Over long timescales, neuronal dynamics can be robust to quite large perturbations, such as changes in white matter connectivity and grey matter structure through processes including learning, aging, development and certain disease processes. One possible explanation is that robust dynamics are facilitated by homeostatic mechanisms that can dynamically rebalance brain networks. In this study, we simulate a cortical brain network using the Wilson-Cowan neural mass model with conduction delays and noise, and use inhibitory synaptic plasticity (ISP) to dynamically achieve a spatially local balance between excitation and inhibition. Using MEG data from 55 subjects we find that ISP enables us to simultaneously achieve high correlation with multi...
Ongoing spontaneous brain activity patterns raise ever-growing interest in the neuroscience communit...
Brain fluctuations at rest are not random but are structured in spatial patterns of correlated activ...
Widely distributed brain networks display highly coherent activity at rest. In this work, we combin...
Over long timescales, neuronal dynamics can be robust to quite large perturbations, such as changes ...
Over long timescales, neuronal dynamics can be robust to quite large perturbations, such as changes ...
The brain consists of complex interacting networks of excitatory and inhibitory neurons. The spatio-...
Like many systems in nature, the brain is a highly organised unit of interacting components. A natur...
The spontaneous activity of the brain shows different features at different scales. On one hand, neu...
The purpose of this research is to study the implications of Excitation/Inhibition balance and imbal...
Spontaneous (or resting-state) brain activity has attracted a growing body of neuroimaging research ...
AbstractSpontaneous (or resting-state) brain activity has attracted a growing body of neuroimaging r...
SummaryModels of cortical dynamics often assume a homogeneous connectivity structure. However, we sh...
Dynamic models of large-scale brain activity have been used for reproducing many empirical findings ...
Computational modeling of the spontaneous dynamics over the whole brain provides critical insight in...
The spontaneous activity of the brain shows different features at different scales. On one hand, neu...
Ongoing spontaneous brain activity patterns raise ever-growing interest in the neuroscience communit...
Brain fluctuations at rest are not random but are structured in spatial patterns of correlated activ...
Widely distributed brain networks display highly coherent activity at rest. In this work, we combin...
Over long timescales, neuronal dynamics can be robust to quite large perturbations, such as changes ...
Over long timescales, neuronal dynamics can be robust to quite large perturbations, such as changes ...
The brain consists of complex interacting networks of excitatory and inhibitory neurons. The spatio-...
Like many systems in nature, the brain is a highly organised unit of interacting components. A natur...
The spontaneous activity of the brain shows different features at different scales. On one hand, neu...
The purpose of this research is to study the implications of Excitation/Inhibition balance and imbal...
Spontaneous (or resting-state) brain activity has attracted a growing body of neuroimaging research ...
AbstractSpontaneous (or resting-state) brain activity has attracted a growing body of neuroimaging r...
SummaryModels of cortical dynamics often assume a homogeneous connectivity structure. However, we sh...
Dynamic models of large-scale brain activity have been used for reproducing many empirical findings ...
Computational modeling of the spontaneous dynamics over the whole brain provides critical insight in...
The spontaneous activity of the brain shows different features at different scales. On one hand, neu...
Ongoing spontaneous brain activity patterns raise ever-growing interest in the neuroscience communit...
Brain fluctuations at rest are not random but are structured in spatial patterns of correlated activ...
Widely distributed brain networks display highly coherent activity at rest. In this work, we combin...