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Early rehabilitation model shows positive effects on neural degeneration and recovery from neuromotor deficits following traumatic brain injury
M. Lippert-Grüner, M. Maegele, J. Pokorný, D. N. Angelov, O. Švestková, M. Wittner, S. Trojan
Language English Country Czech Republic
NLK
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- MeSH
- Staining and Labeling methods utilization MeSH
- Research Support as Topic MeSH
- Data Interpretation, Statistical MeSH
- Models, Animal MeSH
- Brain Injuries rehabilitation MeSH
- Motor Skills Disorders rehabilitation MeSH
- Rats, Sprague-Dawley surgery MeSH
- Rehabilitation methods MeSH
- Animals MeSH
- Check Tag
- Animals MeSH
This study used an experimental early rehabilitation model combining an enriched environment, multisensory (visual, acoustic and olfactory) stimulation and motor training after traumatic brain injury (via fluid-percussion model) to simulate early multisensory rehabilitation. This therapy will be used by brain injured patients to improve neural plasticity and to restore brain integration functions. Motor dysfunction was evaluated using a composite neuroscore test. Direct structural effects of traumatic brain injury were examined using Fluoro-Jade staining, which allows identification of degenerating neural cell bodies and processes. Animals in the rehabilitation model group performed significantly better when tested for neuromotor function than the animals in standard housing in the 7-day and 15-day interval after injury (7d: p=0.005; 15d: p<0.05). Statistical analysis revealed significantly lower numbers of Fluoro-Jade positive cells (degenerating neurons) in the rehabilitation model group (n=5: mean 13.4) compared to the standard housing group (n=6: mean 123.8) (p<0.005). It appears that the housing of animals in the rehabilitation model led to a clear functional increase in neuromotor functions and to reduced neural loss compared with the animal group in standard housing.
Grant č. 25/2005 -- Grant č. 0021620816 Ministerstvo školství, mládeže a tělovýchovy
Bibliography, etc.Lit.: 45
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- $a This study used an experimental early rehabilitation model combining an enriched environment, multisensory (visual, acoustic and olfactory) stimulation and motor training after traumatic brain injury (via fluid-percussion model) to simulate early multisensory rehabilitation. This therapy will be used by brain injured patients to improve neural plasticity and to restore brain integration functions. Motor dysfunction was evaluated using a composite neuroscore test. Direct structural effects of traumatic brain injury were examined using Fluoro-Jade staining, which allows identification of degenerating neural cell bodies and processes. Animals in the rehabilitation model group performed significantly better when tested for neuromotor function than the animals in standard housing in the 7-day and 15-day interval after injury (7d: p=0.005; 15d: p<0.05). Statistical analysis revealed significantly lower numbers of Fluoro-Jade positive cells (degenerating neurons) in the rehabilitation model group (n=5: mean 13.4) compared to the standard housing group (n=6: mean 123.8) (p<0.005). It appears that the housing of animals in the rehabilitation model led to a clear functional increase in neuromotor functions and to reduced neural loss compared with the animal group in standard housing.
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