Add to ORKGIn the healthy brain, neuronal excitability and synaptic strength are homeostatically regulated to keep neuronal network activity within physiological boundaries. Epilepsy is characterized by episodes of highly synchronized firing across in widespread neuronal populations, due to a failure in regulation of network activity. Here we consider epilepsy as a failure of homeostatic plasticity or as a maladaptive response to perturbations in the activity. How homeostatic compensation is involved in epileptogenic processes or in the chronic phase of epilepsy, is still debated. Although several theories have been proposed, there is relatively little experimental evidence to evaluate them. In this perspective, we will discuss recent results that she...
For healthy brain functioning, it is crucial that neuronal networks do not become hyperactive, but a...
Neuronal excitability of the brain and ongoing homeostasis depend not only on intrinsic neuronal pro...
Homeostatic plasticity has emerged as a fundamental regulatory principle that strives to maintain ne...
Homeostatic plasticity allows the brain to correct deviations from physiological levels of activity ...
Sustained alterations in neuron activity elicit compensatory changes in synaptic function, a form of...
The regulation of transmembrane ionic and synaptic currents is crucial for maintaining physiological...
The concept of homeostatic plasticity postulates that neurons maintain relatively stable rates of fi...
Activity within neural circuits shapes the synaptic properties of component neurons in a manner that...
Homeostasis is indispensable to counteract the destabilizing effects of Hebbian plasticity. Although...
Homeostatic synaptic plasticity is a negative feedback mechanism that neurons use to offset excessiv...
Homeostatic plasticity is important in neurobiology for stabilising neuronal networks in the face o...
Homeostatic processes that regulate electrical activity in neurones are now an established aspect of...
Synaptic plasticity is the capacity generated by experience to modify the neural function and, there...
Background\ud During development both Hebbian and homeostatic mechanisms regulate synaptic efficacy,...
The biophysical mechanisms underlying epileptogenesis and the generation of seizures remain to be be...
For healthy brain functioning, it is crucial that neuronal networks do not become hyperactive, but a...
Neuronal excitability of the brain and ongoing homeostasis depend not only on intrinsic neuronal pro...
Homeostatic plasticity has emerged as a fundamental regulatory principle that strives to maintain ne...
Homeostatic plasticity allows the brain to correct deviations from physiological levels of activity ...
Sustained alterations in neuron activity elicit compensatory changes in synaptic function, a form of...
The regulation of transmembrane ionic and synaptic currents is crucial for maintaining physiological...
The concept of homeostatic plasticity postulates that neurons maintain relatively stable rates of fi...
Activity within neural circuits shapes the synaptic properties of component neurons in a manner that...
Homeostasis is indispensable to counteract the destabilizing effects of Hebbian plasticity. Although...
Homeostatic synaptic plasticity is a negative feedback mechanism that neurons use to offset excessiv...
Homeostatic plasticity is important in neurobiology for stabilising neuronal networks in the face o...
Homeostatic processes that regulate electrical activity in neurones are now an established aspect of...
Synaptic plasticity is the capacity generated by experience to modify the neural function and, there...
Background\ud During development both Hebbian and homeostatic mechanisms regulate synaptic efficacy,...
The biophysical mechanisms underlying epileptogenesis and the generation of seizures remain to be be...
For healthy brain functioning, it is crucial that neuronal networks do not become hyperactive, but a...
Neuronal excitability of the brain and ongoing homeostasis depend not only on intrinsic neuronal pro...
Homeostatic plasticity has emerged as a fundamental regulatory principle that strives to maintain ne...