The output of a single neuron depends on both synaptic connectivity and intrinsic membrane properties. Changes in both synaptic and intrinsic membrane properties have been observed during homeostatic processes (e.g., vestibular compensation) as well as in several central nervous system (CNS) disorders. Although changes in synaptic properties have been extensively studied, particularly with regard to learning and memory, the contribution of intrinsic membrane properties to either physiological or pathological processes is much less clear. Recent research, however, has shown that alterations in the number, location or properties of voltage- and ligand-gated ion channels can underlie both normal and abnormal physiology, and that these changes ...
Many years after the original discovery of BPSP-spike (B-S) potentiation (the component of plasticit...
For healthy brain functioning, it is crucial that neuronal networks do not become hyperactive, but a...
In order to maintain stable functionality in the face of continually changing input, neurones in the...
For healthy brain functioning, it is crucial that neuronal networks do not become hyperactive, but a...
iii The work in this thesis concerns mechanisms of excitability of neurons. Specif-ically, it deals ...
AbstractHow do neurons maintain stable intrinsic properties over long periods of time as the channel...
International audienceLong-term synaptic modification is not the exclusive mode of memory storage, a...
Mechanisms of plasticity are important to the astounding capacity of the brain to adapt and learn. I...
A neuron’s identity and function are dictated by its electrophysiological signature. The firing patt...
International audiencePersistent changes that occur in brain circuits are classically thought to be ...
Plasticity of intrinsic neuronal excitability facilitates learning and memory across multiple specie...
The regulation of transmembrane ionic and synaptic currents is crucial for maintaining physiological...
The proper functioning of nervous systems requires electrical activity to be tightly regulated. Pert...
Neural firing rates must be maintained within a stable range in the face of ongoing fluctuations in ...
Activity within neural circuits shapes the synaptic properties of component neurons in a manner that...
Many years after the original discovery of BPSP-spike (B-S) potentiation (the component of plasticit...
For healthy brain functioning, it is crucial that neuronal networks do not become hyperactive, but a...
In order to maintain stable functionality in the face of continually changing input, neurones in the...
For healthy brain functioning, it is crucial that neuronal networks do not become hyperactive, but a...
iii The work in this thesis concerns mechanisms of excitability of neurons. Specif-ically, it deals ...
AbstractHow do neurons maintain stable intrinsic properties over long periods of time as the channel...
International audienceLong-term synaptic modification is not the exclusive mode of memory storage, a...
Mechanisms of plasticity are important to the astounding capacity of the brain to adapt and learn. I...
A neuron’s identity and function are dictated by its electrophysiological signature. The firing patt...
International audiencePersistent changes that occur in brain circuits are classically thought to be ...
Plasticity of intrinsic neuronal excitability facilitates learning and memory across multiple specie...
The regulation of transmembrane ionic and synaptic currents is crucial for maintaining physiological...
The proper functioning of nervous systems requires electrical activity to be tightly regulated. Pert...
Neural firing rates must be maintained within a stable range in the face of ongoing fluctuations in ...
Activity within neural circuits shapes the synaptic properties of component neurons in a manner that...
Many years after the original discovery of BPSP-spike (B-S) potentiation (the component of plasticit...
For healthy brain functioning, it is crucial that neuronal networks do not become hyperactive, but a...
In order to maintain stable functionality in the face of continually changing input, neurones in the...