Dominic Boutet"Distinct excitability of thalamocortical neurons correlates with the presence of cerebellar afferents"
https://www.biorxiv.org/content/10.1101/2023.05.26.542536v1
#Neuroscience #Electrophysiology #Cerebellum #Thalamocortical #MovementDisorders
PLOS BiologyA network of #plasticity mechanisms: subcortical microstructural (#myelination) plasticity & cortical neurochemical (#GABAergic) plasticity interact via #thalamocortical connectivity to support optimized perceptual decisions @CambridgeABL #PLOSBiology https://plos.io/3YHNvdR
Microstructural and neurochemical plasticity mechanisms interact to enhance human perceptual decision-making
This multimodal brain imaging study reveals an interactive network of plasticity mechanisms: subcortical microstructural (myelination) plasticity and cortical neurochemical (GABAergic inhibition) plasticity interact through thalamocortical connectivity to support optimized perceptual decisions.
A network of #plasticity mechanisms: subcortical microstructural (#myelination) plasticity & cortical neurochemical (#GABAergic) plasticity interact via #thalamocortical connectivity to support optimized perceptual decisions @CambridgeABL #PLOSBiology https://plos.io/3YHNvdR
Microstructural and neurochemical plasticity mechanisms interact to enhance human perceptual decision-making
This multimodal brain imaging study reveals an interactive network of plasticity mechanisms: subcortical microstructural (myelination) plasticity and cortical neurochemical (GABAergic inhibition) plasticity interact through thalamocortical connectivity to support optimized perceptual decisions.
A network of #plasticity mechanisms: subcortical microstructural (#myelination) plasticity & cortical neurochemical (#GABAergic) plasticity interact via #thalamocortical connectivity to support optimized perceptual decisions @CambridgeABL #PLOSBiology https://plos.io/3YHNvdR
Microstructural and neurochemical plasticity mechanisms interact to enhance human perceptual decision-making
This multimodal brain imaging study reveals an interactive network of plasticity mechanisms: subcortical microstructural (myelination) plasticity and cortical neurochemical (GABAergic inhibition) plasticity interact through thalamocortical connectivity to support optimized perceptual decisions.