Real-time clinical clutter reduction in combined epi-optoacoustic and ultrasound imaging

M. Jaeger, Kujtim Gashi, H. G. Akarçay, G. Held, S. Peeters, T. Petrosyan, Stefan Preisser, Michael Gruenig, M. Frenz
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引用次数: 10

Abstract

Abstract Flexible imaging of the human body, a requirement for broad clinical application, is obtained by direct integration of optoacoustic (OA) imaging with echo ultrasound (US) in a multimodal epi-illumination system. Up to date, successful deep epi-OA imaging is difficult to achieve owing to clutter. Clutter signals arise from optical absorption in the region of tissue irradiation and strongly reduce contrast and imaging depth. Recently, we developed a displacement-compensated averaging (DCA) technique for clutter reduction based on the clutter decorrelation that occurs when palpating the tissue. To gain first clinical experience on the practical value of DCA, we implemented this technique in a combined clinical OA and US imaging system. Our experience with freehand scanning of human volunteers reveals that real-time feedback on the clutter-reduction outcome is a key factor for achieving superior contrast and imaging depth.
视光声和超声联合成像的实时临床杂波减少
在多模态外射照明系统中,光声(OA)成像与回声超声(US)直接集成,可实现人体的柔性成像,这是广泛临床应用的需要。到目前为止,由于杂波的存在,很难实现成功的深epi-OA成像。杂波信号产生于组织照射区域的光吸收,严重降低对比度和成像深度。最近,我们开发了一种基于组织触诊时的杂波去相关的位移补偿平均(DCA)技术。为了获得关于DCA实用价值的首次临床经验,我们将该技术应用于临床OA和US成像系统。我们对人类志愿者进行徒手扫描的经验表明,对杂波减少结果的实时反馈是实现卓越对比度和成像深度的关键因素。
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