论文信息 - A model of the magnetic fields created by single motor unit compound action potentials in skeletal muscle

A model of the magnetic fields created by single motor unit compound action potentials in skeletal muscle

We have developed a computationally simple model for calculating the magnetic-field strength at a point due to a single motor unit compound action potential (SMUCAP). The motor unit is defined only in terms of its anatomical features, and the SMUCAP is approximated using the tripole model. The distributed current density J is calculated within the volume defined by the motor unit. The law of Biot and Savart can then be cast in a form necessitating that J be integrated only over the region containing current sources or conductivity boundaries. The magnetic-field strength is defined as the summation of the contributions to the field made by every muscle fiber in the motor unit. Applying this model to SMUCAP measurements obtained using a high-resolution SUper Conducting Quantum Interference Device (SQUID) magnetometer may yield information regarding the distribution of action currents (AC's) and the anatomical properties of single motor units within a muscle bundle.

J. Wikswo | K. Parker | J.P. Wikswo | K.K. Parker

[1] D. Kline,et al. Evaluation of nerve injuries by evoked potentials and electromyography. , 1969, Journal of neurosurgery.

[2] Robert Plonsey,et al. Bioelectricity: A Quantitative Approach Duke University’s First MOOC , 2013 .

[3] D. A. Dunnett. Classical Electrodynamics , 2020, Nature.

[4] R S Wijesinghe. A mathematical model for calculating the vector magnetic field of a single muscle fiber. , 1991, Mathematical biosciences.

[5] D. Cohen,et al. Magnetomyography: magnetic fields around the human body produced by skeletal muscles , 1972 .

[6] Bradley J. Roth,et al. Capabilities ofa Toroid-Amplifier Systemfor Magnetic Measurement ofCurrentin Biological Tissue , 1986 .

[7] J P Wikswo,et al. A calculation of the magnetic field of a nerve action potential. , 1980, Biophysical journal.

[8] K. C. McGill,et al. A model of the surface-recorded motor-unit action potential , 1988, Proceedings of the Annual International Conference of the IEEE Engineering in Medicine and Biology Society.

[9] J P Wikswo,et al. Magnetic field of a single muscle fiber. First measurements and a core conductor model. , 1990, Biophysical journal.