 1 |a Xia, Wenfeng 
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520 |a The overarching goal of this book is to provide a current picture of the latest developments in the capabilities of biomedical photoacoustic imaging and sensing in an affordable setting, such as advances in the technology involving light sources, and delivery, acoustic detection, and image reconstruction and processing algorithms. This book includes 14 chapters from globally prominent researchers , covering a comprehensive spectrum of photoacoustic imaging topics from technology developments and novel imaging methods to preclinical and clinical studies, predominantly in a cost-effective setting. Affordability is undoubtedly an important factor to be considered in the following years to help translate photoacoustic imaging to clinics around the globe. This first-ever book focused on biomedical photoacoustic imaging and sensing using affordable resources is thus timely, especially considering the fact that this technique is facing an exciting transition from benchtop to bedside. Given its scope, the book will appeal to scientists and engineers in academia and industry, as well as medical experts interested in the clinical applications of photoacoustic imaging. 

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