think and growNov 25
Myelination is your brain’s secret upgrade every time you practice a skill or shift a habit; your neural pathways strengthen. That’s how real transformation begins from the inside out.
 
https://de320.isrefer.com/go/LUYDFREE/Stuartn/
 
#BrainPower #Myelination #Neuroplasticity #MindsetShift #GrowthMindset #PersonalTransformation #KeepLearning #InnerEvolution #ThinkandGrowEducation #RayBehan #Meditation #Thoughts
PLOS BiologyOct 1
What role does #myelination play in #PrefrontalCortex development? This study shows that juvenile #demyelination disrupts PV #interneuron firing & self-inhibition, revealing a developmental window where myelination is essential for long-term cortical function @PLOSBiology https://plos.io/4mI4lVO
PLOS BiologyAug 21, 2025
#Myelination enables faster signal propagation in the brain, but takes more energy & space. This study reveals how short- & long-range #WhiteMatter fibers differ, showing how these variations affect neural communication & processing efficiency @PLOSBiology https://plos.io/4mq5tOy
think and growJun 25, 2025
🧠🔥 How myelination fuels transformation: Every time you repeat a thought or action, myelination wraps your neural pathways—making them faster, stronger, and more automatic. Consistency rewires your reality.
https://de320.isrefer.com/go/root396gift/Stuartn/
#Myelination #Neuroplasticity #TrainYourBrain #ThinkandGrowEducation #RayBehan #Meditation
Moritz NegwerSep 9, 2024

New #tissueclearing paper checks oligodendrocyte distribution throughout the entire mouse brain. Looks pretty neat!

Brain-wide mapping of oligodendrocyte organization and oligodendrogenesis across the murine lifespan
Xu et al., preprint at biorxiv 2024
https://doi.org/10.1101/2024.09.06.611254

Github: https://github.com/yxu233/Xu_Bergles_brainwide_oligo_map

#neuroscience #lightsheet #microscopy #preprint #oligodendrocyte #myelination

PLOS BiologyJul 12, 2024
The diversity of #oligodendrocyte precursor cells (OPCs) is unclear. @Czopka_Lab explores a #PLOSBiology study describing a novel marker for a subpopulation of #OPCs that controls #oligodendrogenesis & #myelination. Paper: https://plos.io/3xS0sKE Primer: https://plos.io/3xTyrCx
A molecularly defined subpopulation of oligodendrocyte precursor cells controls the generation of myelinating oligodendrocytes during postnatal development

Oligodendrocyte precursor cells are a diverse population; does this functional diversity arise from the existence of molecularly defined subpopulations or from environmental interactions? This study shows that C1ql1 expression defines a subpopulation of oligodendrocyte precursor cells that are indispensable for production of oligodendrocytes and myelin during postnatal brain development.

Alan LewisMar 25, 2024

MEDICAL SCIENCE DISCOVERY
MYELIN REPAIR

March 25, 2024
Scientists identify a key driver of myelin repair

by Nicholas Weiler, Stanford University

https://medicalxpress.com/news/2024-03-scientists-key-driver-myelin.html

:

#glial #glialcells #medicalscience #medicalsciencenews #miguelgarcia #multipleschlerosis #myelin #myelination #myelinrepair #myelinsheath #neurodegenerative #neurodegenerativediseases #nicholasweiler #oligodentrocytes #proceedingsofthenationalacademyofsciences #sciencenews #serumresponsefactor #srf #stanforduniversity #structuralgenesrf #taliram #wutsaineurosciencesinstitute

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Scientists identify a key driver of myelin repair

New research from scientists at the Wu Tsai Neurosciences Institute at Stanford University has identified a key driver of myelination, the formation of protective fatty sheaths around nerve fibers.

Medical Xpress
PLOS BiologyMar 13, 2023
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.

PLOS BiologyMar 13, 2023
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.

PLOS BiologyMar 13, 2023
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.