Theta (6-12 Hz) rhythmicity in the local field potential (LFP) reflects a clocking mechanism that brings physically isolated neurons together in time, allowing for the integration and segregation of distributed cell assemblies. Variation in the theta signal has been linked to locomotor speed, sensorimotor integration as well as cognitive processing. Previously, we have characterized the relationship between locomotor speed and theta power and how that relationship varies across the septotemporal (long) axis of the hippocampus (HPC). The current study investigated the relationship between whole body acceleration, deceleration and theta indices at CA1 and dentate gyrus (DG) sites along the septotemporal axis of the HPC in rats. Results indica...
The hippocampus exhibits two major modes of activity: Theta oscillations during the “online” active ...
Theta oscillations (6–12 Hz) have been theorized to provide a clocking mechanism that can bring phys...
Hippocampal theta oscillations support encoding of an animal’s position during spatial navigation, y...
Theta (6–12 Hz) rhythmicity in the local field potential (LFP) reflects a clocking mechanism that br...
Theta (6–12 Hz) rhythmicity in the local field potential (LFP) reflects a clocking mechanism that br...
Theta (6-12 Hz) field potentials and the synchronization (coherence) of these potentials present neu...
Theta (6-12 Hz) rhythmicity in the local field potential (LFP) reflects a clocking mechanism that br...
The hippocampal theta rhythm is required for accurate navigation and spatial memory but its relation...
The theta band oscillation in the hippocampus and medial entorhinal cortex carries a strong correlat...
The hippocampal theta rhythm is required for accurate navigation and spatial memory but its relation...
Rhythmic oscillations within the hippocampus are thought to synchronize various subregions during le...
<p>(A) Schematic of recording site. (B-C) Average theta power and frequency during navigation in the...
The theta rhythm organizes neural activity across hippocampus and entorhinal cortex. A role for thet...
<p><b>A</b>: two-dimensional histograms for the relationship between deceleration and theta amplitud...
Hippocampus plays important roles in episodic memory formation, learning and spatial navigation. In ...
The hippocampus exhibits two major modes of activity: Theta oscillations during the “online” active ...
Theta oscillations (6–12 Hz) have been theorized to provide a clocking mechanism that can bring phys...
Hippocampal theta oscillations support encoding of an animal’s position during spatial navigation, y...
Theta (6–12 Hz) rhythmicity in the local field potential (LFP) reflects a clocking mechanism that br...
Theta (6–12 Hz) rhythmicity in the local field potential (LFP) reflects a clocking mechanism that br...
Theta (6-12 Hz) field potentials and the synchronization (coherence) of these potentials present neu...
Theta (6-12 Hz) rhythmicity in the local field potential (LFP) reflects a clocking mechanism that br...
The hippocampal theta rhythm is required for accurate navigation and spatial memory but its relation...
The theta band oscillation in the hippocampus and medial entorhinal cortex carries a strong correlat...
The hippocampal theta rhythm is required for accurate navigation and spatial memory but its relation...
Rhythmic oscillations within the hippocampus are thought to synchronize various subregions during le...
<p>(A) Schematic of recording site. (B-C) Average theta power and frequency during navigation in the...
The theta rhythm organizes neural activity across hippocampus and entorhinal cortex. A role for thet...
<p><b>A</b>: two-dimensional histograms for the relationship between deceleration and theta amplitud...
Hippocampus plays important roles in episodic memory formation, learning and spatial navigation. In ...
The hippocampus exhibits two major modes of activity: Theta oscillations during the “online” active ...
Theta oscillations (6–12 Hz) have been theorized to provide a clocking mechanism that can bring phys...
Hippocampal theta oscillations support encoding of an animal’s position during spatial navigation, y...