Seeing the Invisible—Ultrasound Molecular Imaging

Ultrasound molecular imaging has been developed in the past two decades with the goal of non-invasively imaging disease phenotypes on a cellular level not depicted on anatomic imaging. Such techniques already play a role in pre-clinical research for the assessment of disease mechanisms and drug effe...

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Veröffentlicht in:	Ultrasound in medicine & biology 2020-03, Vol.46 (3), p.479-497
Hauptverfasser:	Kosareva, Alexandra, Abou-Elkacem, Lotfi, Chowdhury, Sayan, Lindner, Jonathan R., Kaufmann, Beat A.
Format:	Artikel
Sprache:	eng
Schlagworte:	Contrast ultrasound Microbubbles Molecular imaging Nanobubbles
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creator	Kosareva, Alexandra Abou-Elkacem, Lotfi Chowdhury, Sayan Lindner, Jonathan R. Kaufmann, Beat A.
description	Ultrasound molecular imaging has been developed in the past two decades with the goal of non-invasively imaging disease phenotypes on a cellular level not depicted on anatomic imaging. Such techniques already play a role in pre-clinical research for the assessment of disease mechanisms and drug effects, and are thought to in the future contribute to earlier diagnosis of disease, assessment of therapeutic effects and patient-tailored therapy in the clinical field. In this review, we first describe the chemical composition and structure as well as the in vivo behavior of the ultrasound contrast agents that have been developed for molecular imaging. We then discuss the strategies that are used for targeting of contrast agents to specific cellular targets and protocols used for imaging. Next we describe pre-clinical data on imaging of thrombosis, atherosclerosis and microvascular inflammation and in oncology, including the pathophysiological principles underlying the selection of targets in each area. Where applicable, we also discuss efforts that are currently underway for translation of this technique into the clinical arena.
doi_str_mv	10.1016/j.ultrasmedbio.2019.11.007
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subjects	Contrast ultrasound Microbubbles Molecular imaging Nanobubbles
title	Seeing the Invisible—Ultrasound Molecular Imaging
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