Comparison Of Rectangular And Damped Sinusoidal dB/dt Waveforms In Magnetic Stimulation

In magnetic (eddy-current) stimulation, sensory and motor nerve are stimulated by a time-varying magnetic field (dB/dt) produced in an appropriate coil. In this study, magnetic stimulation thresholds for a solenoidal coil encircling the forearm were determined in 14 healthy human volunteers, 11 males and 3 females. Damped sinusoidal dB/dt pulses with durations (onset to zero crossing) ranging from 120 /spl mu/s to 2500 /spl mu/s were produced by discharging a capacitor bank into the coil. Rectangular dB/dt pulses with durations ranging from 50 /spl mu/s to 2500 /spl mu/s were generated by a Gradient Ramp Accelerator Module (GRAM) in series with a linear amplifier. The threshold data were fitted to an equivalent circuit underlying the hyperbolic form of the strength-duration curve. Average electric field rheobases for the sinusoidal and rectangular pulses were 5.87 V/m and 5.36 V/m, respectively; chronaxies for these waveforms were 393 /spl mu/s and 395 /spl mu/s, respectively. This study shows that stimulation thresholds obtained with damped sinusoidal dB/dt pulses can be used to accurately predict the thresholds that would be obtained for rectangular waveforms.