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Optical and opto-acoustic imaging.
In: Molecular Imaging in Oncology. Berlin: Springer, 2013. 134-150 (Recent Results Cancer Res. ; 187)
Since the inception of the microscope, optical imaging is serving the biological discovery for more than four centuries. With the recent emergence of methods appropriate for in vivo staining, such as bioluminescence, fluorescent molecular probes, and proteins, as well as nanoparticle-based targeted agents, significant attention has been shifted toward in vivo interrogations of different dynamic biological processes at the molecular level. This progress has been largely supported by the development of advanced optical tomographic imaging technologies suitable for obtaining volumetric visualization of biomarker distributions in small animals at a whole-body or whole-organ scale, an imaging frontier that is not accessible by the existing tissue-sectioning microscopic techniques due to intensive light scattering beyond the depth of a few hundred microns. Biomedical optoacoustics has also emerged in the recent decade as a powerful tool for high-resolution visualization of optical contrast, overcoming a variety of longstanding limitations imposed by light scattering in deep tissues. By detecting tiny sound vibrations, resulting from selective absorption of light at multiple wavelengths, multispectral optoacoustic tomography methods can now “hear color” in three dimensions, i.e., deliver volumetric spectrally enriched (color) images from deep living tissues at high spatial resolution and in real time.
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Publication type
Article: Edited volume or book chapter
Editors
Schober, O.* ; Riemann, B.*
ISSN (print) / ISBN
0080-0015
ISBN
978-3-642-10852-5
Book Volume Title
Molecular Imaging in Oncology
Quellenangaben
Volume: 187,
Pages: 134-150
Publisher
Springer
Publishing Place
Berlin
Non-patent literature
Publications
Reviewing status
Peer reviewed
Institute(s)
Institute of Biological and Medical Imaging (IBMI)