Seguir
Yuhui Chai
Yuhui Chai
Dirección de correo verificada de illinois.edu
Título
Citado por
Citado por
Año
Layer-dependent functional connectivity methods
L Huber, ES Finn, Y Chai, R Goebel, R Stirnberg, T Stöcker, S Marrett, ...
Progress in Neurobiology 207, 101835, 2021
922021
Integrated VASO and perfusion contrast: A new tool for laminar functional MRI
Y Chai, L Li, L Huber, BA Poser, PA Bandettini
NeuroImage 207, 116358, 2020
402020
Detection of subnanotesla oscillatory magnetic fields using MRI
X Jiang, J Sheng, H Li, Y Chai, X Zhou, B Wu, X Guo, JH Gao
Magnetic Resonance in Medicine 75 (2), 519-526, 2016
242016
Frequency‐dependent t ACS modulation of BOLD signal during rhythmic visual stimulation
Y Chai, J Sheng, PA Bandettini, JH Gao
Human brain mapping 39 (5), 2111-2120, 2018
192018
Direct detection of optogenetically evoked oscillatory neuronal electrical activity in rats using SLOE sequence
Y Chai, G Bi, L Wang, F Xu, R Wu, X Zhou, B Qiu, H Lei, Y Zhang, JH Gao
NeuroImage 125, 533-543, 2016
182016
Visual temporal frequency preference shows a distinct cortical architecture using fMRI
Y Chai, DA Handwerker, S Marrett, J Gonzalez-Castillo, EP Merriam, ...
Neuroimage 197, 13-23, 2019
172019
Layer-specific activation in human primary somatosensory cortex during tactile temporal prediction error processing
Y Yu, L Huber, J Yang, M Fukunaga, Y Chai, DC Jangraw, G Chen, ...
NeuroImage 248, 118867, 2022
142022
Layer-specific, retinotopically-diffuse modulation in human visual cortex in response to viewing emotionally expressive faces
TT Liu, JZ Fu, Y Chai, S Japee, G Chen, LG Ungerleider, EP Merriam
Nature Communications 13 (1), 6302, 2022
122022
Topographical and laminar distribution of audiovisual processing within human planum temporale
Y Chai, TT Liu, S Marrett, L Li, A Khojandi, DA Handwerker, A Alink, ...
Progress in neurobiology 205, 102121, 2021
112021
A comprehensive study of sensitivity in measuring oscillatory magnetic fields using rotary saturation pulse sequences
J Sheng, Y Liu, Y Chai, W Tang, B Wu, JH Gao
Magnetic Resonance Imaging 34 (3), 326-333, 2016
112016
Magnetization transfer weighted EPI facilitates cortical depth determination in native fMRI space
Y Chai, L Li, Y Wang, L Huber, BA Poser, J Duyn, PA Bandettini
Neuroimage 242, 118455, 2021
52021
Beyond the limits of layer-dependent CBV fMRI in humans: strategies towards whole brain coverage, sub-second TR, and very high 0.5 mm resolutions
L Huber, Y Chai, R Stirnberg, S Kashyap, D Kurban, A Khojandi, D Ivanov, ...
Proceedings of the international society of magnetic resonance in medicine, 3864, 2020
52020
High-resolution fMRI maps of columnar organization in human primary somatosensory cortex
J Yang, L Huber, Y Yu, Y Chai, A Khojandi, PA Bandettini
Proc Intl Soc Mag Reson Med 27, 0617, 2019
42019
Quantification of cerebral blood volume changes caused by visual stimulation at 3 T using DANTE‐prepared dual‐echo EPI
L Li, C Law, S Marrett, Y Chai, L Huber, P Jezzard, P Bandettini
Magnetic Resonance in Medicine 87 (4), 1846-1862, 2022
32022
MR imaging of oscillatory magnetic field changes: Progressing from phantom to human
Y Chai, J Sheng, W Men, Y Fan, B Wu, JH Gao
Magnetic Resonance Imaging 36, 167-174, 2017
32017
Measuring layer-dependent CBV fMRI in the visual system
L Huber, EP Merriam, I Kim, Y Chai, S Kashyap, JR Polimeni, Z Roth, ...
Proc Intl Soc Mag Reson Med, 0399, 2019
22019
Whole brain layer-fMRI: An open dataset for methods benchmarking
AK Mueller, M Heynckes, CJ Wiggins, OF Gulban, Y Chai, B Poser, ...
Ismrm, 2021
12021
Event-related decoding of visual stimulus information using short-TR BOLD fMRI at 7T
Y Miyawaki, D Handwerker, J Gonzalez-Castillo, L Huber, A Khojandi, ...
Proc Intl Soc Mag Reson Med 28, 4015, 2020
12020
A magnetization transfer weighted anatomical reference allows laminar fMRI analysis in native functional image space
Y Chai, L Li, Y Wang, L Huber, B Poser, J Duyn, PA Bandettini
12019
A Novel Intravascular Contrast for Laminar Functional MRI
Y Chai, L Li, L Huber, B Peter
ISMRM, 2018
12018
El sistema no puede realizar la operación en estos momentos. Inténtalo de nuevo más tarde.
Artículos 1–20