Parafascicular thalamic nucleus deep brain stimulation decreases NMDA receptor GluN1 subunit gene expression in the prefrontal cortex

Author:

Fernández-Cabrera Mónica R.,Selvas Abraham,Miguéns Miguel,Higuera-Matas Alejandro,Vale-Martínez Anna,Ambrosio Emilio,Martí-Nicolovius Margarita,Guillazo-Blanch Gemma

Publisher

Elsevier BV

Subject

General Neuroscience

Reference71 articles.

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2. Deep brain stimulation in midline thalamic region facilitates synaptic transmission and shortterm memory in a mouse model of alzheimer’s disease;Arrieta-Cruz;Transl Neurosci,2010

3. Robust modulation of arousal regulation, performance and frontostriatal activity through central thalamic deep brain stimulation in healthy non-human primates;Baker;J Neurophysiol,2016

4. Trans-synaptic modulation of striatal ACh release in vivo by the parafascicular thalamic nucleus;Baldi;Eur J Neurosci,1995

5. NMDA receptor plasticity in the perirhinal and prefrontal cortices is crucial for the acquisition of long-term object-in-place associative memory;Barker;J Neurosci,2008

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