HIGHLIGHTS
SUMMARY
The authors propose that entorhinal grid cells (and related grid-like codes) make an essential contribution to (socio-)spatial navigation in humans. The authors reasoned that if underlying grid cells supported the tracking of others, the authors should observe increased grid-like codes in the entorhinal cortex during observation of the demonstrator moving through VR-space. In analogy to previous work that reported entorhinal grid cell activity, or grid-like codes, during spatial (and mental) self-navigation7-14, the authors expected to replicate this finding in the data set and hypothesized significant grid-like . . .
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