Learning to Associate Orientation with Color in Early Visual Areas by Associative Decoded fMRI Neurofeedback

[1]  Yuka Sasaki,et al.  Different Dynamics of Performance and Brain Activation in the Time Course of Perceptual Learning , 2008, Neuron.

[2]  S. Shimojo,et al.  Adapting to an aftereffect. , 2008, Journal of vision.

[3]  Bevil R. Conway,et al.  Spatial and Temporal Properties of Cone Signals in Alert Macaque Primary Visual Cortex , 2006, The Journal of Neuroscience.

[4]  Jonathan Winawer,et al.  Imaging retinotopic maps in the human brain , 2011, Vision Research.

[5]  A. Watson,et al.  Quest: A Bayesian adaptive psychometric method , 1983, Perception & psychophysics.

[6]  DH Hubel,et al.  Color and contrast sensitivity in the lateral geniculate body and primary visual cortex of the macaque monkey , 1990, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[7]  Fang Fang,et al.  Misbinding of Color and Motion in Human Visual Cortex , 2014, Current Biology.

[8]  D. Skowbo Are McCollough effects conditioned responses , 1984 .

[9]  R. F. Thompson,et al.  Cerebellum: essential involvement in the classically conditioned eyelid response. , 1984, Science.

[10]  Takeo Watanabe,et al.  Perceptual Learning Incepted by Decoded fMRI Neurofeedback Without Stimulus Presentation , 2011, Science.

[11]  J. Doyon,et al.  Reorganization and plasticity in the adult brain during learning of motor skills , 2005, Current Opinion in Neurobiology.

[12]  Karl J. Friston,et al.  Dissociable Roles of Ventral and Dorsal Striatum in Instrumental Conditioning , 2004, Science.

[13]  Simon B. Eickhoff,et al.  A new SPM toolbox for combining probabilistic cytoarchitectonic maps and functional imaging data , 2005, NeuroImage.

[14]  M. Petrides Deficits on conditional associative-learning tasks after frontal- and temporal-lobe lesions in man , 1985, Neuropsychologia.

[15]  Edward T. Bullmore,et al.  The functional anatomy of the McCollough contingent colour after-effect. , 1999, Neuroreport.

[16]  Jason A. Tourville,et al.  The Neural Correlates of Speech Motor Sequence Learning , 2015, Journal of Cognitive Neuroscience.

[17]  Andreas Bartels,et al.  Coding and binding of color and form in visual cortex. , 2010, Cerebral cortex.

[18]  Trichur Raman Vidyasagar Orientation specific colour adaptation at a binocular site , 1976, Nature.

[19]  Takeo Watanabe,et al.  Location-Specific Cortical Activation Changes during Sleep after Training for Perceptual Learning , 2009, Current Biology.

[20]  John Uhlarik,et al.  Color aftereffects contingent on perceptual organization , 1977 .

[21]  D. King,et al.  Cholinergic Agents and the Mccollough Effect , 2000, Perception.

[22]  Norihiro Sadato,et al.  The neural substrates of conscious color perception demonstrated using fMRI , 2004, NeuroImage.

[23]  Joseph S. Gati,et al.  Perception of the Mccollough Effect Correlates with Activity in Extrastriate Cortex: A Functional Magnetic Resonance Imaging Study , 1999 .

[24]  D H Brainard,et al.  The Psychophysics Toolbox. , 1997, Spatial vision.

[25]  J. Ushiba,et al.  Effects of neurofeedback training with an electroencephalogram-based brain-computer interface for hand paralysis in patients with chronic stroke: a preliminary case series study. , 2011, Journal of rehabilitation medicine.

[26]  Y. Miyashita,et al.  Neural organization for the long-term memory of paired associates , 1991, Nature.

[27]  C. Gilbert,et al.  Perceptual learning and top-down influences in primary visual cortex , 2004, Nature Neuroscience.

[28]  Takashi Hanakawa,et al.  Neuroanatomical correlates of brain–computer interface performance , 2015, NeuroImage.

[29]  Rainer Goebel,et al.  Information-based functional brain mapping. , 2006, Proceedings of the National Academy of Sciences of the United States of America.

[30]  Chang-Bing Huang,et al.  Perceptual Learning Improves Contrast Sensitivity of V1 Neurons in Cats , 2010, Current Biology.

[31]  Stephen M. Smith,et al.  Threshold-free cluster enhancement: Addressing problems of smoothing, threshold dependence and localisation in cluster inference , 2009, NeuroImage.

[32]  H. Hoffman,et al.  STIMULUS ASPECTS OF AVERSIVE CONTROLS: THE RETENTION OF CONDITIONED SUPPRESSION. , 1963, Journal of the experimental analysis of behavior.

[33]  S. Grossberg,et al.  Thalamocortical dynamics of the McCollough effect: boundary-surface alignment through perceptual learning , 2002, Vision Research.

[34]  Edward Vul,et al.  Contingent aftereffects distinguish conscious and preconscious color processing , 2006, Nature Neuroscience.

[35]  C. McCollough Color Adaptation of Edge-Detectors in the Human Visual System , 1965, Science.

[36]  E. Miller,et al.  Neural Activity in the Primate Prefrontal Cortex during Associative Learning , 1998, Neuron.

[37]  R. Shapley,et al.  The Orientation Selectivity of Color-Responsive Neurons in Macaque V1 , 2008, The Journal of Neuroscience.

[38]  Andreas Schulze-Bonhage,et al.  A Rapid Sound-Action Association Effect in Human Insular Cortex , 2007 .

[39]  B. Weber,et al.  Human hippocampus establishes associations in memory , 1997, Hippocampus.

[40]  Thomas E. Nichols,et al.  Nonparametric permutation tests for functional neuroimaging: A primer with examples , 2002, Human brain mapping.

[41]  Melvyn A. Goodale,et al.  Probing Unconscious Visual Processing with the McCollough Effect , 1998, Consciousness and Cognition.

[42]  Current Biology , 2012, Current Biology.

[43]  Andrea Bergmann,et al.  Statistical Parametric Mapping The Analysis Of Functional Brain Images , 2016 .

[44]  Masa-aki Sato,et al.  Sparse estimation automatically selects voxels relevant for the decoding of fMRI activity patterns , 2008, NeuroImage.

[45]  O. Hikosaka,et al.  Activation of human presupplementary motor area in learning of sequential procedures: a functional MRI study. , 1996, Journal of neurophysiology.