Organizers: Dr. Xu Li and Dr. Nirbhay Yadav
- 01/09/2024-Dr. Dan Zhu, Johns Hopkins University: Optimization of your Image Acquisition and Reconstruction: So hard or So Easy?
- 01/25/2024-Dr. Gulin Oz, CMRR, University of Minnesota: Advanced Magnetic Resonance Spectroscopy of Neurodegeneration
- 02/13/2024-Dr. Jeremias Sulam, Johns Hopkins University: Imaging, Data, and Learning: Modern challenges in Biomedical Data Science
- 02/27/2024-Dr. Helge Zöllner, Johns Hopkins University: Modeling Matters: New Methods for Reproducible MRS Data Analysis
- 03/12/2024-Dr. David Kamson, Johns Hopkins University: Imaging Opportunities in Neuro-Oncology
- 04/09/2024-Wen Shi, Johns Hopkins University: MR Imaging of Venous Transit Time
- 04/15/2024-Dr. Xingfeng Shao, University of Southern California: A non-invasive MRI technique for measuring blood-brain barrier function: using water as an endogenous tracer
- 04/23/2024-Dr. Munendra Singh, Johns Hopkins University: Physics-informed neural networks for saturation transfer MRI
- 06/06/2024-Dr. Itamar Ronen, University of Sussex: "Unusual" Magnetic Resonance Spectroscopy Experiments at High and Ultralow Magnetic Field
- 06/18/2024-Dr. Yuto Uchida, Johns Hopkins University: Preclinical Alzheimer’s disease biomarkers for neurodegeneration from the perspectives of micro- and macro-scaled anatomical MRI
- 06/25/2024-Dr. Julia Stabinska, Johns Hopkins University: Renal MRI: From Nephron to k-Space
- 09/17/2024-Dr. Kun Yang, Johns Hopkins University: Investigating Neuroimaging Biomarkers of Treatment Resistance in Early-Stage Psychosis
- 10/15/2024-Dr. Zhiliang Wei, Johns Hopkins University: Imaging microvascular dysfunctions in mouse models
- 10/22/2024-Kexin Wang, Johns Hopkins University: Guanidino CEST MRI: A Novel Technique for Monitoring Energy Metabolism and Arginine Residue in Protein
- 11/19/2024-Dr. Lukman Enegi Ismaila, Johns Hopkins University: Impact of Spinal Cord Injury on Functional Brain Networks
- 11/26/2024-Yuanqi Sun, Johns Hopkins University: Using Intravenous (IV) Gadolinium-based Contrast Agents (GBCA)-Enhanced MRI to Study CSF Circulation and Clearance