On auditory evoked potentials and heart rate in man during whole-body vibration

Abstract

Auditory evoked brain potentials and heart rate were recorded from three healthy male subjects during sinusoidal whole-body vibration exposure in the longitudinal (±a_z) direction (two intensities: I₁=0.57 ms⁻² r.m.s., I₂=3.2 ms⁻² r.m.s., frequency: 4 Hz) and under no-vibration control conditions according to a change-over design. All conditions were performed at a constant noise level. The part of vibration-synchronous activity contaminating the averaged evoked potentials (AEP) was eliminated by means of a subtraction technique. The AEP amplitude N1-P2 showed a significant decrease during vibration exposure; this decrease was slightly greater during I₂ than during I₁. Except for a shortening of P2 due to vibration of I₁, the peak latencies did not change significantly. The heart rate increased when subjects were exposed to vibration at I₁; there were interindividually opposite significant changes under I₂ exposure. Time effects and subject effects were also proved. The AEPs are considered to be an informative measure for studying the effect of vibration on central nervous information processing.