Recent advances in both electrophysiological recording techniques and hardware capabilities have enabled re-searchers to simultaneously record from a large number of neurons in parallel in different areas of the brain (Buzsaki, 2004, for review). Recently, we have demonstrated that it is possible to monitor the activity of such ensembles of neurons in the awake primate for many days or even weeks (Tolias et al., 2007). While this make
International audienceAbstract Co-variations in resting state activity are thought to arise from a v...
We describe a novel brain slice system ‘SliceMaster’ that allows electrophysiological recordings fro...
AbstractBackgroundCurrently, the primary technique employed in circuit-level study of the brain is e...
Recent advances in both electrophysiological recording techniques and hardware capabilities have ena...
Understanding the mechanisms of learning requires characterizing how the response properties of indi...
Understanding the mechanisms of learning requires characterizing how the response properties of indi...
Recording extracellulary from neurons in the brains of animals in vivo is among the most established...
The Buzsaki Lab is proud to present a large selection of experimental data available for public acce...
<div><p>Recording extracellulary from neurons in the brains of animals in vivo is among the most est...
The brain is a massive neuronal network, organized into anatomically distributed sub-circuits, with ...
Recent neuroscientific and technical developments of brain machine interfaces have put increasing de...
The Buzsaki Lab is proud to present a large selection of experimental data available for public acce...
Objective.Neural activity represents a functional readout of neurons that is increasingly important ...
Complex animal behaviors are supported by computations made across large ensembles of neurons distri...
International audienceAbstract Co-variations in resting state activity are thought to arise from a v...
We describe a novel brain slice system ‘SliceMaster’ that allows electrophysiological recordings fro...
AbstractBackgroundCurrently, the primary technique employed in circuit-level study of the brain is e...
Recent advances in both electrophysiological recording techniques and hardware capabilities have ena...
Understanding the mechanisms of learning requires characterizing how the response properties of indi...
Understanding the mechanisms of learning requires characterizing how the response properties of indi...
Recording extracellulary from neurons in the brains of animals in vivo is among the most established...
The Buzsaki Lab is proud to present a large selection of experimental data available for public acce...
<div><p>Recording extracellulary from neurons in the brains of animals in vivo is among the most est...
The brain is a massive neuronal network, organized into anatomically distributed sub-circuits, with ...
Recent neuroscientific and technical developments of brain machine interfaces have put increasing de...
The Buzsaki Lab is proud to present a large selection of experimental data available for public acce...
Objective.Neural activity represents a functional readout of neurons that is increasingly important ...
Complex animal behaviors are supported by computations made across large ensembles of neurons distri...
International audienceAbstract Co-variations in resting state activity are thought to arise from a v...
We describe a novel brain slice system ‘SliceMaster’ that allows electrophysiological recordings fro...
AbstractBackgroundCurrently, the primary technique employed in circuit-level study of the brain is e...