J. Snider, Omar J. Ahmed, E. Halgren, H. Poizner, S. Cash
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Human intracranial recordings during spatial exploration of a 3D virtual environment
Intracranial electroencephalography (iEEG) recorded electrical activity of populations of neurons in humans performing a spatial navigation task in a virtual reality. The task involved navigation in a virtual room and interaction with fixed objects located in that room. The θ (4-10Hz) frequency range of the recorded iEEG deep in the brain showed increased activity during virtual movement. The central part of that range showed a cluster of spatially dependent activity over the anterior temporal lobe (ATL), indicating that ATL may play an important, previously unrecognized, role in spatial processing.
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