Review of current methods of acousto-optical tomography for biomedical applications

The field of acousto-optical tomography (AOT) for medical applications began in the 1990s and has since developed multiple techniques for the detection of ultrasound-modulated light. Light becomes frequency shifted as it travels through an ultrasound beam. This "tagged" light can be detected and use...

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Bibliographic Details
Published inFrontiers of Optoelectronics (Online) Vol. 10; no. 3; pp. 211 - 238
Main Authors Gunther, Jacqueline, Andersson-Engels, Stefan
Format Journal Article
LanguageEnglish
Published Beijing Higher Education Press 01.09.2017
Springer Nature B.V
Subjects
AOT
Biomedical Engineering and Bioengineering
Biomedical materials
Computer simulation
Electrical Engineering
Engineering
Imaging
Medical imaging
Physics
Review Article
Tomography
Ultrasonic imaging
声光
层析
应用能力
成像方法
生物医学
综述
超声检测
acousto-optic
biomedical imaging
ultrasound modulation
optical imaging
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Summary:The field of acousto-optical tomography (AOT) for medical applications began in the 1990s and has since developed multiple techniques for the detection of ultrasound-modulated light. Light becomes frequency shifted as it travels through an ultrasound beam. This "tagged" light can be detected and used for focused optical imaging. Here, we present a comprehensive overview of the techniques that have developed since around 2011 in the field of biomedical AOT. This includes how AOT has advanced by taken advantage of the research conducted in the ultrasound, as well as, the optical fields. Also, simulations and reconstruction algorithms have been formulated specifically for AOT imaging over this time period. Future progression of AOT relies on its ability to provide significant contributions to in vivo imaging for biomedical applications. We outline the challenges that AOT still faces to make in vivo imaging possible and what has been accomplished thus far, as well as possible future directions.
Bibliography:The field of acousto-optical tomography (AOT) for medical applications began in the 1990s and has since developed multiple techniques for the detection of ultrasound-modulated light. Light becomes frequency shifted as it travels through an ultrasound beam. This "tagged" light can be detected and used for focused optical imaging. Here, we present a comprehensive overview of the techniques that have developed since around 2011 in the field of biomedical AOT. This includes how AOT has advanced by taken advantage of the research conducted in the ultrasound, as well as, the optical fields. Also, simulations and reconstruction algorithms have been formulated specifically for AOT imaging over this time period. Future progression of AOT relies on its ability to provide significant contributions to in vivo imaging for biomedical applications. We outline the challenges that AOT still faces to make in vivo imaging possible and what has been accomplished thus far, as well as possible future directions.
10-1029/TN
acousto-optic, ultrasound modulation, optical imaging, biomedical imaging
ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 14
ISSN:2095-2759
2095-2767
DOI:10.1007/s12200-017-0718-4