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Fast volumetric ultrasound facilitates high-resolution 3D mapping of tissue compartments

Eun-Yeong Park, Xiran Cai, Josquin Foiret, Hanna Bendjador, Dongwoon Hyun, Brett Z. Fite, Robert Wodnicki, Jeremy Dahl, Robert D. Boutin, Katherine W. Ferrara

2023Science Advances22 citationsDOIOpen Access PDF

Abstract

Volumetric ultrasound imaging has the potential for operator-independent acquisition and enhanced field of view. Panoramic acquisition has many applications across ultrasound; spanning musculoskeletal, liver, breast, and pediatric imaging; and image-guided therapy. Challenges in high-resolution human imaging, such as subtle motion and the presence of bone or gas, have limited such acquisition. These issues can be addressed with a large transducer aperture and fast acquisition and processing. Programmable, ultrafast ultrasound scanners with a high channel count provide an unprecedented opportunity to optimize volumetric acquisition. In this work, we implement nonlinear processing and develop distributed beamformation to achieve fast acquisition over a 47-centimeter aperture. As a result, we achieve a 50-micrometer -6-decibel point spread function at 5 megahertz and resolve in-plane targets. A large volume scan of a human limb is completed in a few seconds, and in a 2-millimeter dorsal vein, the image intensity difference between the vessel center and surrounding tissue was ~50 decibels, facilitating three-dimensional reconstruction of the vasculature.

Topics & Concepts

Computer scienceData acquisitionTransducerAperture (computer memory)Imaging phantomComputer visionUltrasoundBiomedical engineeringArtificial intelligenceAcousticsRadiologyMedicinePhysicsOperating systemUltrasound Imaging and ElastographyPhotoacoustic and Ultrasonic ImagingMicrowave Imaging and Scattering Analysis
Fast volumetric ultrasound facilitates high-resolution 3D mapping of tissue compartments | Litcius