Litcius/Paper detail

Regional motion correction for in vivo photoacoustic imaging in humans using interleaved ultrasound images

Tobias Erlöv, Rafi Sheikh, Ulf Dahlstrand, John Albinsson, Malin Malmsjö, Magnus Cinthio

2021Biomedical Optics Express19 citationsDOIOpen Access PDF

Abstract

In translation from preclinical to clinical studies using photoacoustic imaging, motion artifacts represent a major issue. In this study the feasibility of an in-house algorithm, referred to as intensity phase tracking (IPT), for regional motion correction of in vivo human photoacoustic (PA) images was demonstrated. The algorithm converts intensity to phase-information and performs 2D phase-tracking on interleaved ultrasound images. The radial artery in eight healthy volunteers was imaged using an ultra-high frequency photoacoustic system. PA images were motion corrected and evaluated based on PA image similarities. Both controlled measurements using a computerized stepping motor and free-hand measurements were evaluated. The results of the controlled measurements show that the tracking corresponded to 97 ± 6% of the actual movement. Overall, the mean square error between PA images decreased by 52 ± 15% and by 43 ± 19% when correcting for controlled- and free-hand induced motions, respectively. The results show that the proposed algorithm could be used for motion correction in photoacoustic imaging in humans.

Topics & Concepts

Photoacoustic imaging in biomedicineTracking (education)UltrasoundComputer visionMatch movingComputer scienceArtificial intelligenceBiomedical engineeringMotion compensationPhase (matter)Motion (physics)Photoacoustic Doppler effectImage registrationTranslation (biology)OpticsPhysicsAcousticsImage (mathematics)MedicineChemistryMessenger RNAPsychologyPedagogyGeneBiochemistryQuantum mechanicsPhotoacoustic and Ultrasonic ImagingOptical Imaging and Spectroscopy TechniquesUltrasound Imaging and Elastography