Network oscillations are present throughout the mammalian brain. They are important for certain cognitive functions, such as learning and memory. The hippocampus exhibits prominent oscillations similar to those seen in other parts of the cortex. Due to its highly organised lamellar structure, ex vivo and in vitro preparations from the hippocampus have provided experimental models within which to study network oscillations. As such, experiments in hippocampal slices continue to progress our understanding about both the mechanisms and functions of cortical network oscillations. Here, advances from the past two years are summarised, and the current state of the field discussed.The authors are grateful for research funding from the BBSRC, UK. J...
Research conducted on neural oscillations have paved the way to unravel the complexities of the brai...
BACKGROUND: The spontaneous activity of neuronal networks has been studied in in vitro models such a...
The extent to which advanced organisms can grasp and learn complex environmental patterns represent...
Network oscillations are present throughout the mammalian brain. They are important for certain cogn...
Neuronal networks often express coherent oscillatory activity. These rhythms can provide a temporal ...
Gamma-frequency oscillations (∼30-100 Hz) in cortical network activity have been proposed to provide...
The brain is a complex dynamical system, with a very large number of neurons interacting on a networ...
Gamma-frequency oscillations (approximately 30-100 Hz) in cortical network activity have been propos...
A complex brain network, centered on the hippocampus, supports episodic memories throughout their li...
This dissertation investigated how several different types of oscillation organize neural activity i...
The overall theme of this dissertation is how the brain uses rhythms in spike timing to carry out co...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Brain and Cognitive Sciences, 2...
Intracortically-recorded brain signals display a rich variety of transient activities: brief, recurr...
Studies in brain slices have provided a wealth of data on the basic features of neurons and synapses...
This paper describes mathematical models that explain how neuronal networks produce oscillations obs...
Research conducted on neural oscillations have paved the way to unravel the complexities of the brai...
BACKGROUND: The spontaneous activity of neuronal networks has been studied in in vitro models such a...
The extent to which advanced organisms can grasp and learn complex environmental patterns represent...
Network oscillations are present throughout the mammalian brain. They are important for certain cogn...
Neuronal networks often express coherent oscillatory activity. These rhythms can provide a temporal ...
Gamma-frequency oscillations (∼30-100 Hz) in cortical network activity have been proposed to provide...
The brain is a complex dynamical system, with a very large number of neurons interacting on a networ...
Gamma-frequency oscillations (approximately 30-100 Hz) in cortical network activity have been propos...
A complex brain network, centered on the hippocampus, supports episodic memories throughout their li...
This dissertation investigated how several different types of oscillation organize neural activity i...
The overall theme of this dissertation is how the brain uses rhythms in spike timing to carry out co...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Brain and Cognitive Sciences, 2...
Intracortically-recorded brain signals display a rich variety of transient activities: brief, recurr...
Studies in brain slices have provided a wealth of data on the basic features of neurons and synapses...
This paper describes mathematical models that explain how neuronal networks produce oscillations obs...
Research conducted on neural oscillations have paved the way to unravel the complexities of the brai...
BACKGROUND: The spontaneous activity of neuronal networks has been studied in in vitro models such a...
The extent to which advanced organisms can grasp and learn complex environmental patterns represent...