Optimisation of quantitative brain diffusion-relaxation MRI acquisition protocols with physics-informed machine learning

Publication date

2024-05

Authors

Planchuelo-Gómez, Álvaro
Descoteaux, Maxime
Larochelle, Hugo
Hutter, Jana
Jones, Derek K.
Tax, Chantal M W

Editors

Advisors

Supervisors

Document Type

Article

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License

cc_by

Abstract

Diffusion-relaxation MRI aims to extract quantitative measures that characterise microstructural tissue properties such as orientation, size, and shape, but long acquisition times are typically required. This work proposes a physics-informed learning framework to extract an optimal subset of diffusion-relaxation MRI measurements for enabling shorter acquisition times, predict non-measured signals, and estimate quantitative parameters. In vivo and synthetic brain 5D-Diffusion-T1-T2∗-weighted MRI data obtained from five healthy subjects were used for training and validation, and from a sixth participant for testing. One fully data-driven and two physics-informed machine learning methods were implemented and compared to two manual selection procedures and Cramér–Rao lower bound optimisation. The physics-informed approaches could identify measurement-subsets that yielded more consistently accurate parameter estimates in simulations than other approaches, with similar signal prediction error. Five-fold shorter protocols yielded error distributions of estimated quantitative parameters with very small effect sizes compared to estimates from the full protocol. Selected subsets commonly included a denser sampling of the shortest and longest inversion time, lowest echo time, and high b-value. The proposed framework combining machine learning and MRI physics offers a promising approach to develop shorter imaging protocols without compromising the quality of parameter estimates and signal predictions.

Keywords

Brain, Diffusion-relaxation, Machine learning, Quantitative MRI, Radiological and Ultrasound Technology, Radiology Nuclear Medicine and imaging, Computer Vision and Pattern Recognition, Health Informatics, Computer Graphics and Computer-Aided Design

Citation

Planchuelo-Gómez, Á, Descoteaux, M, Larochelle, H, Hutter, J, Jones, D K & Tax, C M W 2024, 'Optimisation of quantitative brain diffusion-relaxation MRI acquisition protocols with physics-informed machine learning', Medical Image Analysis, vol. 94, 103134. https://doi.org/10.1016/j.media.2024.103134