BioSpace Collaborative - Real-Time Decoding of Brain Responses to Visuospatial Attention Using 7T fMRI

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PLoS By Category | Recent PLoS Articles

Mental Health - Neurological Disorders - Neuroscience - Physiology - Radiology and Medical Imaging

Real-Time Decoding of Brain Responses to Visuospatial Attention Using 7T fMRI
Published: Monday, November 14, 2011
Author: Patrik Andersson et al.

by Patrik Andersson, Josien P. W. Pluim, Jeroen C. W. Siero, Stefan Klein, Max A. Viergever, Nick F. Ramsey

Brain-Computer interface technologies mean to create new communication channels between our mind and our environment, independent of the motor system, by detecting and classifying self regulation of local brain activity. BCIs can provide patients with severe paralysis a means to communicate and to live more independent lives. There has been a growing interest in using invasive recordings for BCI to improve the signal quality. This also potentially gives access to new control strategies previously inaccessible by non-invasive methods. However, before surgery, the best implantation site needs to be determined. The blood-oxygen-level dependent signal changes measured with fMRI have been shown to agree well spatially with those found with invasive electrodes, and are the best option for pre-surgical localization. We show, using real-time fMRI at 7T, that eye movement-independent visuospatial attention can be used as a reliable control strategy for BCIs. At this field strength even subtle signal changes can be detected in single trials thanks to the high contrast-to-noise ratio. A group of healthy subjects were instructed to move their attention between three (two peripheral and one central) spatial target regions while keeping their gaze fixated at the center. The activated regions were first located and thereafter the subjects were given real-time feedback based on the activity in these regions. All subjects managed to regulate local brain areas without training, which suggests that visuospatial attention is a promising new target for intracranial BCI. ECoG data recorded from one epilepsy patient showed that local changes in gamma-power can be used to separate the three classes. More...