IEEE Access (Jan 2023)

Image Quality Assessment for Magnetic Resonance Imaging

  • Sergey Kastryulin,
  • Jamil Zakirov,
  • Nicola Pezzotti,
  • Dmitry V. Dylov

DOI
https://doi.org/10.1109/ACCESS.2023.3243466
Journal volume & issue
Vol. 11
pp. 14154 – 14168

Abstract

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Image quality assessment (IQA) algorithms aim to reproduce the human’s perception of the image quality. The growing popularity of image enhancement, generation, and recovery models instigated the development of many methods to assess their performance. However, most IQA solutions are designed to predict image quality in the general domain, with the applicability to specific areas, such as medical imaging, remaining questionable. Moreover, the selection of these IQA metrics for a specific task typically involves intentionally induced distortions, such as manually added noise or artificial blurring; yet, the chosen metrics are then used to judge the output of real-life computer vision models. In this work, we aspire to fill these gaps by carrying out the most extensive IQA evaluation study for Magnetic Resonance Imaging (MRI) to date (14,700 subjective scores). We use outputs of neural network models trained to solve problems relevant to MRI, including image reconstruction in the scan acceleration, motion correction, and denoising. Our emphasis is on reflecting the radiologist’s perception of the reconstructed images, gauging the most diagnostically influential criteria for the quality of MRI scans: signal-to-noise ratio, contrast-to-noise ratio, and the presence of art efacts. Seven trained radiologists assess these distorted images, with their verdicts then correlated with 35 different image quality metrics (full-reference, no-reference, and distribution-based metrics considered). The top performers– DISTS, HaarPSI, VSI, and FIDVGG16– are found to be efficient across three proposed quality criteria, for all considered anatomies and the target tasks.

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