• AJNR Am J Neuroradiol · Mar 2020

    Correction of Motion Artifacts Using a Multiscale Fully Convolutional Neural Network.

    • K Sommer, A Saalbach, T Brosch, C Hall, N M Cross, and J B Andre.
    • From Philips Research, (K.S., A.S., T.B.) Hamburg, Germany karsten.sommer@philips.com.
    • AJNR Am J Neuroradiol. 2020 Mar 1; 41 (3): 416-423.

    Background And PurposeMotion artifacts are a frequent source of image degradation in the clinical application of MR imaging (MRI). Here we implement and validate an MRI motion-artifact correction method using a multiscale fully convolutional neural network.Materials And MethodsThe network was trained to identify motion artifacts in axial T2-weighted spin-echo images of the brain. Using an extensive data augmentation scheme and a motion artifact simulation pipeline, we created a synthetic training dataset of 93,600 images based on only 16 artifact-free clinical MRI cases. A blinded reader study using a unique test dataset of 28 additional clinical MRI cases with real patient motion was conducted to evaluate the performance of the network.ResultsApplication of the network resulted in notably improved image quality without the loss of morphologic information. For synthetic test data, the average reduction in mean squared error was 41.84%. The blinded reader study on the real-world test data resulted in significant reduction in mean artifact scores across all cases (P < .03).ConclusionsRetrospective correction of motion artifacts using a multiscale fully convolutional network is promising and may mitigate the substantial motion-related problems in the clinical MRI workflow.© 2020 by American Journal of Neuroradiology.

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