Add to ORKGTo study cortical neuron injury following recurrent epileptiform discharges induced by magnesium-free treatment in vitro.Cultured embryo cortical neurons were exposed to magnesium-free media for 3 h, then they were returned to regular media containing normal level magnesium. At different time after Mg(2+)-free treatment, trypan blue staining and determination of LDH activity were used to determine the cell viability, flow cytometry was applied to measure neuronal apoptosis, and MTT assay to study metabolic rate.(1) Neuronal morphology on light microscopy following Mg(2+)-free treatment showed that there were no prominent alterations. (2) At different time (6, 12, 72 h) after Mg(2+)-free treatment, neuronal viability by trypan blue staining ...
Calcium and magnesium are divalent multipotent ions playing a major role in metabolism, excitability...
We evaluated the neuroprotective effects of systemically administered magnesium against (NMDA)-medi...
While brain free magnesium levels have been shown to decline in a number of acute and chronic brain ...
As seizures in infants and children often originate from the neocortex, neocortical epilepsy models ...
As seizures in infants and children often originate from the neocortex, neocortical epilepsy models ...
To investigate the effect of intracellular-free Ca2+ concentration ([Ca2+]i) on injury following tra...
To explore long-term changes of NMDAR subunit mRNA expression induced by early magnesium-free treatm...
To study the protection of IL-1ra in cultured developing neuron injury following Mg(2+)-free-induced...
Objective: To explore the long-term effect of early seizure-like discharge on neuronal function and ...
Magnesium (Mg)-based biomaterials have shown great potential in clinical applications. However, the ...
Magnesium (Mg) is fundamental in the brain, where it regulates metabolism and neurotransmission and ...
As an extreme form of abnormally synchronized activity, epilepsy may modify patterns of organization...
<p>(A) Morphology of MBP-treated neurons. Primary cultured neurons with or without eGFP overexpressi...
Extracellular glutamate is elevated following brain ischemia or trauma and contributes to neuronal i...
Extracellular glutamate is elevated following brain ischemia or trauma and contributes to neuronal i...
Calcium and magnesium are divalent multipotent ions playing a major role in metabolism, excitability...
We evaluated the neuroprotective effects of systemically administered magnesium against (NMDA)-medi...
While brain free magnesium levels have been shown to decline in a number of acute and chronic brain ...
As seizures in infants and children often originate from the neocortex, neocortical epilepsy models ...
As seizures in infants and children often originate from the neocortex, neocortical epilepsy models ...
To investigate the effect of intracellular-free Ca2+ concentration ([Ca2+]i) on injury following tra...
To explore long-term changes of NMDAR subunit mRNA expression induced by early magnesium-free treatm...
To study the protection of IL-1ra in cultured developing neuron injury following Mg(2+)-free-induced...
Objective: To explore the long-term effect of early seizure-like discharge on neuronal function and ...
Magnesium (Mg)-based biomaterials have shown great potential in clinical applications. However, the ...
Magnesium (Mg) is fundamental in the brain, where it regulates metabolism and neurotransmission and ...
As an extreme form of abnormally synchronized activity, epilepsy may modify patterns of organization...
<p>(A) Morphology of MBP-treated neurons. Primary cultured neurons with or without eGFP overexpressi...
Extracellular glutamate is elevated following brain ischemia or trauma and contributes to neuronal i...
Extracellular glutamate is elevated following brain ischemia or trauma and contributes to neuronal i...
Calcium and magnesium are divalent multipotent ions playing a major role in metabolism, excitability...
We evaluated the neuroprotective effects of systemically administered magnesium against (NMDA)-medi...
While brain free magnesium levels have been shown to decline in a number of acute and chronic brain ...