Vestibular assessment with Balance Quest Normative data for children and young adults.

OBJECTIVE: The purpose of the present study was to compare equilibrium pattern in 12-year-old children with 20-year-old young adults and to obtain normative data for the BQ in both groups. METHODS: Mean stability percentages and synthesis ratios of 29 healthy children aged 12 years were compared to those of 68 young adults aged 20 years, using BQ. RESULTS: The mean stability percentages for children were significantly lower than for young adults. Vestibular ratios were lower in children compared to young adults, whereas somesthesic ratios were similar for the two groups. Visual dependence was significant higher in children. CONCLUSIONS: Children unlike young adults had lower stability percentages when visual information was not available or was incorrect. Ratio synthesis pattern was different in the two groups. Our results on BQ partially confirms previous results obtained in children assessed with Equitest CDP. This study also provides BQ normative data for these two age groups.

Assessment of medial olivocochlear system function in pre-term and full-term newborns using a rapid test of transient otoacoustic emissions.

This study was conducted to investigate maturation of the medial olivocochlear efferent system (MOCS) in pre- and full-term neonates using Quickscreen (Otodynamics Ltd) and to confirm previous findings on transient otoacoustic emission (TEOAE) suppression in neonates. MOCS maturation was investigated in 46 neonates born at the Chaim Sheba Medical Center, Tel Hashomer, Israel, using Quickscreen. All neonates were normal with no family history of general or auditory disease and no risk factors for hearing impairment. MOCS function appears gradually in human pre-term neonates and is considered to reach maturity shortly after term birth. The clinical value of MOCS testing in specific populations of newborns at risk for hearing and/or brainstem function can be legitimately raised as activation of the MOCS clearly alters cochlear output. The present results can be interpreted to support the testing of infants at risk of developing abnormal MOCS function using a commercially available rapid TEOAE measurement system.