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Literature DB >> 34093969

3-D Motion Correction for Volumetric Super-Resolution Ultrasound Imaging.

Robert J Eckersley¹, Chris Dunsby², Meng-Xing Tang³, Sevan Harput³, Kirsten Christensen-Jeffries¹, Jemma Brown¹, Jiaqi Zhu³, Ge Zhang³.

Abstract

Motion during image acquisition can cause image degradation in all medical imaging modalities. This is particularly relevant in 2-D ultrasound imaging, since out-of-plane motion can only be compensated for movements smaller than elevational beamwidth of the transducer. Localization based super-resolution imaging creates even a more challenging motion correction task due to the requirement of a high number of acquisitions to form a single super-resolved frame. In this study, an extension of two-stage motion correction method is proposed for 3-D motion correction. Motion estimation was performed on high volumetric rate ultrasound acquisitions with a handheld probe. The capability of the proposed method was demonstrated with a 3-D microvascular flow simulation to compensate for handheld probe motion. Results showed that two-stage motion correction method reduced the average localization error from 136 to 18 μm.

Entities: Disease

Year: 2019 PMID： 34093969 PMCID： PMC7610905 DOI： 10.1109/ULTSYM.2018.8580145

Source DB: PubMed Journal: IEEE Int Ultrason Symp ISSN： 1948-5719

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References

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