Brain stem auditory evoked fields in response to clicks

Magnetoencephalographic correlates of brain stem auditory evoked potentials (BAEP) have been identified by applying the model of a current dipole with invariant location and orientation (fixed dipole) to data recorded with a 37-channel first-order gradiometer system. In all three subjects studied, t he dominating wave of the recorded brain stem auditory evoked field (BAEF) coincided exactly with wave V in the contralateral BAEP (maximal field ampl itude of the order of 2-3 fT). In one subject, also a wave preceding wave V was observed, which was associated with basically the same spatial pattern as wave V itself, but had an opposite polarity. The study suggests that th e supplementary information provided by BAEF measurements could be decisive for a better understanding of human auditory evoked brain stem activity. N euroReport 11:913-918 (C) 2000 Lippincott Williams & Wilkins.