Electrocorticographic (ECoG) Correlates of Human Arm Movements.

TitleElectrocorticographic (ECoG) Correlates of Human Arm Movements.
Publication TypeJournal Article
Year of Publication2012
AuthorsAnderson, NR, Blakely, T, Schalk, G, Leuthardt, EC, Moran, DW
JournalExp Brain Res
Volume223
Issue1
Pagination1-10
Date Published11/2012
ISSN1432-1106
Keywordsarm tuning, brain-computer interfaces, cosine tuning, Electrocorticography, Motor Cortex, subdural electroencephalography
Abstract

Invasive and non-invasive brain-computer interface (BCI) studies have long focused on the motor cortex for kinematic control of artificial devices. Most of these studies have used single-neuron recordings or electroencephalography (EEG). Electrocorticography (ECoG) is a relatively new recording modality in BCI research that has primarily been built on successes in EEG recordings. We built on prior experiments related to single-neuron recording and quantitatively compare the extent to which different brain regions reflect kinematic tuning parameters of hand speed, direction, and velocity in both a reaching and tracing task in humans. Hand and arm movement experiments using ECoG have shown positive results before, but the tasks were not designed to tease out which kinematics are encoded. In non-human primates, the relationships among these kinematics have been more carefully documented, and we sought to begin elucidating that relationship in humans using ECoG. The largest modulation in ECoG activity for direction, speed, and velocity representation was found in the primary motor cortex. We also found consistent cosine tuning across both tasks, to hand direction and velocity in the high gamma band (70-160 Hz). Thus, the results of this study clarify the neural substrates involved in encoding aspects of motor preparation and execution and confirm the important role of the motor cortex in BCI applications.

URLhttp://www.ncbi.nlm.nih.gov/pubmed/23001369
DOI10.1007/s00221-012-3226-1
Alternate JournalExp Brain Res
PubMed ID23001369

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