Abstract
Background Traditional approaches to cervical vestibular-evoked myogenic potentials use a transient
stimulus to elicit an onset response. However, alternate approaches with long duration
stimuli may allow the development of new methodologies to better understand basic
function of the vestibular system, as well as potentially developing new clinical
applications.
Purpose The objective of this study was to examine the effects of stimulus polarity on response
properties of amplitude-modulated cervical vestibular-evoked myogenic potentials (AMcVEMPs).
Research Design Prospective, repeated-measures, within-subjects design.
Study Sample Participants were 16 young, healthy adults (ages 21–38 years).
Data Collection and Analysis Amplitude-modulated tones, with carrier frequency of 500 Hz and modulation frequency
of 37 Hz, were used to elicit AMcVEMPs. Responses were analyzed in three different
stimulus polarity conditions: condensation, rarefaction, and alternating. The resulting
data were analyzed for differences across polarity conditions.
Results AMcVEMP amplitudes, both raw and corrected for tonic muscle activation, were equivalent
across the different stimulus phase conditions. In addition, response signal-to-noise
ratio and phase coherence were equivalent across the different phases of the stimulus.
Conclusion Analyses of AMcVEMPs are stable when the carrier frequency starting phase is altered
and the phase of the temporal envelope is constant.
Keywords
otolith - VEMP - cVEMP - phase locking - stimulus polarity - steady-state
