Spectro-Dynamic MRI: Characterizing Mechanical Systems on a Millisecond Scale
Publication date
2022
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Abstract
Measuring in vivo dynamics can yield valuable information for studying the functioning of the cardiovascular or the musculoskeletal system and for the diagnosis of related diseases. MRI is a powerful medical imaging modality, but it shows severe limitations when dealing with motion at high spatial and temporal resolutions. In this work, a method called spectro-dynamic MRI is proposed, which can identify dynamical information directly from k-space data. It combines a measurement model, relating the measured data in k-space to the displacement fields, and a dynamical model, introducing prior knowledge about the dynamics of a system. The data sampling process is tailored to compute spatial and temporal derivatives in the spectral domain at a high temporal resolution. Preliminary results from four simple pendulum setups for which the dynamics are explicitly known show that spectro-dynamic MRI can estimate motion fields from heavily undersampled data on a millisecond timescale. Furthermore, the length of the pendula and the stiffness of the spring can be identified as the dynamical system's parameters, giving additional information about the systems under investigation.
Keywords
Dynamic imaging, dynamical system identification, magnetic resonance imaging, spectro-dynamic MRI, Magnetic resonance imaging, Dynamics, Displacement measurement, Data models, Dynamical systems, Image reconstruction, Spectral analysis, General Engineering, General Materials Science, General Computer Science
Citation
Van Riel, M H C, Huttinga, N R F & Sbrizzi, A 2022, 'Spectro-Dynamic MRI : Characterizing Mechanical Systems on a Millisecond Scale', IEEE Access, vol. 10, pp. 271-285. https://doi.org/10.1109/ACCESS.2021.3138631