Investigation of axonal magnetic fields in the human corpus callosum using visual stimulation based on MR signal modulation

To investigate the possibility of detecting visually‐evoked axonal currents in the splenium of the human corpus callosum using a 3.0T MRI system.

[1]  Robert J. S. Brown,et al.  Distribution of Fields from Randomly Placed Dipoles: Free-Precession Signal Decay as Result of Magnetic Grains , 1961 .

[2]  M S Gazzaniga,et al.  Microelectrode analysis of transfer of visual information by the corpus callosum. , 1967, Archives italiennes de biologie.

[3]  A. Milner,et al.  Visual evoked potentials to lateralized visual stimuli and the measurement of interhemispheric transmission time , 1984, Neuropsychologia.

[4]  M. Joy,et al.  In vivo detection of applied electric currents by magnetic resonance imaging. , 1989, Magnetic resonance imaging.

[5]  J. Gore,et al.  Intravascular susceptibility contrast mechanisms in tissues , 1994, Magnetic resonance in medicine.

[6]  A. Schüz,et al.  Basic Connectivity of the Cerebral Cortex and some Considerations on the Corpus Callosum , 1996, Neuroscience & Biobehavioral Reviews.

[7]  J. Bodurka,et al.  Current-induced magnetic resonance phase imaging. , 1999, Journal of magnetic resonance.

[8]  S. Holland,et al.  NMR relaxation times in the human brain at 3.0 tesla , 1999, Journal of magnetic resonance imaging : JMRI.

[9]  K. Iramina,et al.  Neuronal current distribution imaging using magnetic resonance , 1999, IEEE International Magnetics Conference.

[10]  A. Song,et al.  Lorentz effect imaging. , 2001, Magnetic resonance imaging.

[11]  J. Bodurka,et al.  Toward direct mapping of neuronal activity: MRI detection of ultraweak, transient magnetic field changes , 2002 .

[12]  Derek K. Jones,et al.  Diffusion‐tensor MRI: theory, experimental design and data analysis – a technical review , 2002 .

[13]  D. Perani,et al.  Interhemispheric transmission of visuomotor information in humans: fMRI evidence. , 2002, Journal of neurophysiology.

[14]  Michael C Corballis,et al.  Interhemispheric neural summation in the split brain: effects of stimulus colour and task , 2003, Neuropsychologia.

[15]  J. Xiong,et al.  Directly mapping magnetic field effects of neuronal activity by magnetic resonance imaging , 2003, Human brain mapping.

[16]  Hua Yang,et al.  Mapping of periodic waveforms using the ghost reconstructed alternating current estimation (GRACE) magnetic resonance imaging technique , 2003, Magnetic resonance in medicine.

[17]  R. Bowtell,et al.  MRI detection of weak magnetic fields due to an extended current dipole in a conducting sphere: A model for direct detection of neuronal currents in the brain , 2003, Magnetic resonance in medicine.

[18]  Chow Li Sze Attempting to detect firing of the optic nerve using GRACE MR and sequential averaging. , 2004 .

[19]  Ji-Ho Park,et al.  Effect of nerve cell currents on MRI images in snail ganglia , 2004, Neuroreport.

[20]  S. Kiebel,et al.  The MR detection of neuronal depolarization during 3-Hz spike-and-wave complexes in generalized epilepsy. , 2004, Magnetic Resonance Imaging.

[21]  Y. Huh,et al.  The inhibition of nitric oxide synthase enhances PSA-NCAM expression and CREB phosphorylation in the rat hippocampus , 2004, Neuroreport.

[22]  R. Bowtell,et al.  Initial attempts at directly detecting alpha wave activity in the brain using MRI. , 2004, Magnetic resonance imaging.

[23]  Jeff H. Duyn,et al.  Hunting for neuronal currents: absence of rapid MRI signal changes during visual-evoked response , 2004, NeuroImage.

[24]  J. Bodurka,et al.  Direct detection of neuronal activity with MRI: Fantasy, possibility, or reality? , 2005 .

[25]  Li Sze Chow,et al.  Investigating direct detection of axon firing in the adult human optic nerve using MRI , 2006, NeuroImage.

[26]  Li Sze Chow,et al.  Investigation of MR signal modulation due to magnetic fields from neuronal currents in the adult human optic nerve and visual cortex. , 2006, Magnetic resonance imaging.

[27]  A. Song,et al.  Synchronized detection of minute electrical currents with MRI using Lorentz effect imaging. , 2006, Journal of magnetic resonance.

[28]  Jia-Hong Gao,et al.  Direct MRI detection of neuronal magnetic fields in the brain: Theoretical modeling , 2006, NeuroImage.

[29]  Soo Yeol Lee,et al.  Observation of the fast response of a magnetic resonance signal to neuronal activity: a snail ganglia study , 2006, Physiological measurement.

[30]  Laura M Parkes,et al.  Inability to directly detect magnetic field changes associated with neuronal activity , 2007, Magnetic resonance in medicine.