Neuroplasticity is super important when it comes to helping people recover from brain injuries.
About 50-70% of people with a traumatic brain injury (TBI) see different levels of improvement because of how neuroplasticity works.
Here are some key parts of neuroplasticity:
Synaptic Plasticity: This means that the connections between brain cells can get stronger or weaker. This ability is really important for learning new things and remembering them.
Axonal Regeneration: After a brain injury, about 25% of the pathways that carry messages in the brain can heal and grow back.
Functional Compensation: Sometimes, the parts of the brain that are not injured can step in and take over tasks from the injured areas. This helps people recover more effectively.
In short, neuroplasticity really helps people feel better and improves their recovery after a brain injury.
Neuroplasticity is super important when it comes to helping people recover from brain injuries.
About 50-70% of people with a traumatic brain injury (TBI) see different levels of improvement because of how neuroplasticity works.
Here are some key parts of neuroplasticity:
Synaptic Plasticity: This means that the connections between brain cells can get stronger or weaker. This ability is really important for learning new things and remembering them.
Axonal Regeneration: After a brain injury, about 25% of the pathways that carry messages in the brain can heal and grow back.
Functional Compensation: Sometimes, the parts of the brain that are not injured can step in and take over tasks from the injured areas. This helps people recover more effectively.
In short, neuroplasticity really helps people feel better and improves their recovery after a brain injury.