Hypothesis: Histologic changes occurring after,varying degrees of surgical
trauma to the inner ear in guinea pigs can reveal the mechanism of hearing
preservation/loss.
Background: Surgical approaches to the inner ear that allow for hearing pre
servation have gained increasing acceptance in neurotologic surgery The mec
hanisms responsible for. hearing preservation and hearing loss after partia
l labyrinthectomy are as yet poorly understood.
Methods: Ten animals underwent semicircular canal occlusion, suctioning of
perilymph, ampullectomy, or wide vestibulotomy. Tone-burst auditory brain s
tem response (ABR) thresholds were performed at weekly intervals after surg
ery. After 4 weeks, temporal bone specimens were processed to obtain 10-mu
m sections from plastic-embedded ears. The histologic findings were correla
ted with the initial and final ABR thresholds.
Results: After surgical occlusion of one or more semicircular canals, ABR t
hresholds were preserved, as the authors reported previously. Suctioning of
inner ear fluid led to transient loss of thresholds with recovery. Ampulle
ctomy produced dichotomous results, with some subjects preserving auditory
function and others losing auditory function. Wide vestibulotomy resulted i
n permanent loss of auditory function in most cases. Histologically, there
was intraluminal fibrosis and inflammation near the site of surgical entry.
Most specimens showed normal cochlear architecture and hair cell counts, i
rrespective of the degree of hearing loss. Vestibular hair cells were also
well preserved, even when they were close to the site of surgical injury.
Conclusions: These findings suggest that electromechanical changes, rather
than cell death, are responsible for changes in auditory and vestibular fun
ction after partial labyrinthectomy.