Getting neurorehabilitation right: what can be learned from animal models?

Neurorehabil Neural Repair 2012 Oct 30;26(8):923-31. Epub 2012 Mar 30.

Johns Hopkins University School of Medicine and Johns Hopkins University, Baltimore, MD, USA.

Animal models suggest that a month of heightened plasticity occurs in the brain after stroke, accompanied by most of the recovery from impairment. This period of peri-infarct and remote plasticity is associated with changes in excitatory/inhibitory balance and the spatial extent and activation of cortical maps and structural remodeling. The best time for experience and training to improve outcome is unclear. In animal models, very early (<5 days from onset) and intense training may lead to increased histological damage. Conversely, late rehabilitation (>30 days) is much less effective both in terms of outcome and morphological changes associated with plasticity. In clinical practice, rehabilitation after disabling stroke involves a relatively brief period of inpatient therapy that does not come close to matching intensity levels investigated in animal models and includes the training of compensatory strategies that have minimal impact on impairment. Current rehabilitation treatments have a disappointingly modest effect on impairment early or late after stroke. Translation from animal models will require the following: (1) substantial increases in the intensity and dosage of treatments offered in the first month after stroke with an emphasis on impairment; (2) combinational approaches such as noninvasive brain stimulation with robotics, based on current understanding of motor learning and brain plasticity; and (3) research that emphasizes mechanistic phase II studies over premature phase III clinical trials.

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http://dx.doi.org/10.1177/1545968312440745DOI Listing
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4554531PMC
October 2012
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References

(Supplied by CrossRef)

Dijkhuizen RM et al.
J Neurosci 2003

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