ABSTRACT
Aim To track the magnetic field generated by the propagating muscle action potential (MAP).
Method In this prospective, proof of principle study, the magnetic activity of the intrinsic foot muscle after electric stimulation of the tibial nerve was measured using optically pumped magnetometers (OPMs). A classical biophysical electric dipole model of the propagating MAP was implemented to model the source of the data.
Results The signal profile generated by the activity of the intrinsic foot muscles was measured by four OPM devices. Three devices were located above the same muscle to compare the direction and the strength of the magnetic signal while propagating along the muscle.
Interpretation OPM devices allow for a new, non-invasive way to study MAP patterns. Since magnetic fields are less altered by the tissue surrounding the dipole source compared to electric activity, a precise analysis of the spatial characteristics and temporal dynamics of the MAP is possible. The classic electric dipole model explains major but not all aspects of the magnetic field. The field has longitudinal components generated by intrinsic structures of the muscle fibre. By understanding these magnetic components, new methods could be developed to analyse the muscular signal transduction pathway in greater detail.
What this paper adds
- Technological concepts to record and analyse the small magnetic fields generated by electric muscular activity
- Model to link the signals measured by the OPM sensors to the underlying physiology
- Insights into the propagation of muscle action potential and the sequential control of motor activity
Competing Interest Statement
The authors have declared no competing interest.
Abbreviations
- OPM
- optically pumped magnetometer
- MAP
- muscle action potential