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

Biomedical Optics Express |

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.