Correction: Altered Astrocytic Swelling in the Cortex of α-Syntrophin-Negative GFAP/EGFP Mice

@inproceedings{Anderova2014CorrectionAA,
  title={Correction: Altered Astrocytic Swelling in the Cortex of α-Syntrophin-Negative GFAP/EGFP Mice},
  author={Miroslava Anderova and Jana Benesova and Michaela Mike{\vs}ov{\'a} and David Dzamba and Pavel Honsa and Jan Kriska and Olena Butenko and Vendula Novosadov{\'a} and Luk{\'a}s Valihrach and Mikael Kubista and Lesia Dmytrenko and Michal Cicanic and Lydia Vargova},
  booktitle={PloS one},
  year={2014}
}
Brain edema accompanying ischemic or traumatic brain injuries, originates from a disruption of ionic/neurotransmitter homeostasis that leads to accumulation of K(+) and glutamate in the extracellular space. Their increased uptake, predominantly provided by astrocytes, is associated with water influx via aquaporin-4 (AQP4). As the removal of perivascular AQP4 via the deletion of α-syntrophin was shown to delay edema formation and K(+) clearance, we aimed to elucidate the impact of α-syntrophin… CONTINUE READING

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RT - qPCR profiling was used to reveal possible differences in the expression of ion channels / transporters that participate in maintaining ionic / neurotransmitter homeostasis .
RT - qPCR profiling was used to reveal possible differences in the expression of ion channels / transporters that participate in maintaining ionic / neurotransmitter homeostasis .
Brain edema accompanying ischemic or traumatic brain injuries , originates from a disruption of ionic / neurotransmitter homeostasis that leads to accumulation of K(+ ) and glutamate in the extracellular space .
Brain edema accompanying ischemic or traumatic brain injuries , originates from a disruption of ionic / neurotransmitter homeostasis that leads to accumulation of K(+ ) and glutamate in the extracellular space .
Brain edema accompanying ischemic or traumatic brain injuries , originates from a disruption of ionic / neurotransmitter homeostasis that leads to accumulation of K(+ ) and glutamate in the extracellular space .
RT - qPCR profiling was used to reveal possible differences in the expression of ion channels / transporters that participate in maintaining ionic / neurotransmitter homeostasis .
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