Brain Activity Changes Associated With Treadmill Training After Stroke | Zendy

Christian Enzinger | Zendy; Helen Dawes | Zendy; Heidi JohansenBerg | Zendy; Derick T Wade | Zendy; Marko Bogdanovic | Zendy; Johnny Collett | Zendy; Claire Guy | Zendy; Udo Kischka | Zendy; Stefan Ropele | Zendy; Franz Fazekas | Zendy; Paul M. Matthews | Zendy

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Brain Activity Changes Associated With Treadmill Training After Stroke

Author(s) -

Christian Enzinger,

Helen Dawes,

Heidi JohansenBerg,

Derick T Wade,

Marko Bogdanovic,

Johnny Collett,

Claire Guy,

Udo Kischka,

Stefan Ropele,

Franz Fazekas,

Paul M. Matthews

Publication year - 2009

Publication title -

stroke

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 3.397

H-Index - 319

eISSN - 1524-4628

pISSN - 0039-2499

DOI - 10.1161/strokeaha.109.550053

Subject(s) - medicine , physical medicine and rehabilitation , stroke (engine) , ankle , rehabilitation , supplementary motor area , premotor cortex , motor cortex , thalamus , gait , paresis , neuroscience , physical therapy , psychology , functional magnetic resonance imaging , dorsum , anatomy , surgery , mechanical engineering , radiology , stimulation , engineering

The mechanisms underlying motor recovery after stroke are not fully understood. Several studies used functional MRI longitudinally to relate brain activity changes with performance gains of the upper limb after therapy, but research into training-induced recovery of lower limb function has been relatively neglected thus far.

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