Xin Yu
Affiliations: | 2014-2020 | High Field Magnetic Resonance | Max Planck Institute for Biological Cybernetics, Tübingen, Baden-Württemberg, Germany |
2018- | Radiology | Mass General Hospital and Harvard Medical School |
Area:
Neuroimaging, fMRI, plasticity, Neurovascular Coupling,Google:
"Xin Yu"Bio:
Dr. Yu received his B.S. Degree from Wuhan University in China and
Ph.D. from New York University (NYU) in the United States. His major
interest is to understand the self-adaptation capability of brain to
the external and internal cues. He has a broad research experience
from molecular and cellular biology to functional brain mapping with
advanced Magnetic Resonance Imaging(MRI) techniques. He had studied
the regulation of mu opioid receptor mRNA expression in the human
neuroplastoma cells following immune challenge. Later, he went to
the Neuroscience PhD program at NYU school of Medicine and studied
the in vivo MRI imaging of the auditory system in genetically
engineered mice. After graduated in 2007, he moved to NIH to work
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Mean distance: 16.27 (cluster 51) | S | N | B | C | P |
Parents
Sign in to add mentorDaniel H. Turnbull | grad student | 2002-2007 | NYU School of Medicine | |
Alan P. Koretsky | post-doc | 2007- | NIH | |
Bruce Rosen | research scientist | 2011- | ||
(Bruce is my Society Mentor since 2011 after I was elected as the Junior fellow of the International Society of Magnetic Resonance in Medicinei) |
Children
Sign in to add traineeQiang Wang | grad student | 2019- | MPI for Biological Cybernetics |
Yi He | grad student | 2014-2017 | MPI for Biological Cybernetics |
Yuanyuan Jiang | post-doc | 2018- | Mass General Hospital and Harvard Medical School |
Xiaoqing Alice Zhou | post-doc | 2022-2024 | MGH - Martinos Center, Harvard Medical School |
Collaborators
Sign in to add collaboratorJohn T. Isaac | collaborator | NIH | |
Dan H. Sanes | collaborator | NIH | |
Afonso C. Silva | collaborator | NIH | |
David Kleinfeld | collaborator | 2014- | |
Nikos K. Logothetis | collaborator | 2014- | |
Klaus Scheffler | collaborator | 2014- | Max Planck for Biological Cybernetics |
Terrence J. Sejnowski | collaborator | 2015- | |
Bharat B. Biswal | collaborator | 2016- | |
Anna Devor | collaborator | 2016- | |
Cornelius Schwarz | collaborator | 2016- | |
Zhuan Zhou | collaborator | 2016- | |
Alexandra Joyner | collaborator | 2005-2007 | Memorial Sloan Kettering |
Publications
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Zhou XA, Jiang Y, Gomez-Cid L, et al. (2025) Elucidating hemodynamics and neuro-glio-vascular signaling using rodent fMRI. Trends in Neurosciences |
Hike D, Liu X, Xie Z, et al. (2025) High-resolution awake mouse fMRI at 14 tesla. Elife. 13 |
Liu X, Hike D, Choi S, et al. (2024) Identifying the bioimaging features of Alzheimer's disease based on pupillary light response-driven brain-wide fMRI in awake mice. Nature Communications. 15: 9657 |
Chen Y, Qian W, Razansky D, et al. (2024) A novel hybrid Wireless Integrated Sensing Detector for simultaneous EEG and MRI (WISDEM). Biorxiv : the Preprint Server For Biology |
Zhou XA, Man W, Liu X, et al. (2024) Mapping glymphatic solute transportation through the perivascular space of hippocampal arterioles with 14 Tesla MRI. Biorxiv : the Preprint Server For Biology |
Jiang Y, Pais-Roldán P, Pohmann R, et al. (2024) High Spatiotemporal Resolution Radial Encoding Single-Vessel fMRI. Advanced Science (Weinheim, Baden-Wurttemberg, Germany). e2309218 |
Chen DY, Di X, Yu X, et al. (2024) The significance and limited influence of cerebrovascular reactivity on age and sex effects in task- and resting-state brain activity. Cerebral Cortex (New York, N.Y. : 1991) |
Liu X, Hike D, Choi S, et al. (2023) Mapping the bioimaging marker of Alzheimer's disease based on pupillary light response-driven brain-wide fMRI in awake mice. Biorxiv : the Preprint Server For Biology |
Hike D, Liu X, Xie Z, et al. (2023) High-resolution awake mouse fMRI at 14 Tesla. Biorxiv : the Preprint Server For Biology |
Chen Y, Fernandez Z, Scheel N, et al. (2023) Novel inductively coupled ear-bars (ICEs) to enhance restored fMRI signal from susceptibility compensation in rats. Cerebral Cortex (New York, N.Y. : 1991) |