Abstract #0228

A unified model for simultaneous reconstruction and R2* mapping of accelerated 7T data using the Recurrent Inference Machine

Chaoping Zhang¹, Dirk Poot², Bram Coolen¹, Hugo Vrenken³, Pierre-Louis Bazin^4,5, Birte Forstmann⁴, and Matthan W.A. Caan¹

¹Biomedical Engineering & Physics, Amsterdam UMC, Amsterdam, Netherlands, ²Biomedical Imaging Group Rotterdam, Erasmus MC, Rotterdam, Netherlands, ³Radiology, Amsterdam UMC, Amsterdam, Netherlands, ⁴Integrative Model-based Cognitive Neuroscience research unit, University of Amsterdam, Amsterdam, Netherlands, ⁵Max Planck Institute for Human Cognitive and Brain Sciences, Leipzig, Germany

Quantitative MRI often relies on the acquisition of multiple images with different scan settings. Therefore, data redundancy can be exploited to further accelerate imaging by deep learning. We propose a unified model for joint reconstruction and $$$R_2^*$$$-mapping from sparse data and embed this in a Recurrent Inference Machine, an iterative inverse problem solving network. Applied to high-resolution multi-echo gradient echo data of a cohort study covering the entire adult life span, the error in $$$R_2^*$$$ significantly decreases. With increasing acceleration factor, an increasing reduction in error is observed, pointing to a larger benefit for sparser data.

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