Does direction of induced electric field or current provide a test of mechanism involved in nerve regeneration?

We suggest an experimental comparison of two directions for applying the time-varying magnetic fields which have been found to speed spontaneous regeneration of injured peripheral nerves and in attempts to repair spinal cord injuries. Time-varying magnetic fields induce currents in a plane perpendicular to the magnetic field direction. The lower conductivity of the spinal cord's sheath (dura matter) or of the myelin sheath of peripheral nerves would seem to confine the induced electric fields and currents to the spinal cord or nerve itself.

Electromagnetic field treatment of nerve crush injury in a rat model: effect of signal configuration on functional recovery.

Electromagnetic fields (EMFs) have been demonstrated to enhance mammalian peripheral nerve regeneration in vitro and in vivo. Using an EMF signal shown to enhance neurite outgrowth in vitro, we tested this field in vivo using three different amplitudes. The rat sciatic nerve was crushed.

Quantitation of neurite growth parameters in explant cultures using a new image processing program.

An interactive image processing program was developed to quantify the effects of various biochemical and physical factors on cultured explants of nerve tissue. We used this method to obtain a growth curve of chick embryo dorsal root ganglia (DRG) in media containing various concentrations of nerve growth factor (NGF). In the past, neurite lengths and numbers were measured manually using collages of 35 mm color photographs or made directly under the microscope.