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Literature DB >> 28167316

Subwavelength motion-correction for ultrafast ultrasound localization microscopy.

Vincent Hingot¹, Claudia Errico², Mickael Tanter², Olivier Couture³.

Abstract

Ultrafast Ultrasound Localization Microscopy uses microbubbles that are individually localized with a resolution below 10μm. Positions of the microbubbles are accumulated to create a super resolution image, which bypass the diffraction-limit of spatial resolution. However, microbubbles localization is affected by physiological motions at the micrometric scale. Here, we demonstrate a phase correlation method for rigid motion correction. Spatiotemporal filters extract tissue dominated images, which are tracked to correct linear motions and improve the precision of microbubbles' localization, improving the quality of the image. It is the first proof of concept towards a full motion correction strategy and super-resolution imaging in moving tissues.

Keywords: Phase correlation; Spatio-temporal filters; Subwavelength motion correction; Ultrafast Ultrasound Localization Microscopy

Year: 2017 PMID： 28167316 DOI： 10.1016/j.ultras.2017.01.008

Source DB: PubMed Journal: Ultrasonics ISSN： 0041-624X Impact factor: 2.890

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Cited

18 in total

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2. Perspectives on high resolution microvascular imaging with contrast ultrasound.

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3. Adaptive background noise bias suppression in contrast-free ultrasound microvascular imaging.

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4. Kalman Filter-Based Microbubble Tracking for Robust Super-Resolution Ultrasound Microvessel Imaging.

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Journal: IEEE Trans Ultrason Ferroelectr Freq Control Date: 2020-03-31 Impact factor: 2.725

5. Improved Super-Resolution Ultrasound Microvessel Imaging With Spatiotemporal Nonlocal Means Filtering and Bipartite Graph-Based Microbubble Tracking.

Authors: Pengfei Song; Joshua D Trzasko; Armando Manduca; Runqing Huang; Ramanathan Kadirvel; David F Kallmes; Shigao Chen
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6. On the Effects of Spatial Sampling Quantization in Super-Resolution Ultrasound Microvessel Imaging.

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7. Super-resolution ultrasound localization microscopy based on a high frame-rate clinical ultrasound scanner: an in-human feasibility study.

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Journal: Phys Med Biol Date: 2021-04-08 Impact factor: 3.609