Hippocampal theta (6–10 Hz) and gamma (25–50 Hz and 65–100 Hz) local field potentials (LFPs) reflect the dynamic synchronization evoked by inputs impinging upon hippocampal neurons. Novel experience is known to engage hippocampal physiology and promote successful encoding. Does novelty synchronize or desynchronize theta and/or gamma frequency inputs across the septotemporal (long) axis of the hippocampus (HPC)? The present study tested the hypothesis that a novel spatial environment would alter theta power and coherence across the long axis. We compared theta and gamma LFP signals at individual (power) and millimeter distant electrode pairs (coherence) within the dentate gyrus (DG) and CA1 region while rats navigated a runway (1) in a famil...
Hippocampal rhythmic oscillations in the theta and gamma range have been purported to underlie infor...
SummaryA topographical relationship exists between the hippocampus-entorhinal cortex and the neocort...
Theta frequency oscillations in the 6- to 10-Hz range dominate the rodent hippocampal local field po...
Hippocampal theta (6–10 Hz) and gamma (25–50 Hz and 65–100 Hz) local field potentials (LFPs) reflect...
The hippocampal formation [entorhinal cortex (EC), hippocampus (HPC)] is essential for memory format...
The hippocampus is important for creating memories. Complex cognitive processes such as memory requi...
The hippocampus contributes to the formation of long term memory. However, exactly how the hippocamp...
Theta (6-12 Hz) rhythmicity in the local field potential (LFP) reflects a clocking mechanism that br...
Precisely how rhythms support neuronal communication remains obscure. We investigated interregional ...
A topographical relationship exists between the hippocampus-entorhinal cortex and the neocortex. How...
SummaryPrecisely how rhythms support neuronal communication remains obscure. We investigated interre...
Theta oscillations (6–12 Hz) have been theorized to provide a clocking mechanism that can bring phys...
This article belongs to the Special Issue Information Processing in Neuronal Circuits and Systems.Th...
A role for oscillatory activity in hippocampal neuronal networks has been proposed in sensory encodi...
International audienceTheta oscillations organize neuronal firing in the hippocampus during context ...
Hippocampal rhythmic oscillations in the theta and gamma range have been purported to underlie infor...
SummaryA topographical relationship exists between the hippocampus-entorhinal cortex and the neocort...
Theta frequency oscillations in the 6- to 10-Hz range dominate the rodent hippocampal local field po...
Hippocampal theta (6–10 Hz) and gamma (25–50 Hz and 65–100 Hz) local field potentials (LFPs) reflect...
The hippocampal formation [entorhinal cortex (EC), hippocampus (HPC)] is essential for memory format...
The hippocampus is important for creating memories. Complex cognitive processes such as memory requi...
The hippocampus contributes to the formation of long term memory. However, exactly how the hippocamp...
Theta (6-12 Hz) rhythmicity in the local field potential (LFP) reflects a clocking mechanism that br...
Precisely how rhythms support neuronal communication remains obscure. We investigated interregional ...
A topographical relationship exists between the hippocampus-entorhinal cortex and the neocortex. How...
SummaryPrecisely how rhythms support neuronal communication remains obscure. We investigated interre...
Theta oscillations (6–12 Hz) have been theorized to provide a clocking mechanism that can bring phys...
This article belongs to the Special Issue Information Processing in Neuronal Circuits and Systems.Th...
A role for oscillatory activity in hippocampal neuronal networks has been proposed in sensory encodi...
International audienceTheta oscillations organize neuronal firing in the hippocampus during context ...
Hippocampal rhythmic oscillations in the theta and gamma range have been purported to underlie infor...
SummaryA topographical relationship exists between the hippocampus-entorhinal cortex and the neocort...
Theta frequency oscillations in the 6- to 10-Hz range dominate the rodent hippocampal local field po...