Homeostatic adjustment of neuronal firing rates is considered a vital mechanism to keep neurons operating in their optimal range despite dynamically changing input. Two studies in this issue of Neuron, Hengen et al. (2013) and Keck et al. (2013), provide evidence for firing rate homeostasis in the neocortex of freely behaving rodents
Neural firing rates must be maintained within a stable range in the face of ongoing fluctuations in ...
textAbstract The synaptic input received by neurons in cortical circuits is in constant flux. From b...
The cerebral cortex continuously adapts through learning and changes in sensory experience. A major ...
Homeostatic adjustment of neuronal firing rates is considered a vital mechanism to keep neurons oper...
Homeostatic adjustment of neuronal firing rates is considered a vital mechanism to keep neurons oper...
SummaryIt has been postulated that homeostatic mechanisms maintain stable circuit function by keepin...
We compare the circuit and cellular mechanisms for homeostatic plasticity that have been discovered ...
The concept of homeostatic plasticity postulates that neurons maintain relatively stable rates of fi...
Abstract Homeostatic processes that provide negative feedback to regulate neuronal fi...
A neuron’s identity and function are dictated by its electrophysiological signature. The firing patt...
Homeostasis is indispensable to counteract the destabilizing effects of Hebbian plasticity. Although...
Homeostatic processes that regulate electrical activity in neurones are now an established aspect of...
Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, p...
Homeostatic regulation is essential for stable neuronal function. Several synaptic mechanisms of hom...
Firing rate homeostasis (FRH) stabilizes neural activity. A pervasive and intuitive theory argues th...
Neural firing rates must be maintained within a stable range in the face of ongoing fluctuations in ...
textAbstract The synaptic input received by neurons in cortical circuits is in constant flux. From b...
The cerebral cortex continuously adapts through learning and changes in sensory experience. A major ...
Homeostatic adjustment of neuronal firing rates is considered a vital mechanism to keep neurons oper...
Homeostatic adjustment of neuronal firing rates is considered a vital mechanism to keep neurons oper...
SummaryIt has been postulated that homeostatic mechanisms maintain stable circuit function by keepin...
We compare the circuit and cellular mechanisms for homeostatic plasticity that have been discovered ...
The concept of homeostatic plasticity postulates that neurons maintain relatively stable rates of fi...
Abstract Homeostatic processes that provide negative feedback to regulate neuronal fi...
A neuron’s identity and function are dictated by its electrophysiological signature. The firing patt...
Homeostasis is indispensable to counteract the destabilizing effects of Hebbian plasticity. Although...
Homeostatic processes that regulate electrical activity in neurones are now an established aspect of...
Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, p...
Homeostatic regulation is essential for stable neuronal function. Several synaptic mechanisms of hom...
Firing rate homeostasis (FRH) stabilizes neural activity. A pervasive and intuitive theory argues th...
Neural firing rates must be maintained within a stable range in the face of ongoing fluctuations in ...
textAbstract The synaptic input received by neurons in cortical circuits is in constant flux. From b...
The cerebral cortex continuously adapts through learning and changes in sensory experience. A major ...
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