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V. Malis, M. Miyazaki
University of California San Diego, La Jolla, United States

Impact: Combining ZAP and CEST detects not only CEST protons but a wide spectrum of exchange protons. ZAP metrics demonstrate two proton exchange environments with good sensitivity. The combined CEST and ZAP outcomes indicates a possibility of biomarkers.

Computer Number: 2

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S. Alcicek, I. Divé, D. Thomas, V. Prinz, M-T Forster, M. Czabanka, K. Weber, J. Steinbach, M. Ronellenfitsch, E. Hattingen, U. Pilatus, K. Wenger
Goethe University, Frankfurt/Main, Germany

Impact: We report on the validation of a dedicated, multinuclear MRSI protocol with fully automated multiparametric segmentation of glioma sub-regions for monitoring cerebral, fasting-induced changes in patients with glioma.

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Z. Liu, J. Dudley, J. Diekfuss, N. Ahmed, A. Edmondson, K. Cecil, W. Yuan, T. Zuleger, A. Slutsky-Ganesh, K. Barber Foss, G. Myer, C. Fleischer
Georgia Institute of Technology and Emory University, Atlanta, United States

Impact: In a clinical trial of high school American football athletes evaluating MRS-quantified brain metabolites and head impacts, choline emerged as a key metric of injury, supporting the continued use of neuroimaging metrics in charactering changes after repeated head impacts.

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N. Wang, C. Liao, X. Cao, M. Nishimura, Y. Brackenier, M. Yurt, M. Gao, D. Abraham, C. Alkan, S. Srinivasan Iyer, Z. Zhou, H. Jeong, A. Kerr, J. Halda, K. Setsompop
Stanford University, Stanford, United States

Impact: sEPTI technique was developed with synergetic improvements in sampling, B0 estimation, eddy-current correction, and unrolled-network reconstruction, which achieves whole-brain 0.75-mm distortion-free and blurring-free T2* and QSM quantification at 3T in 90 seconds with the potentials for wide clinical applications.

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Y. Zhu, G. Wang, Y. Gu, W. Zhao, J. Lu, J. Zhu, C. MacAskill, A. Dupuis, M. Griswold, D. Ma, C. Flask, X. Yu
Case Western Reserve University, Cleveland, United States

Impact: This 3D MRF method enables unprecedented quantitative tracking of contrast agents throughout the mouse brain, significantly advancing our ability to study cerebrospinal fluid dynamics and potentially transforming preclinical investigation of neurodegenerative diseases and therapeutic interventions.

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Z. Wang, B. Sutton, F. Lam
University of Illinois Urbana-Champaign, Urbana, United States

Impact: Our technology enabled an unprecedented capability of high-resolution, 3D metabolite-specific diffusion parameter mapping. This capability has significant potential to offer tissue-compartment- and cell-type-specific microstructural information in vivo for many clinical and neuroscience applications.

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Z. Dong, T. Reese, H-H Lee, S. Huang, J. Polimeni, L. Wald, F. Wang
Massachusetts General Hospital, Charlestown, United States

Impact: This study introduces a novel Romer-EPTI technique that addresses key challenges in in-vivo diffusion MRI acquisition to enable high-resolution dMRI at mesoscale spatial resolutions and efficient high-b-value microstructure imaging.

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Y. Qiu, P. Lee, K. Dai, S. Zhong, S. Chen, C. Wang, H. Chen, L. Frydman, Z. Zhang
Shanghai Jiao Tong University, Shanghai, China

Impact: SPEN-based MRI provides a robust and fast acquisition approach to obtain distortion-free images at low-cost portable low field systems, thereby expanding the prospects for rapid imaging, navigation, functional and implant imaging in low-field portable MRI.