MRI stereoscope: a miniature stereoscope for human neuroimaging
Journal article
Ip IB. et al, (2022), eneuro, ENEURO.0382 - 21.2021
Memory recall involves a transient break in excitatory-inhibitory balance
Journal article
Koolschijn RS. et al, (2021), eLife, 10
GABAergic inhibition in the human visual cortex relates to eye dominance.
Journal article
Ip IB. et al, (2021), Sci Rep, 11
Investigating the neurochemistry of the human visual system using magnetic resonance spectroscopy
Journal article
IP IB. and BRIDGE H., (2021), Brain Structure and Function
A mechanism for hippocampal memory recall based on excitatory-inhibitory fluctuations in neocortex
Journal article
Koolschijn R. et al, (2020)
Investigating the Relationship Between Eye Dominance and Excitatory/Inhibitory Balance in the Human Visual Cortex Using Combined fMRI-MRS at 7 Tesla
Conference paper
Ip IB. et al, (2020), PERCEPTION, 49, 702 - 702
Comparison of Neurochemical and BOLD Signal Contrast Response Functions in the Human Visual Cortex
Journal article
Ip IB. et al, (2019), The Journal of Neuroscience, 39, 7968 - 7975
RELATING EYE DOMINANCE TO NEUROCHEMISTRY IN THE HUMAN VISUAL CORTEX USING ULTRA HIGH FIELD 7-TESLA MR SPECTROSCOPY
Conference paper
Ip IB. et al, (2019), 2019 INTERNATIONAL CONFERENCE ON 3D IMMERSION (IC3D)
Dynamic Changes in Excitation and Inhibition During the Cortical Response to Visual Contrast in the Human Brain
Conference paper
Ip IB. et al, (2018), PERCEPTION, 47, 560 - 561
Combined fMRI-MRS acquires simultaneous glutamate and BOLD-fMRI signals in the human brain
Journal article
Ip IB. et al, (2017), NeuroImage, 155, 113 - 119
Stereoscopic Vision ☆
Chapter
Parker AJ. and Ip IB., (2017), Reference Module in Neuroscience and Biobehavioral Psychology
Effects of Spatial and Feature Attention on Disparity-Rendered Structure-From-Motion Stimuli in the Human Visual Cortex
Journal article
Ip IB. et al, (2014), PLoS ONE, 9, e100074 - e100074
Responses to interocular disparity correlation in the human cerebral cortex
Journal article
Ip IB. et al, (2014), Ophthalmic and Physiological Optics, 34, 186 - 198