Motion Artifact Reduction in Quantitative Susceptibility Mapping using Deep Neural Network
classification
⚛️ physics.med-ph
cs.LGeess.IV
keywords
motionnetworkartifactsdeepimageslearningmappingmotion-corrupted
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An approach to reduce motion artifacts in Quantitative Susceptibility Mapping using deep learning is proposed. We use an affine motion model with randomly created motion profiles to simulate motion-corrupted QSM images. The simulated QSM image is paired with its motion-free reference to train a neural network using supervised learning. The trained network is tested on unseen simulated motion-corrupted QSM images, in healthy volunteers and in Parkinson's disease patients. The results show that motion artifacts, such as ringing and ghosting, were successfully suppressed.
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