Le magnésium et le calcium réduisent la sévérité des troubles de la mémoire spatiale pour le modèle ka?nique d’épilepsie mésiale temporale chez la souris

摘要

Calcium and magnesium are divalent multipotent ions playing a major role in metabolism, excitability and neuroglial plasticity. Because of these multiple properties, their deficiency induces complex brain processes leading to acute or even lasting disorders in excitability and neural networks. These ions are usually prescribed in clinical contexts of neuronal hyperexcitability such as preeclampsia and chronic stress. Our aim was to evaluate whether magnesium at 20 mg/kg and calcium at 100 mg/kg could improve the memory prognosis in the kainic model of mesial temporal epilepsy in mice. The animals were organized into 6 groups: control group (without kainate), reference group (GR) without administration of ions, groups treated with magnesium or calcium from the third day (respectively G1m, G1c), groups treated with magnesium or calcium from the third week (respectively G2m, G2c). The mice treated by ions performed better than GR mice, but magnesium was more effective. Memory (short term–long term) was differently affected by kainate or improved by magnesium–calcium. In addition, magnesium demonstrated an increasing therapeutic effect over time while calcium had an acute and apparently decreasing action in the G1c group that received calcium early.