2024-03-29T05:18:40Z
https://u-ryukyu.repo.nii.ac.jp/oai
oai:u-ryukyu.repo.nii.ac.jp:02015869
2022-10-31T07:46:02Z
1642838163960:1642838198944:1642838199408:1642838202375
1642838403551:1642838412624
[原著]EABR (Electrically Evoked Auditory Brainstem Response)を用いた聴覚機能評価に関する実験的研究
An Experimental Study on Estimation of Auditory System Using EABR (Electrically Evoked Auditory Brainstem Response)
山内, 昌幸
Yamauchi, Masayuki
EABR
spiral ganglion
cochlear nerve
damaged site
guinea pig
EABR(Electrically evoked Auditory Brainstem Response) is the response of auditory pathways to electrical stimulation rather than acoustic stimulation, and anticipated to be a method of investigating retrocochlear function in patients with profound sensorineural deaf ness for whom acoustic stimulation was not possible. It is easily predicted that the EABR waveform will change depending on the functional state of auditory pathways, but research data on analysis of waveform is insufficient. In this study, to examine the usefulness of EABR as a method of estimating retrocochlear function, two types of deaf models in guinea pigs were made, and the EABR of each model was observed. The results are as follows. 1. ETABR for intracochlear stimulation is better than that for round window stimulation with respect to minimal influence of direct electrical stimulus artifact and myogenic artifact without muscle relaxants, and of lower threshold. 2. On a spiral ganglion damaged model made by administration of kanamycin sulfate, amplitude significantly decreased (p<0.001), interestingly, however, no significant change was recognized in latency and threshold compared to the EABR of the non-treated group. 3. 0n the other hand, on a cochlear nerve damaged model made by compression of the cochlear nerve, amplitude decreased (pく0.001), latency prolonged (pく0.001), and threshold elevated (pく0.001) significantly more than before compression. 4. When changes of amplitude, latency and threshold of e II on EABR are considered, it is possible to distinguish the spiral ganglion damage from cochlear nerve damage. EABR is very useful not only for measuring the retrocochlear function even in profound deaf case, but also for estimating the damaged site of retrocochlear pathways in detail.
論文
http://purl.org/coar/resource_type/c_6501
琉球医学会
Ryukyu Medical Association
1993
VoR
1346888X
0289-1530
AN10369445
琉球医学会誌 = Ryukyu Medical Journal
2
13
193
181
jpn
open access
琉球医学会