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K C McGill

Showing results (1-10 of 28) with videos related to

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Medical & Biological Engineering & Computing|August 24, 2004
Surface electromyogram signal modellingK C McGill
Developmental Medicine and Child Neurology|May 21, 1998
The motor unit in cerebral palsyJ Rose, K C McGill
Muscle & Nerve|May 8, 2000
Slow repolarization phase of the intracellular action potential influences the motor unit action potentialK C McGill, Z C Lateva
Muscle & Nerve|August 1, 1988
AAEE minimonograph #29: automatic quantitative electromyographyL J Dorfman, K C McGill
IEEE Transactions on Bio-Medical Engineering|January 5, 2002
A model of the muscle-fiber intracellular action potential waveform, including the slow repolarization phaseK C McGill, Z C Lateva
Clinical Neurophysiology : Official Journal of the International Federation of Clinical Neurophysiology|January 4, 2001
Estimating motor-unit architectural properties by analyzing motor-unit action potential morphologyZ C Lateva, K C McGill
IEEE Transactions on Bio-Medical Engineering|June 1, 1984
High-resolution alignment of sampled waveformsK C McGill, L J Dorfman
Electroencephalography and Clinical Neurophysiology|November 1, 1985
Automatic decomposition electromyography (ADEMG): validation and normative data in brachial bicepsK C McGill, L J Dorfman
Muscle & Nerve|January 12, 1999
The contribution of the interosseous muscles to the hypothenar compound muscle action potentialK C McGill, Z C Lateva
Electroencephalography and Clinical Neurophysiology|December 16, 1998
The physiological origin of the slow afterwave in muscle action potentialsZ C Lateva, K C McGill
Pageof 3

Showing results (1-10 of 28) with videos related to

Sort By:
Pageof 3
Medical & Biological Engineering & Computing|August 24, 2004
Surface electromyogram signal modellingK C McGill
Developmental Medicine and Child Neurology|May 21, 1998
The motor unit in cerebral palsyJ Rose, K C McGill
Muscle & Nerve|May 8, 2000
Slow repolarization phase of the intracellular action potential influences the motor unit action potentialK C McGill, Z C Lateva
Muscle & Nerve|August 1, 1988
AAEE minimonograph #29: automatic quantitative electromyographyL J Dorfman, K C McGill
IEEE Transactions on Bio-Medical Engineering|January 5, 2002
A model of the muscle-fiber intracellular action potential waveform, including the slow repolarization phaseK C McGill, Z C Lateva
Clinical Neurophysiology : Official Journal of the International Federation of Clinical Neurophysiology|January 4, 2001
Estimating motor-unit architectural properties by analyzing motor-unit action potential morphologyZ C Lateva, K C McGill
IEEE Transactions on Bio-Medical Engineering|June 1, 1984
High-resolution alignment of sampled waveformsK C McGill, L J Dorfman
Electroencephalography and Clinical Neurophysiology|November 1, 1985
Automatic decomposition electromyography (ADEMG): validation and normative data in brachial bicepsK C McGill, L J Dorfman
Muscle & Nerve|January 12, 1999
The contribution of the interosseous muscles to the hypothenar compound muscle action potentialK C McGill, Z C Lateva
Electroencephalography and Clinical Neurophysiology|December 16, 1998
The physiological origin of the slow afterwave in muscle action potentialsZ C Lateva, K C McGill
Pageof 3