Abstract. Many inhibitory rhythmic networks produce activity in a range of frequencies. The relative phase of activity between neurons in these networks is often a determinant of the network output. This relative phase is determined by the interaction between synaptic inputs to the neurons and their intrinsic properties. We show, in a simplified network consisting of an oscillator inhibiting a follower neuron, how the interaction between synaptic depression and a transient potassium current in the follower neuron determines the activity phase of this neuron. We derive a mathematical expression to determine at what phase of the oscillation the follower neuron becomes active. This expression can be used to understand which parameters determin...
Synchronization of neuronal activity is observed in high-and low-level functions of the nervous syst...
Abstract. We describe four different mechanisms that lead to oscillations in a network of two recipr...
The origin of rhythmic activity in brain circuits and CPG-like motor networks is still not fully und...
. We analyze the control of frequency for a synchronized inhibitory neuronal network. The analysis ...
In the brain, the postsynaptic response of a neuron to time-varying inputs is determined by the inte...
unrestricted use, distribution, and reproduction in any medium, provided the original work is proper...
In this thesis we study aspects of periodic activity in model mutually-coupled oscillators inspired ...
Numerous animal behaviors, such as locomotion in vertebrates, are produced by rhythmic contractions ...
The oscillatory activities form neural networks are involved in many behaviors, and animals need to ...
Bursting oscillations are prevalent in neurons of central pattern generators (CPGs) that produce rhy...
'Phase amplitude coupling' (PAC) in oscillatory neural activity describes a phenomenon whereby the a...
In vertebrates, locomotion arise from an alternate rhythmic activity of different neural populations...
Oscillatory activity, paramount in the central nervous system, is of special significance in the pro...
‘Phase amplitude coupling’ (PAC) in oscillatory neural activity describes a phenomenon whereby the a...
Abstract. Synaptic depression is a common form of short-term plasticity in the central and periphera...
Synchronization of neuronal activity is observed in high-and low-level functions of the nervous syst...
Abstract. We describe four different mechanisms that lead to oscillations in a network of two recipr...
The origin of rhythmic activity in brain circuits and CPG-like motor networks is still not fully und...
. We analyze the control of frequency for a synchronized inhibitory neuronal network. The analysis ...
In the brain, the postsynaptic response of a neuron to time-varying inputs is determined by the inte...
unrestricted use, distribution, and reproduction in any medium, provided the original work is proper...
In this thesis we study aspects of periodic activity in model mutually-coupled oscillators inspired ...
Numerous animal behaviors, such as locomotion in vertebrates, are produced by rhythmic contractions ...
The oscillatory activities form neural networks are involved in many behaviors, and animals need to ...
Bursting oscillations are prevalent in neurons of central pattern generators (CPGs) that produce rhy...
'Phase amplitude coupling' (PAC) in oscillatory neural activity describes a phenomenon whereby the a...
In vertebrates, locomotion arise from an alternate rhythmic activity of different neural populations...
Oscillatory activity, paramount in the central nervous system, is of special significance in the pro...
‘Phase amplitude coupling’ (PAC) in oscillatory neural activity describes a phenomenon whereby the a...
Abstract. Synaptic depression is a common form of short-term plasticity in the central and periphera...
Synchronization of neuronal activity is observed in high-and low-level functions of the nervous syst...
Abstract. We describe four different mechanisms that lead to oscillations in a network of two recipr...
The origin of rhythmic activity in brain circuits and CPG-like motor networks is still not fully und...