BACKGROUND: The hippocampus underpins our ability to navigate, to form and recollect memories, and to imagine future experiences. How activity across millions of hippocampal neurons supports these functions is a fundamental question in neuroscience, wherein the size, sparseness, and organization of the hippocampal neural code are debated. RESULTS: Here, by using multivariate pattern classification and high spatial resolution functional MRI, we decoded activity across the population of neurons in the human medial temporal lobe while participants navigated in a virtual reality environment. Remarkably, we could accurately predict the position of an individual within this environment solely from the pattern of activity in his hippocampus even w...
Decades of research identify the hippocampal formation as central to memory storage and recall. Even...
The hippocampus has long been implicated in both episodic and spatial memory, however these mnemonic...
Individual hippocampal neurons selectively increase their firing rates in specific spatial locations...
SummaryBackgroundThe hippocampus underpins our ability to navigate, to form and recollect memories, ...
Sherpa Romeo yellow journal. Open access article. Creative Commons Attribution 4.0 International Lic...
The hippocampal formation has been associated with a wide variety of functions including spatial nav...
How memories are encoded and stored is a fundamental question in neuroscience. The hippocampus, a w...
The hippocampus is widely assumed to play a central role in representing spatial layouts in the form...
In recent years, multivariate pattern analyses have been performed on functional magnetic resonance ...
The ability to navigate our environment is a vital skill for numerous species, including humans. How...
SummaryIn recent years, multivariate pattern analyses have been performed on functional magnetic res...
Historically, there have been two lines of research on mammalian hippocampus. The first one is conce...
The hippocampal formation has long been suggested to underlie both memory formation and spatial navi...
Memory traces are believed to be supported by neural ensembles sculpted by learning activity. Reacti...
Decades of research identify the hippocampal formation as central to memory storage and recall. Even...
Decades of research identify the hippocampal formation as central to memory storage and recall. Even...
The hippocampus has long been implicated in both episodic and spatial memory, however these mnemonic...
Individual hippocampal neurons selectively increase their firing rates in specific spatial locations...
SummaryBackgroundThe hippocampus underpins our ability to navigate, to form and recollect memories, ...
Sherpa Romeo yellow journal. Open access article. Creative Commons Attribution 4.0 International Lic...
The hippocampal formation has been associated with a wide variety of functions including spatial nav...
How memories are encoded and stored is a fundamental question in neuroscience. The hippocampus, a w...
The hippocampus is widely assumed to play a central role in representing spatial layouts in the form...
In recent years, multivariate pattern analyses have been performed on functional magnetic resonance ...
The ability to navigate our environment is a vital skill for numerous species, including humans. How...
SummaryIn recent years, multivariate pattern analyses have been performed on functional magnetic res...
Historically, there have been two lines of research on mammalian hippocampus. The first one is conce...
The hippocampal formation has long been suggested to underlie both memory formation and spatial navi...
Memory traces are believed to be supported by neural ensembles sculpted by learning activity. Reacti...
Decades of research identify the hippocampal formation as central to memory storage and recall. Even...
Decades of research identify the hippocampal formation as central to memory storage and recall. Even...
The hippocampus has long been implicated in both episodic and spatial memory, however these mnemonic...
Individual hippocampal neurons selectively increase their firing rates in specific spatial locations...