Objective: To evaluate, in two separate experiments, the effects of intense noise exposures delivered to fetal sheep in utero during a time of rapid auditory development.
Design: In the first experiment, auditory brain stem response (ABR) thresholds to clicks and tone bursts were recorded from chronically instrumented fetal sheep in utero before and after exposure of pregnant ewes to intense broadband noise. A single 16 hr exposure was delivered at 113 days gestational age, a time when the ABR is just emerging. Thresholds were compared with an age-matched, nonexposed control group. In the second experiment, fetal sheep at the same gestational age were exposed four times to broadband noise and their cochleae were harvested 20 days later for histological analysis by the use of scanning electron microscopy. Comparisons were made with an age-matched, nonexposed control group.
Results: Experiment One: ABR thresholds recorded between 10 to 20 days after the exposure were not as sensitive as thresholds obtained from control fetuses. There was a tendency for thresholds to 0.5 kHz tone bursts to be more affected than thresholds to clicks. Experiment Two: Scanning electron microscopy of the organ of Corti from fetuses exposed to noise from 111 to 114 days gestational age revealed significant damage to inner and outer hair cells in the middle and apical turns of cochleae. Similar hair cell damage was not present in control fetuses.
Conclusions: Intense exogenous noise penetrated the uterus of pregnant sheep and resulted in elevations in ABR thresholds 2 to 3 wk after exposure. In fetuses repeatedly exposed to noise, the middle and apical turns of the cochlea showed greater hair cell damage than found at the same locations in control cochlea. The basal turn of the cochlea was not damaged.
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