Literature DB >> 12953305

Directly mapping magnetic field effects of neuronal activity by magnetic resonance imaging.

Jinhu Xiong1, Peter T Fox, Jia-Hong Gao.   

Abstract

Magnetic resonance imaging (MRI) of brain functional activity relies principally on changes in cerebral hemodynamics, which are more spatially and temporally distributed than the underlying neuronal activity changes. We present a novel MRI technique for mapping brain functional activity by directly detecting magnetic fields induced by neuronal firing. Using a well-established visuomotor paradigm, the locations and latencies of activations in visual, motor, and premotor cortices were imaged at a temporal resolution of 100 msec and a spatial resolution of 3 mm, and were found to be in consistent with the electrophysiological and functional MRI (fMRI) literature. Signal strength was comparable to traditional event-related fMRI methods: about 1% of the baseline signal. The magnetic-source MRI technique greatly increases the temporal accuracy in detecting neuronal activity, providing a powerful new tool for mapping brain functional organization in human and animals. Copyright 2003 Wiley-Liss, Inc.

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Year:  2003        PMID: 12953305      PMCID: PMC6871858          DOI: 10.1002/hbm.10124

Source DB:  PubMed          Journal:  Hum Brain Mapp        ISSN: 1065-9471            Impact factor:   5.038


  29 in total

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7.  Failure to direct detect magnetic field dephasing corresponding to ERP generation.

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8.  Stimulus-induced Rotary Saturation (SIRS): a potential method for the detection of neuronal currents with MRI.

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10.  Characterization of non-hemodynamic functional signal measured by spin-lock fMRI.

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