Data-driven Discovery of Mechanical Models Directly from MRI Spectral Data

Publication date

2024

Authors

Heesterbeek, D. G.J.
van Riel, Max HCORCID 0000-0001-7317-7059
Leeuwen, T. Van
van den Berg, CATORCID 0000-0002-5565-6889
Sbrizzi, AlessandroORCID 0000-0003-3276-4542ISNI 0000000396833383

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Document Type

Article

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taverne

Abstract

Finding interpretable biomechanical models can provide insight into the functionality of organs with regard to physiology and disease. However, identifying broadly applicable dynamical models for in vivo tissue remains challenging. In this proof of concept study we propose a reconstruction framework for data-driven discovery of dynamical models from experimentally obtained undersampled MRI spectral data. The method makes use of the previously developed spectro-dynamic framework which allows for reconstruction of displacement fields at high spatial and temporal resolution required for model identification. The proposed framework combines this method with data-driven discovery of interpretable models using Sparse Identification of Non-linear Dynamics (SINDy). The design of the reconstruction algorithm is such that a symbiotic relation between the reconstruction of the displacement fields and the model identification is created. Our method does not rely on periodicity of the motion. It is successfully validated using spectral data of a dynamic phantom gathered on a clinical MRI scanner. The dynamic phantom is programmed to perform motion adhering to 5 different (non-linear) ordinary differential equations. The proposed framework performed better than a 2-step approach where the displacement fields were first reconstructed from the undersampled data without any information on the model, followed by data-driven discovery of the model using the reconstructed displacement fields. This study serves as a first step in the direction of data-driven discovery of in vivo models.

Keywords

Data-driven discovery, Dynamic system identification, Magnetic resonance imaging, Ordinary differential equations, Spectro-dynamic MRI, Taverne, Signal Processing, Computer Science Applications, Computational Mathematics

Citation

Heesterbeek, D G J, Riel, M H C V, Leeuwen, T V, Berg, C A T V D & Sbrizzi, A 2024, 'Data-driven Discovery of Mechanical Models Directly from MRI Spectral Data', IEEE TRANSACTIONS ON COMPUTATIONAL IMAGING, vol. 10, pp. 1640-1649. https://doi.org/10.1109/TCI.2024.3497775