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Bernard A. Conway
Researcher at University of Strathclyde
Publications - 133
Citations - 6243
Bernard A. Conway is an academic researcher from University of Strathclyde. The author has contributed to research in topics: Spinal cord injury & Electroencephalography. The author has an hindex of 29, co-authored 128 publications receiving 5703 citations. Previous affiliations of Bernard A. Conway include University of East Anglia & University of Glasgow.
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A framework for the analysis of mixed time series/point process data--theory and application to the study of physiological tremor, single motor unit discharges and electromyograms.
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Synchronization between motor cortex and spinal motoneuronal pool during the performance of a maintained motor task in man.
Bernard A. Conway,David M. Halliday,Simon F. Farmer,Uma Shahani,P. Maas,A.I. Weir,Jay R. Rosenberg +6 more
TL;DR: The results demonstrate that synchronized cortical activity contributing to MEG activity within the beta range of frequencies during maintained voluntary contractions is coupled to motor output at frequencies of motor‐ unit activity associated with motor‐unit synchronization.
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Proprioceptive input resets central locomotor rhythm in the spinal cat.
TL;DR: Results indicate that extensor group I afferents have access to central rhythm generators and suggest that this may be of importance in the reflex regulation of stepping.
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Using electroencephalography to study functional coupling between cortical activity and electromyograms during voluntary contractions in humans.
TL;DR: Electroencephalography is equally efficient at investigating functional aspects of these cortical rhythms during voluntary movement in humans, with a synchronous correlation structure which matches that previously observed in humans and in paired cortical recordings from primates.
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The motor cortex drives the muscles during walking in human subjects
TL;DR: Evidence of synchrony in the frequency domain (coherence) between the primary motor cortex and the TA muscle indicating a cortical involvement in human gait function is found, underpins the importance of restoration of the activity and connectivity between the motor cortical and the spinal cord in the recovery of gaitfunction in patients with damage of the central nervous system.