Grid cells in the entorhinal cortex of freely moving rats provide a strikingly periodic representation of self-location1 which is indicative of very specific computational mechanisms2,3,4. However, the existence of grid cells in humans and their distribution throughout the brain are unknown. Here we show that the preferred firing directions of directionally modulated grid cells in rat entorhinal cortex are aligned with the grids, and that the spatial organization of grid-cell firing is more strongly apparent at faster than slower running speeds. Because the grids are also aligned with each other1,5, we predicted a macroscopic signal visible to functional magnetic resonance imaging (fMRI) in humans. We then looked for this signal as particip...
Grid cells in the hippocampal formation fire when the animal visits nodes of a triangular grid cover...
Spatial cognition in naturalistic environments, for freely moving animals, may pose quite different ...
Grid cells in the medial entorhinal cortex have spatial firing fields that repeat periodically in a ...
SummaryGrid cells in the entorhinal cortex (EC) of rodents [1] and humans [2] fire in a hexagonally ...
Grid cells in the entorhinal cortex (EC) of rodents [1] and humans [2] fire in a hexagonally distrib...
Hinman et al. demonstrate the presence of two speed signals in the rodent medial entorhinal cortex t...
Anticipating the future is a key motif of the brain, possibly supported by mental simulation of upco...
Grid cells in entorhinal cortex of freely moving rodents were proposed to provide a universal metric...
How do we know where we are? Orientation in space is key to our daily existence as we follow familia...
Recent human functional magnetic resonance imaging (fMRI) and animal electrophysiology studies sugge...
The spatially periodic activity of grid cells in the entorhinal cortex (EC) of the rodent, primate, ...
Ongoing efforts to link patterns of neural activity to cognition and behavior entail the use of an i...
Recent human functional magnetic resonance imaging (fMRI) and animal electrophysiology studies sugge...
Entorhinal grid cells, characterized by spatially periodic activity patterns, are thought to provide...
We investigated how entorhinal grid cells encode volumetric space. On a horizontal surface, grid cel...
Grid cells in the hippocampal formation fire when the animal visits nodes of a triangular grid cover...
Spatial cognition in naturalistic environments, for freely moving animals, may pose quite different ...
Grid cells in the medial entorhinal cortex have spatial firing fields that repeat periodically in a ...
SummaryGrid cells in the entorhinal cortex (EC) of rodents [1] and humans [2] fire in a hexagonally ...
Grid cells in the entorhinal cortex (EC) of rodents [1] and humans [2] fire in a hexagonally distrib...
Hinman et al. demonstrate the presence of two speed signals in the rodent medial entorhinal cortex t...
Anticipating the future is a key motif of the brain, possibly supported by mental simulation of upco...
Grid cells in entorhinal cortex of freely moving rodents were proposed to provide a universal metric...
How do we know where we are? Orientation in space is key to our daily existence as we follow familia...
Recent human functional magnetic resonance imaging (fMRI) and animal electrophysiology studies sugge...
The spatially periodic activity of grid cells in the entorhinal cortex (EC) of the rodent, primate, ...
Ongoing efforts to link patterns of neural activity to cognition and behavior entail the use of an i...
Recent human functional magnetic resonance imaging (fMRI) and animal electrophysiology studies sugge...
Entorhinal grid cells, characterized by spatially periodic activity patterns, are thought to provide...
We investigated how entorhinal grid cells encode volumetric space. On a horizontal surface, grid cel...
Grid cells in the hippocampal formation fire when the animal visits nodes of a triangular grid cover...
Spatial cognition in naturalistic environments, for freely moving animals, may pose quite different ...
Grid cells in the medial entorhinal cortex have spatial firing fields that repeat periodically in a ...