Add to ORKGIn injured neurons, ‘‘leaky’ ’ voltage-gated sodium channels (Nav) underlie dysfunctional excitability that ranges from spontaneous subthreshold oscillations (STO), to ectopic (sometimes paroxysmal) excitation, to depolarizing block. In recombinant systems, mechanical injury to Nav1.6-rich membranes causes cytoplasmic Na+-loading and ‘‘Nav-CLS’’, i.e., coupled left-(hyperpolarizing)-shift of Nav activation and availability. Metabolic injury of hippocampal neurons (epileptic discharge) results in comparable impairment: left-shifted activation and availability and hence left-shifted INa-window. A recent computation study revealed that CLS-based INa-window left-shift dissipates ion gradients and impairs excitability. Here, via dynamical analys...
The inhibition of voltage-gated sodium (Na-V) channels in somatosensory neurons presents a promising...
How organisms gather and respond to information is a fundamental process of life. In animals, the ne...
SummaryThe persistent Na+ current, INaP, is known to amplify subthreshold oscillations and synaptic ...
Nerve cells damaged by trauma, stroke, epilepsy, inflammatory conditions etc, have chronically leaky...
Abstract Neural tissue injuries render voltage-gated Na+ channels (Nav) leaky, thereby altering exci...
Neural tissue injuries render voltage-gated Na+ channels (Nav) leaky, thereby altering excitability,...
© 2016 Dr. David Israel KaplanVoltage-gated sodium channels are responsible for the generation of ac...
During brain trauma, white matter experiences shear and stretch forces that, without severing axons,...
In sodium channel (Nav)-rich axon initial segments and nodes of Ranvier, mechanical, ischemic and ...
International audienceAlteration of Na v channel functions (channe-lopathies) has been encountered i...
International audienceNaV1.1 (SCN1A) is a voltage-gated sodium channel mainly expressed in GABAergic...
Neurons generate electrical spikes in an all-or-none manner: a stereotypical action potential is pro...
International audienceLoss of function mutations of SCN1A, the gene coding for the voltage-gated sod...
© 2019 Yadeesha Hasalanka DeerasooriyaIon channels regulate neuronal excitability by controlling the...
<p>(<b>A</b>) Membrane excitability map of injured node with <i>LS<sub>i</sub></i> = [26.5,2,0]mV. W...
The inhibition of voltage-gated sodium (Na-V) channels in somatosensory neurons presents a promising...
How organisms gather and respond to information is a fundamental process of life. In animals, the ne...
SummaryThe persistent Na+ current, INaP, is known to amplify subthreshold oscillations and synaptic ...
Nerve cells damaged by trauma, stroke, epilepsy, inflammatory conditions etc, have chronically leaky...
Abstract Neural tissue injuries render voltage-gated Na+ channels (Nav) leaky, thereby altering exci...
Neural tissue injuries render voltage-gated Na+ channels (Nav) leaky, thereby altering excitability,...
© 2016 Dr. David Israel KaplanVoltage-gated sodium channels are responsible for the generation of ac...
During brain trauma, white matter experiences shear and stretch forces that, without severing axons,...
In sodium channel (Nav)-rich axon initial segments and nodes of Ranvier, mechanical, ischemic and ...
International audienceAlteration of Na v channel functions (channe-lopathies) has been encountered i...
International audienceNaV1.1 (SCN1A) is a voltage-gated sodium channel mainly expressed in GABAergic...
Neurons generate electrical spikes in an all-or-none manner: a stereotypical action potential is pro...
International audienceLoss of function mutations of SCN1A, the gene coding for the voltage-gated sod...
© 2019 Yadeesha Hasalanka DeerasooriyaIon channels regulate neuronal excitability by controlling the...
<p>(<b>A</b>) Membrane excitability map of injured node with <i>LS<sub>i</sub></i> = [26.5,2,0]mV. W...
The inhibition of voltage-gated sodium (Na-V) channels in somatosensory neurons presents a promising...
How organisms gather and respond to information is a fundamental process of life. In animals, the ne...
SummaryThe persistent Na+ current, INaP, is known to amplify subthreshold oscillations and synaptic ...