The article introduces the Advanced Toolbox for Multitask Medical Imaging Consistency (ATOMMIC), an open-source framework that supports multiple independent MRI tasks, such as reconstruction, segmentation, and quantitative parameter map estimation, and uniquely integrates MultiTask Learning (MTL).
ATOMMIC provides comprehensive support for complex-valued and real-valued data, ensuring consistency among tasks, deep learning models, supported datasets, and training and testing schemes. The toolbox includes various undersampling options, pre-processing transforms, training configurations, and a wide range of deep learning models for distinct MRI applications.
The authors benchmark 25 deep learning models on 8 publicly available datasets, covering brain and knee anatomies. The results demonstrate that physics-based models, which enforce data consistency by leveraging the physical properties of MRI, outperform other models in reconstructing highly accelerated acquisitions. These high-performing reconstruction models can also accurately estimate quantitative parameter maps. When combined with robust segmentation networks using MTL, performance is improved in both tasks.
ATOMMIC aims to provide researchers with a comprehensive AI framework for MR Imaging that can serve as a platform for new AI applications in medical imaging, facilitating standardized workflows, enhancing data interoperability, and effectively benchmarking deep learning models.
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