Experimental brain research. Experimentelle Hirnforschung. Expérimentation cérébrale, Jan 1, 2008
Rehabilitation with augmented electrical stimulation can enhance functional recovery after stroke... more Rehabilitation with augmented electrical stimulation can enhance functional recovery after stroke, and cortical plasticity may play a role in this process. The purpose of this study was to compare the effects of three training paradigms on cortical excitability in healthy subjects. Cortical excitability was evaluated by analysing the input–output relationship between transcranial magnetic stimulation intensity and motor evoked potentials (MEPs) from the flexor muscles of the fingers. The study was performed with 25 healthy volunteers who underwent 20-min simulated therapy sessions of: (1) functional electrical stimulation (FES) of the finger flexors and extensors, (2) voluntary movement (VOL) with sensory stimulation, and (3) therapeutic FES (TFES) where the electrical stimulation augmented voluntary activation. TFES training produced a significant increase in MEP magnitude throughout the stimulation range, suggesting an increase in cortical excitability. In contrast, neither the FES nor voluntary movement alone had such an effect. These results suggest that the combination of voluntary effort and FES has greater potential to induce plasticity in the motor cortex and that TFES might be a more effective approach in rehabilitation after stroke than FES or repetitive voluntary training alone.
2006 8th Seminar on Neural Network Applications in Electrical Engineering, 2006
... II. INTEGRATION OFTHE QRS COMPLEX ALGORITHM IN THE VIRTUAL ECG MONITOR Off-line processing of... more ... II. INTEGRATION OFTHE QRS COMPLEX ALGORITHM IN THE VIRTUAL ECG MONITOR Off-line processing of the recorded signals was done in the part of the application called ECGViewer, so algorithm described in [1] was implemented inECG Viewer. ...
Experimental brain research. Experimentelle Hirnforschung. Expérimentation cérébrale, Jan 1, 2008
Rehabilitation with augmented electrical stimulation can enhance functional recovery after stroke... more Rehabilitation with augmented electrical stimulation can enhance functional recovery after stroke, and cortical plasticity may play a role in this process. The purpose of this study was to compare the effects of three training paradigms on cortical excitability in healthy subjects. Cortical excitability was evaluated by analysing the input–output relationship between transcranial magnetic stimulation intensity and motor evoked potentials (MEPs) from the flexor muscles of the fingers. The study was performed with 25 healthy volunteers who underwent 20-min simulated therapy sessions of: (1) functional electrical stimulation (FES) of the finger flexors and extensors, (2) voluntary movement (VOL) with sensory stimulation, and (3) therapeutic FES (TFES) where the electrical stimulation augmented voluntary activation. TFES training produced a significant increase in MEP magnitude throughout the stimulation range, suggesting an increase in cortical excitability. In contrast, neither the FES nor voluntary movement alone had such an effect. These results suggest that the combination of voluntary effort and FES has greater potential to induce plasticity in the motor cortex and that TFES might be a more effective approach in rehabilitation after stroke than FES or repetitive voluntary training alone.
2006 8th Seminar on Neural Network Applications in Electrical Engineering, 2006
... II. INTEGRATION OFTHE QRS COMPLEX ALGORITHM IN THE VIRTUAL ECG MONITOR Off-line processing of... more ... II. INTEGRATION OFTHE QRS COMPLEX ALGORITHM IN THE VIRTUAL ECG MONITOR Off-line processing of the recorded signals was done in the part of the application called ECGViewer, so algorithm described in [1] was implemented inECG Viewer. ...
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