Robotic training combined with transient contralesional inactivation was recently shown to promote a generalized recovery after stroke. Here, Allegra Mascaro et al. investigate how this rehabilitation paradigm affects neuronal and vascular plasticity of the mouse cortex. Synaptic stabilization is associated with angiogenesis and recovery of a segregated motor representation.

Combined Rehabilitation Promotes the Recovery of Structural and Functional Features of Healthy Neuronal Networks after Stroke

Lai S.;Spalletti C.;Panarese A.;Scaglione A.;Sacconi L.;Micera S.;
2019-01-01

Abstract

Robotic training combined with transient contralesional inactivation was recently shown to promote a generalized recovery after stroke. Here, Allegra Mascaro et al. investigate how this rehabilitation paradigm affects neuronal and vascular plasticity of the mouse cortex. Synaptic stabilization is associated with angiogenesis and recovery of a segregated motor representation.
2019
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11382/533440
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