The spatially periodic activity of grid cells in the entorhinal cortex (EC) of the rodent, primate, and human provides a coordinate system that, together with the hippocampus, informs an individual of its location relative to the environment and encodes the memory of that location. Among the most defining features of grid-cell activity are the 60 degrees rotational symmetry of grids and preservation of grid scale across environments. Grid cells, however, do display a limited degree of adaptation to environments. It remains unclear if this level of environment invariance generalizes to human grid-cell analogs, where the relative contribution of visual input to the multimodal sensory input of the EC is significantly larger than in rodents. Pa...
Grid cells in the entorhinal cortex appear to represent spatial location via a triangular coordinate...
Recent studies emphasize the importance of the entorhinal cortex in spatial representation and navig...
The medial entorhinal cortex and the hippocampus are brain regions specialized in spatial informatio...
The ability to remember and navigate spatial environments is critical for everyday life. A primary m...
SummaryThe ability to remember and navigate spatial environments is critical for everyday life. A pr...
Grid cells in entorhinal cortex of freely moving rodents were proposed to provide a universal metric...
The mammalian hippocampal formation provides neuronal representations of environmental location, but...
Grid cells in the entorhinal cortex of freely moving rats provide a strikingly periodic representati...
Navigating the environment requires the integration of distance, direction, and place information, w...
Grid cells are one of the core building blocks of spatial navigation [1]. Single-cell recordings of ...
Grid cells and theta oscillations are fundamental components of the brain's navigation system. Grid ...
Anticipating the future is a key motif of the brain, possibly supported by mental simulation of upco...
How do we know where we are? Orientation in space is key to our daily existence as we follow familia...
Place cells in the hippocampus of higher mammals are critical for spatial navigation. Recent modelin...
SummaryGrid cells in the entorhinal cortex (EC) of rodents [1] and humans [2] fire in a hexagonally ...
Grid cells in the entorhinal cortex appear to represent spatial location via a triangular coordinate...
Recent studies emphasize the importance of the entorhinal cortex in spatial representation and navig...
The medial entorhinal cortex and the hippocampus are brain regions specialized in spatial informatio...
The ability to remember and navigate spatial environments is critical for everyday life. A primary m...
SummaryThe ability to remember and navigate spatial environments is critical for everyday life. A pr...
Grid cells in entorhinal cortex of freely moving rodents were proposed to provide a universal metric...
The mammalian hippocampal formation provides neuronal representations of environmental location, but...
Grid cells in the entorhinal cortex of freely moving rats provide a strikingly periodic representati...
Navigating the environment requires the integration of distance, direction, and place information, w...
Grid cells are one of the core building blocks of spatial navigation [1]. Single-cell recordings of ...
Grid cells and theta oscillations are fundamental components of the brain's navigation system. Grid ...
Anticipating the future is a key motif of the brain, possibly supported by mental simulation of upco...
How do we know where we are? Orientation in space is key to our daily existence as we follow familia...
Place cells in the hippocampus of higher mammals are critical for spatial navigation. Recent modelin...
SummaryGrid cells in the entorhinal cortex (EC) of rodents [1] and humans [2] fire in a hexagonally ...
Grid cells in the entorhinal cortex appear to represent spatial location via a triangular coordinate...
Recent studies emphasize the importance of the entorhinal cortex in spatial representation and navig...
The medial entorhinal cortex and the hippocampus are brain regions specialized in spatial informatio...