000190123 001__ 190123
000190123 005__ 20181203023316.0
000190123 0247_ $$2doi$$a10.1186/1743-0003-10-103
000190123 022__ $$a1743-0003
000190123 02470 $$2ISI$$a000325396100001
000190123 037__ $$aARTICLE
000190123 245__ $$aEffects of early and intensive neuro-rehabilitative treatment on muscle synergies in acute post-stroke patients: a pilot study
000190123 260__ $$bBiomed Central Ltd$$c2013$$aLondon
000190123 269__ $$a2013
000190123 300__ $$a15
000190123 336__ $$aJournal Articles
000190123 520__ $$aBackground: After a stroke, patients show significant modifications of neural control of movement, such as abnormal muscle co-activation, and reduced selectivity and modulation of muscle activity. Nonetheless, results reported in literature do not allow to unequivocally explain whether and, in case, how a cerebrovascular accident affects muscle synergies underlying the control of the upper limb. These discrepancies suggest that a complete understanding of the modular re-organization of muscle activity due to a stroke is still lacking. This pilot study aimed at investigating the effects of the conjunction between the natural ongoing of the pathology and the intense robot-mediated treatment on muscle synergies of the paretic upper limb of subacute post-stroke patients. Methods: Six subacute patients, homogenous with respect to the age and the time elapsed from the trauma, and ten healthy age-matched subjects were enrolled. The protocol consisted in achieving planar movement of the upper limb while handling the end-effector of a robotic platform. Patients underwent 6 weeks long treatment while clinical scores, kinematics of the end-effector and muscle activity were recorded. Then we verified whether muscle coordination underlying the motor task was significantly affected by the cerebrovascular accident and how muscle synergies were modified along the treatment. Results: Results show that although muscle synergies in subacute stroke patients were qualitatively comparable to those of healthy subjects, those underlying the movement of the shoulder can reflect the functional deficit induced by the pathology. Moreover, the improvement of motor performance due to the treatment was achieved in conjunction with slight modifications of muscle synergies. In this regard, modifications of muscle synergies appeared to be influenced by the different recovering mechanisms across patients presumably due to the heterogeneity of lesions, sides and location of the accident. Conclusions: The results support the hypothesis that muscle synergies reflect the injury of the cerebrovascular accident and could document the effects of the functional recovery due to a suitable and customized treatment. Therefore, they open up new possibilities for the development of more effective neuro-rehabilitation protocols.
000190123 6531_ $$aStroke
000190123 6531_ $$aNeuro-rehabilitation
000190123 6531_ $$aUpper limb
000190123 6531_ $$aMuscle synergies
000190123 700__ $$uScuola Super StAnna, BioRobot Inst, I-56127 Pisa, Italy$$aTropea, Peppino
000190123 700__ $$uScuola Super StAnna, BioRobot Inst, I-56127 Pisa, Italy$$aMonaco, Vito
000190123 700__ $$0247436$$g230062$$uScuola Super StAnna, BioRobot Inst, I-56127 Pisa, Italy$$aCoscia, Martina
000190123 700__ $$uVersilia Hosp, Rehabil Dept, Viareggio, Italy$$aPosteraro, Federico
000190123 700__ $$uScuola Super StAnna, BioRobot Inst, I-56127 Pisa, Italy$$aMicera, Silvestro$$g218366$$0246201
000190123 773__ $$j10$$tJournal Of Neuroengineering And Rehabilitation
000190123 909C0 $$xU12522$$0252419$$pTNE
000190123 909C0 $$xU12599$$0252517$$pCNP
000190123 909CO $$pSTI$$particle$$ooai:infoscience.tind.io:190123
000190123 917Z8 $$x218366
000190123 937__ $$aEPFL-ARTICLE-190123
000190123 973__ $$rREVIEWED$$sPUBLISHED$$aEPFL
000190123 980__ $$aARTICLE