Pathway-specific modulatory effects of neuromuscular electrical stimulation during pedaling in chronic stroke survivors, Journal of NeuroEngineering and Rehabilitation
Price: $ 233.50
4.8(82)
Background Neuromuscular electrical stimulation (NMES) is extensively used in stroke motor rehabilitation. How it promotes motor recovery remains only partially understood. NMES could change muscular properties, produce altered sensory inputs, and modulate fluctuations of cortical activities; but the potential contribution from cortico-muscular couplings during NMES synchronized with dynamic movement has rarely been discussed. Method We investigated cortico-muscular interactions during passive, active, and NMES rhythmic pedaling in healthy subjects and chronic stroke survivors. EEG (128 channels), EMG (4 unilateral lower limb muscles) and movement parameters were measured during 3 sessions of constant-speed pedaling. Sensory-level NMES (20 mA) was applied to the muscles, and cyclic stimulation patterns were synchronized with the EMG during pedaling cycles. Adaptive mixture independent component analysis was utilized to determine the movement-related electro-cortical sources and the source dipole clusters. A directed cortico-muscular coupling analysis was conducted between representative source clusters and the EMGs using generalized partial directed coherence (GPDC). The bidirectional GPDC was compared across muscles and pedaling sessions for post-stroke and healthy subjects. Results Directed cortico-muscular coupling of NMES cycling was more similar to that of active pedaling than to that of passive pedaling for the tested muscles. For healthy subjects, sensory-level NMES could modulate GPDC of both ascending and descending pathways. Whereas for stroke survivors, NMES could modulate GPDC of only the ascending pathways. Conclusions By clarifying how NMES influences neuromuscular control during pedaling in healthy and post-stroke subjects, our results indicate the potential limitation of sensory-level NMES in promoting sensorimotor recovery in chronic stroke survivors.
Robotic-Assisted Gait for lower-limb Rehabilitation: Evidence of Altered Neural Mechanisms in Stroke
Journal of NeuroEngineering and Rehabilitation
Effects of 8-week sensory electrical stimulation combined with motor training on EEG-EMG coherence and motor function in individuals with stroke
Neuromuscular electrical stimulation
Effects of 8-week sensory electrical stimulation combined with motor training on EEG-EMG coherence and motor function in individuals with stroke
PDF) Pathway-specific cortico-muscular coherence in proximal-to-distal compensation during fine motor control of finger extension after stroke
Sensors, Free Full-Text
Neuroprosthesis and Functional Electrical Stimulation (Peripheral)
Pathway-specific modulatory effects of neuromuscular electrical stimulation during pedaling in chronic stroke survivors, Journal of NeuroEngineering and Rehabilitation
Neuromuscular electrical stimulation for stroke rehabilitation: Is spinal plasticity a possible mechanism associated with diminished spasticity? - ScienceDirect
PDF] Pairing Voluntary Movement and Muscle-Located Electrical Stimulation Increases Cortical Excitability
PDF) Pathway-specific modulatory effects of neuromuscular electrical stimulation during pedaling in chronic stroke survivors
