Add to ORKGThe study of brain plasticity has tended to focus on the synapse, where well-described activity-dependent mechanisms are known to play a key role in learning and memory. However, it is becoming increasingly clear that plasticity occurs beyond the synapse. This review focuses on the emerging concept of white matter plasticity. For example, there is growing evidence, both from animal studies and from human neuroimaging, that activity-dependent regulation of myelin may play a role in learning. This previously overlooked phenomenon may provide a complementary but powerful route through which experience shapes the brain
Learning a novel motor skill is associated with well characterized structural and functional plastic...
Human brain imaging has identified structural changes in gray and white matter that occur with learn...
Synaptic plasticity is the cellular basis of learning and memory, but to what extent this holds for ...
The study of brain plasticity has tended to focus on the synapse, where well-described activity-depe...
White matter (WM) plasticity during adulthood is a recently described phenomenon by which experience...
Although experience-dependent structural changes have been demonstrated in adult gray matter, there ...
In contrast to a long-held view that structural brain plasticity is restricted to critical periods d...
Plasticity in the central nervous system (CNS) allows for responses to changing environmental signal...
Experience-dependent structural changes are widely evident in gray matter. Using diffusion weighted ...
Myelin, a lipid membrane that wraps axons, enabling fast neurotransmission and metabolic support to ...
The brain is responsive to an ever-changing environment, enabling the organism to learn and change b...
Recent research using magnetic resonance imaging has documented changes in the adult human brain's g...
Throughout our lifespan, new sensory experiences and learning continually shape our neuronal circuit...
There are several theories regarding how learning is related to changes in gray matter of the brain....
Learning a novel motor skill is associated with well characterized structural and functional plastic...
Learning a novel motor skill is associated with well characterized structural and functional plastic...
Human brain imaging has identified structural changes in gray and white matter that occur with learn...
Synaptic plasticity is the cellular basis of learning and memory, but to what extent this holds for ...
The study of brain plasticity has tended to focus on the synapse, where well-described activity-depe...
White matter (WM) plasticity during adulthood is a recently described phenomenon by which experience...
Although experience-dependent structural changes have been demonstrated in adult gray matter, there ...
In contrast to a long-held view that structural brain plasticity is restricted to critical periods d...
Plasticity in the central nervous system (CNS) allows for responses to changing environmental signal...
Experience-dependent structural changes are widely evident in gray matter. Using diffusion weighted ...
Myelin, a lipid membrane that wraps axons, enabling fast neurotransmission and metabolic support to ...
The brain is responsive to an ever-changing environment, enabling the organism to learn and change b...
Recent research using magnetic resonance imaging has documented changes in the adult human brain's g...
Throughout our lifespan, new sensory experiences and learning continually shape our neuronal circuit...
There are several theories regarding how learning is related to changes in gray matter of the brain....
Learning a novel motor skill is associated with well characterized structural and functional plastic...
Learning a novel motor skill is associated with well characterized structural and functional plastic...
Human brain imaging has identified structural changes in gray and white matter that occur with learn...
Synaptic plasticity is the cellular basis of learning and memory, but to what extent this holds for ...