Automatic Quality Assessment of Cardiac MR Images with Motion Artefacts using Multi-task Learning and K-Space Motion Artefact Augmentation - Imagerie et Vision Artificielle Accéder directement au contenu
Communication Dans Un Congrès Année : 2022

Automatic Quality Assessment of Cardiac MR Images with Motion Artefacts using Multi-task Learning and K-Space Motion Artefact Augmentation

Stéphanie Bricq
  • Fonction : Auteur
Fabrice Meriaudeau
  • Fonction : Auteur

Résumé

The movement of patients and respiratory motion during MRI acquisition produce image artefacts that reduce the image quality and its diagnostic value. Quality assessment of the images is essential to minimize segmentation errors and avoid wrong clinical decisions in the downstream tasks. In this paper, we propose automatic multi-task learning (MTL) based classification model to detect cardiac MR images with different levels of motion artefact. We also develop an automatic segmentation model that leverages k-space based motion artefact augmentation (MAA) and a novel compound loss that utilizes Dice loss with a polynomial version of cross-entropy loss (PolyLoss) to robustly segment cardiac structures from cardiac MRIs with respiratory motion artefacts. We evaluate the proposed method on Extreme Cardiac MRI Analysis Challenge under Respiratory Motion (CMRxMotion 2022) challenge dataset. For the detection task, the multi-task learning based model that simultaneously learns both image artefact prediction and breath-hold type prediction achieved significantly better results compared to the single-task model, showing the benefits of MTL. In addition, we utilized test-time augmentation (TTA) to enhance the classification accuracy and study aleatoric uncertainty of the images. Using TTA further improved the classification result as it achieved an accuracy of 0.65 and Cohen's kappa of 0.413. From the estimated aleatoric uncertainty, we observe that images with higher aleatoric uncertainty are more difficult to classify than the ones with lower uncertainty. For the segmentation task, the k-space based MAA enhanced the segmentation accuracy of the baseline model. From the results, we also observe that using a hybrid loss of Dice and PolyLoss can be advantageous to robustly segment cardiac MRIs with motion artefact, leading to a mean Dice of 0.9204, 0.8315, and 0.8906 and mean HD95 of 8.09 mm, 3.60 mm and 6.07 mm for LV, MYO and RV respectively on the official validation set. On the test set, the proposed segmentation method was ranked in second place in the segmentation task of CMRxMotion 2022 challenge.
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Dates et versions

hal-03880574 , version 1 (01-12-2022)

Identifiants

  • HAL Id : hal-03880574 , version 1

Citer

Tewodros Weldebirhan Arega, Stéphanie Bricq, Fabrice Meriaudeau. Automatic Quality Assessment of Cardiac MR Images with Motion Artefacts using Multi-task Learning and K-Space Motion Artefact Augmentation. Medical Image Computing and Computer Assisted Intervention (MICCAI 2022) STACOM workshop, Sep 2022, Singapore, Singapore. ⟨hal-03880574⟩
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