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<i>In Vivo</i> Motion Correction in Super-Resolution Imaging of Rat Kidneys

Iman Taghavi, S. B. Andersen, Carlos Armando Villagómez Hoyos, Michael Bachmann Nielsen, Charlotte Mehlin Sørensen, Jørgen Arendt Jensen

2021IEEE Transactions on Ultrasonics Ferroelectrics and Frequency Control47 citationsDOIOpen Access PDF

Abstract

Super-resolution (SR) imaging has the potential of visualizing the microvasculature down to the 10- [Formula: see text] level, but motion induced by breathing, heartbeats, and muscle contractions are often significantly above this level. This article, therefore, introduces a method for estimating tissue motion and compensating for this. The processing pipeline is described and validated using Field II simulations of an artificial kidney. In vivo measurements were conducted using a modified bk5000 research scanner (BK Medical, Herlev, Denmark) with a BK 9009 linear array probe employing a pulse amplitude modulation scheme. The left kidney of ten Sprague-Dawley rats was scanned during open laparotomy. A 1:10 diluted SonoVue contrast agent (Bracco, Milan, Italy) was injected through a jugular vein catheter at 100 [Formula: see text]/min. Motion was estimated using speckle tracking and decomposed into contributions from the heartbeats, breathing, and residual motion. The estimated peak motions and their precisions were: heart: axial- [Formula: see text] and lateral- [Formula: see text], breathing: axial- [Formula: see text] and lateral- [Formula: see text], and residual: axial-30 [Formula: see text] and lateral-90 [Formula: see text]. The motion corrected microbubble tracks yielded SR images of both bubble density and blood vector velocity. The estimation was, thus, sufficiently precise to correct shifts down to the 10- [Formula: see text] capillary level. Similar results were found in the other kidney measurements with a restoration of resolution for the small vessels demonstrating that motion correction in 2-D can enhance SR imaging quality.

Topics & Concepts

In vivoResolution (logic)Image resolutionMotion (physics)PhysicsIterative reconstructionUltrasonic imagingBiomedical engineeringOpticsMaterials scienceComputer scienceAcousticsEngineeringComputer visionArtificial intelligenceUltrasoundBiologyBiotechnologyPhotoacoustic and Ultrasonic ImagingUltrasound Imaging and ElastographyElectrical and Bioimpedance Tomography
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