본문내용
tion by contralateral hemisphere : Interhemispheric reorganization
Mechanism of functional recovery after brain injury
- Improved local circulation
- Resolution of local edema
- Resorption of local toxins
- Apoptosis
- Recovery of partially damaged ischemic neurons
Facilitation of neuroplasticity
- Optimal physical, psychological, sensory environment : Enriched environments
- Use of meaningful, motivating activity : Specific goal directed training
- Investment of activity : Task oriented training
- Active movement
- More focus on movement that the patient generate
- Important component in formation of permanent neural circuit & motor learning
- Treating children in functional situation for carry over into daily life
<출처>
2009.1.17 보바스 소아특강 (임선규 강사. Development and neural plasticity)
Mechanism of functional recovery after brain injury
- Improved local circulation
- Resolution of local edema
- Resorption of local toxins
- Apoptosis
- Recovery of partially damaged ischemic neurons
Facilitation of neuroplasticity
- Optimal physical, psychological, sensory environment : Enriched environments
- Use of meaningful, motivating activity : Specific goal directed training
- Investment of activity : Task oriented training
- Active movement
- More focus on movement that the patient generate
- Important component in formation of permanent neural circuit & motor learning
- Treating children in functional situation for carry over into daily life
<출처>
2009.1.17 보바스 소아특강 (임선규 강사. Development and neural plasticity)
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