Electrophysiological Properties of Cochlear Implantation in the Gerbil Using a Flexible Array

DeMason, Christine E.; Choudhury, Baishakhi; Ahmad, Faisal I.; Fitzpatrick, Douglas C.; Wang, Jacob; Buchman, Craig A.; Adunka, Oliver F.

doi:10.1097/aud.0b013e3182498c28

Cited by 43 publications

(47 citation statements)

References 28 publications

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“…Gross intracochlear trauma (e.g. rupture of the basilar membrane) should cause an immediate reduction or loss of the ECoG signal Ahmad et al, 2012;Campbell et al, 2010;Choudhury et al, 2011Choudhury et al, , 2014DeMason et al, 2012]. In our series, the largest decrease in the ECoG signal was 4.9 dB at 500 Hz.…”

Section: Discussionmentioning

confidence: 74%

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Extra- and Intracochlear Electrocochleography in Cochlear Implant Recipients

et al. 2015

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dle ear effusion, led to a decrease in intracochlear ECoG signal amplitudes. This was not attributable to changes of cochlear function. All persistent reductions in ECoG response magnitude after normalization of the tympanogram occurred during the first week following implantation. Thresholds of ECoG signals were at or below hearing thresholds in all cases. Conclusion: Gross intracochlear trauma during surgery appears to be rare. In the early postoperative phase the ability to assess cochlear status by ECoG recordings was limited due to the regular occurrence of middle ear effusion. Still, intracochlear ECoG along with tympanogram recordings suggests that any changes of low-frequency cochlear function occur mainly during the first week after cochlear implantation. ECoG seems to be a promising tool to objectively assess changes in cochlear function in cochlear implant recipients and may allow further insight into the mechanisms underlying the loss of residual hearing.

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Section: Discussionmentioning

confidence: 74%

“…We monitored the ongoing ECoG signal at suprathreshold intensities as a decrease in this signal has been the most sensitive marker for cochlear trauma in animal studies Ahmad et al, 2012;Campbell et al, 2010;Choudhury et al, 2011Choudhury et al, , 2014DeMason et al, 2012]. Gross intracochlear trauma (e.g.…”

Section: Discussionmentioning

confidence: 99%

Extra- and Intracochlear Electrocochleography in Cochlear Implant Recipients

et al. 2015

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“…Animal studies have demonstrated that a decrease of the ongoing ECoG at low frequencies is a reliable marker for intracochlear trauma during insertion of an electrode (19)(20)(21)(22)(23)(24)37). In cochlear implant recipients, findings thus far have suggested that a decrease of low-frequency ECoG signals at suprathreshold intensities during surgery results in hearing loss of >10 dB or complete hearing loss in a majority of patients (9,10).…”

Section: Discussionmentioning

confidence: 99%

“…Electrocochleography (ECoG) has shown great potential in this regard and has been conducted in animal studies (19)(20)(21)(22)(23)(24) as well as during and after cochlear implantation in humans (9)(10)(11)(25)(26)(27)(28)(29). To our knowledge, four reports have correlated intraoperative ECoG findings with postoperative hearing preservation rates (9)(10)(11)28).…”

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confidence: 99%

Assessment of Cochlear Trauma During Cochlear Implantation Using Electrocochleography and Cone Beam Computed Tomography

Dalbert

Huber

Veraguth

et al. 2016

Otology &Amp; Neurotology

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“…However, reversible damage was not observed. Insertions with a flexible electrode mimicking a clinic implant have been done in normal-hearing animals 17 . In that condition, the responses to different frequencies showed complex changes as the electrode longitudinally traversed the basal turn.…”

Section: Introductionmentioning

confidence: 99%

Electrophysiologic Consequences of Flexible Electrode Insertions in Gerbils With Noise-Induced Hearing Loss

Choudhury

Adunka

Awan

et al. 2014

Otology &Amp; Neurotology

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Hypothesis Flexible electrode interaction with intracochlear structures in a noise-damaged region of the cochlea can lead to measureable electrophysiologic changes. Background An emerging goal in cochlear implantation is preservation of residual hearing subsequently allowing for combined electric and acoustic stimulation (EAS). However, residual hearing is at least partially lost in most patients as a result of electrode insertion. A gerbil model was used to examine changes to acoustically evoked cochlear potentials during simulated cochlear implantation. Methods Gerbils were partially deafened by noise exposure to mimic residual hearing in human cochlear implant candidates. After one month, round window (RW) and intracochlear recordings during flexible electrode insertion were made in response to 1 kHz tone burst stimuli at 80 dB SPL. After the insertion the cochleas were histologically examined for hair cell loss due to the noise exposure and trauma due to the electrode insertion. Results Anatomical damage from the flexible electrode was not observable in most cases. However, insertions caused response declines that were on average greater than the controls, although some losses were similar to the controls. The CM was more sensitive than the CAP for detecting cochlear disturbance. Conclusions Because response reductions occurred in the absence of anatomical damage, disturbances in the fluid at the base appear to affect responses from the apex. The losses were less than in previous experiments where the basilar membrane was penetrated.

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Electrophysiological Properties of Cochlear Implantation in the Gerbil Using a Flexible Array

Cited by 43 publications

References 28 publications

Extra- and Intracochlear Electrocochleography in Cochlear Implant Recipients

Extra- and Intracochlear Electrocochleography in Cochlear Implant Recipients

Assessment of Cochlear Trauma During Cochlear Implantation Using Electrocochleography and Cone Beam Computed Tomography

Electrophysiologic Consequences of Flexible Electrode Insertions in Gerbils With Noise-Induced Hearing Loss

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