The brain generates persistent neuronal firing sequences across varying timescales. The short-timescale (~100ms) sequences are believed to be crucial in the formation and transfer of memories. Large-amplitude local field potentials known as sharp-wave ripples (SWRs) occur irregularly in hippocampus when an animal has minimal interaction with its environment, such as during resting, immobility, or slow-wave sleep. SWRs have been long hypothesized to play a critical role in transferring memories from the hippocampus to the neocortex [1]. While sequential firing during SWRs is known to be biased by the previous experiences of the animal, the exact relationship of the short-timescale sequences during SWRs and longer-timescale sequences during s...
Neural processing occurs across a range of temporal scales. To facilitate this, the brain uses fast-...
Sharp wave/ripple (SWR, 150–250 Hz) hippocampal events have long been postulated to be involved in m...
The overall theme of this dissertation is how the brain uses rhythms in spike timing to carry out co...
The brain generates persistent neuronal firing sequences across varying timescales. The short-timesc...
Hippocampal sharp wave-ripple complexes (SWRs) involve the synchronous discharge of thousands of cel...
Sequences of neuronal activation have long been implicated in a variety of brain functions. In parti...
On the linear track, the recent firing sequences of CA1 place cells recur during sharp wave ⁄ ripple...
Hippocampal place field sequences are supported by sensory cues and network internal mechanisms. In ...
Hippocampal place field sequences are supported by sensory cues and network internal mechanisms. In ...
Closed-loop modulation of neural activity facilitates causal tests of hypothesis to link temporal ne...
Hippocampal neurons can display reliable and long-lasting sequences of transient firing patterns, ev...
SummaryWe observed sharp wave/ripples (SWR) during exploration within brief (<2.4 s) interruptions o...
Replay of neuronal activity during hippocampal sharp wave-ripples (SWRs) is essential in memory form...
Sequences of neuronal activation have long been implicated in a variety of brain functions. In parti...
International audienceThe ability to maintain a sequence of items in short-term memory (STM) is a fu...
Neural processing occurs across a range of temporal scales. To facilitate this, the brain uses fast-...
Sharp wave/ripple (SWR, 150–250 Hz) hippocampal events have long been postulated to be involved in m...
The overall theme of this dissertation is how the brain uses rhythms in spike timing to carry out co...
The brain generates persistent neuronal firing sequences across varying timescales. The short-timesc...
Hippocampal sharp wave-ripple complexes (SWRs) involve the synchronous discharge of thousands of cel...
Sequences of neuronal activation have long been implicated in a variety of brain functions. In parti...
On the linear track, the recent firing sequences of CA1 place cells recur during sharp wave ⁄ ripple...
Hippocampal place field sequences are supported by sensory cues and network internal mechanisms. In ...
Hippocampal place field sequences are supported by sensory cues and network internal mechanisms. In ...
Closed-loop modulation of neural activity facilitates causal tests of hypothesis to link temporal ne...
Hippocampal neurons can display reliable and long-lasting sequences of transient firing patterns, ev...
SummaryWe observed sharp wave/ripples (SWR) during exploration within brief (<2.4 s) interruptions o...
Replay of neuronal activity during hippocampal sharp wave-ripples (SWRs) is essential in memory form...
Sequences of neuronal activation have long been implicated in a variety of brain functions. In parti...
International audienceThe ability to maintain a sequence of items in short-term memory (STM) is a fu...
Neural processing occurs across a range of temporal scales. To facilitate this, the brain uses fast-...
Sharp wave/ripple (SWR, 150–250 Hz) hippocampal events have long been postulated to be involved in m...
The overall theme of this dissertation is how the brain uses rhythms in spike timing to carry out co...