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Forced arm use is superior to voluntary training for motor recovery and brain plasticity after cortical ischemia in rats.


ABSTRACT:

Background and purpose

Both the immobilization of the unaffected arm combined with physical therapy (forced arm use, FAU) and voluntary exercise (VE) as model for enriched environment are promising approaches to enhance recovery after stroke. The genomic mechanisms involved in long-term plasticity changes after different means of rehabilitative training post-stroke are largely unexplored. The present investigation explored the effects of these physical therapies on behavioral recovery and molecular markers of regeneration after experimental ischemia.

Methods

42 Wistar rats were randomly treated with either forced arm use (FAU, 1-sleeve plaster cast onto unaffected limb at 8/10 days), voluntary exercise (VE, connection of a freely accessible running wheel to cage), or controls with no access to a running wheel for 10 days starting at 48 hours after photothrombotic stroke of the sensorimotor cortex. Functional outcome was measured using sensorimotor test before ischemia, after ischemia, after the training period of 10 days, at 3 and 4 weeks after ischemia. Global gene expression changes were assessed from the ipsi- and contralateral cortex and the hippocampus.

Results

FAU-treated animals demonstrated significantly improved functional recovery compared to the VE-treated group. Both were superior to cage control. A large number of genes are altered by both training paradigms in the ipsi- and contralateral cortex and the hippocampus. Overall, the extent of changes observed correlated well with the functional recovery obtained. One category of genes overrepresented in the gene set is linked to neuronal plasticity processes, containing marker genes such as the NMDA 2a receptor, PKC ?, NTRK2, or MAP 1b.

Conclusions

We show that physical training after photothrombotic stroke significantly and permanently improves functional recovery after stroke, and that forced arm training is clearly superior to voluntary running training. The behavioral outcomes seen correlate with patterns and extent of gene expression changes in all brain areas examined. We propose that physical training induces a fundamental change in plasticity-relevant gene expression in several brain regions that enables recovery processes. These results contribute to the debate on optimal rehabilitation strategies, and provide a valuable source of molecular entry points for future pharmacological enhancement of recovery.

SUBMITTER: Schneider A 

PROVIDER: S-EPMC3937028 | biostudies-literature | 2014 Feb

REPOSITORIES: biostudies-literature

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Publications

Forced arm use is superior to voluntary training for motor recovery and brain plasticity after cortical ischemia in rats.

Schneider Armin A   Rogalewski Andreas A   Wafzig Oliver O   Kirsch Friederike F   Gretz Norbert N   Krüger Carola C   Diederich Kai K   Pitzer Claudia C   Laage Rico R   Plaas Christian C   Vogt Gerhard G   Minnerup Jens J   Schäbitz Wolf-Rüdiger WR  

Experimental & translational stroke medicine 20140214 1


<h4>Background and purpose</h4>Both the immobilization of the unaffected arm combined with physical therapy (forced arm use, FAU) and voluntary exercise (VE) as model for enriched environment are promising approaches to enhance recovery after stroke. The genomic mechanisms involved in long-term plasticity changes after different means of rehabilitative training post-stroke are largely unexplored. The present investigation explored the effects of these physical therapies on behavioral recovery an  ...[more]

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