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W Wallinga

Showing results (11-20 of 26) with videos related to

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IEEE Transactions on Bio-Medical Engineering|May 1, 1988
Frequency domain modeling of volume conduction of single muscle fiber action potentialsB A Albers, W L Rutten, W Wallinga-De Jonge, et al.
Medical & Biological Engineering & Computing|November 1, 1988
Microscopic and macroscopic volume conduction in skeletal muscle tissue, applied to simulation of single-fibre action potentialsB A Albers, W L Rutten, W Wallinga-de Jonge, et al.
Electromyography and Clinical Neurophysiology|January 1, 1985
The boundary conditions for measurement of the conduction velocity of muscle fibres with surface EMGG Sollie, H J Hermens, K L Boon, et al.
Electroencephalography and Clinical Neurophysiology|June 1, 1985
The different intracellular action potentials of fast and slow muscle fibresW Wallinga-De Jonge, F L Gielen, P Wirtz, et al.
Biophysical Journal|May 1, 1993
The bioelectrical source in computing single muscle fiber action potentialsB K van Veen, H Wolters, W Wallinga, et al.
Electromyography and Clinical Neurophysiology|May 1, 1985
The measurement of the conduction velocity of muscle fibres with surface EMG according to the cross-correlation methodG Sollie, H J Hermens, K L Boon, et al.
Medical & Biological Engineering & Computing|May 1, 1992
Potential distribution and single-fibre action potentials in a radially bounded muscle modelB K van Veen, N J Rijkhoff, W L Rutten, et al.
Medical & Biological Engineering & Computing|March 1, 1997
Influence of inhomogeneities in muscle tissue on single-fibre action potentials: a model studyW L Rutten, B K van Veen, S H Stroeve, et al.
Medical & Biological Engineering & Computing|November 1, 1981
Calcium model for mammalian skeletal muscleW Wallinga-de Jonge, H B Boom, R J Heijink, et al.
Electromyography and Clinical Neurophysiology|October 1, 1992
Muscle conduction velocity and morphology after prolonged hypoxemia and diabetes in ratsP H Hendriksen, P L Oey, B K van Veen, et al.
Pageof 3

Showing results (11-20 of 26) with videos related to

Sort By:
Pageof 3
IEEE Transactions on Bio-Medical Engineering|May 1, 1988
Frequency domain modeling of volume conduction of single muscle fiber action potentialsB A Albers, W L Rutten, W Wallinga-De Jonge, et al.
Medical & Biological Engineering & Computing|November 1, 1988
Microscopic and macroscopic volume conduction in skeletal muscle tissue, applied to simulation of single-fibre action potentialsB A Albers, W L Rutten, W Wallinga-de Jonge, et al.
Electromyography and Clinical Neurophysiology|January 1, 1985
The boundary conditions for measurement of the conduction velocity of muscle fibres with surface EMGG Sollie, H J Hermens, K L Boon, et al.
Electroencephalography and Clinical Neurophysiology|June 1, 1985
The different intracellular action potentials of fast and slow muscle fibresW Wallinga-De Jonge, F L Gielen, P Wirtz, et al.
Biophysical Journal|May 1, 1993
The bioelectrical source in computing single muscle fiber action potentialsB K van Veen, H Wolters, W Wallinga, et al.
Electromyography and Clinical Neurophysiology|May 1, 1985
The measurement of the conduction velocity of muscle fibres with surface EMG according to the cross-correlation methodG Sollie, H J Hermens, K L Boon, et al.
Medical & Biological Engineering & Computing|May 1, 1992
Potential distribution and single-fibre action potentials in a radially bounded muscle modelB K van Veen, N J Rijkhoff, W L Rutten, et al.
Medical & Biological Engineering & Computing|March 1, 1997
Influence of inhomogeneities in muscle tissue on single-fibre action potentials: a model studyW L Rutten, B K van Veen, S H Stroeve, et al.
Medical & Biological Engineering & Computing|November 1, 1981
Calcium model for mammalian skeletal muscleW Wallinga-de Jonge, H B Boom, R J Heijink, et al.
Electromyography and Clinical Neurophysiology|October 1, 1992
Muscle conduction velocity and morphology after prolonged hypoxemia and diabetes in ratsP H Hendriksen, P L Oey, B K van Veen, et al.
Pageof 3