Stephen J Rebscher
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Explore the profile of Stephen J Rebscher including associated specialties, affiliations and a list of published articles.
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12
Citations
318
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Recent Articles
1.
Rivas A, Yawn R, Kim A, Driscoll C, Cullen R, Rebscher S, et al.
Otol Neurotol
. 2019 Jun;
40(5S Suppl 1):S23-S28.
PMID: 31225819
Objective: To describe histologic and radiographic findings associated with insertion of a new lateral wall electrode in human temporal bones, as well as quantify the ease of insertion as characterized...
2.
Leake P, Rebscher S, Dore C, Akil O
J Assoc Res Otolaryngol
. 2019 Jun;
20(4):341-361.
PMID: 31222416
Outcomes with contemporary cochlear implants (CI) depend partly upon the survival and condition of the cochlear spiral ganglion (SG) neurons. Previous studies indicate that CI stimulation can ameliorate SG neural...
3.
Zeng F, Rebscher S, Fu Q, Chen H, Sun X, Yin L, et al.
Hear Res
. 2014 Oct;
322:188-99.
PMID: 25281795
Although the cochlear implant has been widely acknowledged as the most successful neural prosthesis, only a fraction of hearing-impaired people who can potentially benefit from a cochlear implant have actually...
4.
Leake P, Stakhovskaya O, Hetherington A, Rebscher S, Bonham B
J Assoc Res Otolaryngol
. 2013 Feb;
14(2):187-211.
PMID: 23392612
Both neurotrophic support and neural activity are required for normal postnatal development and survival of cochlear spiral ganglion (SG) neurons. Previous studies in neonatally deafened cats demonstrated that electrical stimulation...
5.
Rebscher S, Hetherington A, Bonham B, Wardrop P, Whinney D, Leake P
J Rehabil Res Dev
. 2008 Sep;
45(5):731-47.
PMID: 18816423
The level of hearing rehabilitation enjoyed by cochlear implant (CI) recipients has increased dramatically since the introduction of these devices. This improvement is the result of continual development of these...
6.
Rebscher S, Hetherington A, Snyder R, Leake P, Bonham B
J Neurosci Methods
. 2007 Aug;
166(1):1-12.
PMID: 17727956
The effectiveness of multichannel cochlear implants depends on the activation of perceptually distinct regions of the auditory nerve. Increased information transfer is possible as the number of channels and dynamic...
7.
An S, Park S, Jun S, Lee C, Byun K, Sung J, et al.
IEEE Trans Biomed Eng
. 2007 Jun;
54(6 Pt 1):973-82.
PMID: 17554817
A simplified cochlear implant (CI) system would be appropriate for widespread use in developing countries. Here, we describe a CI that we have designed to realize such a concept. The...
8.
Leake P, Hradek G, Vollmer M, Rebscher S
J Comp Neurol
. 2007 Feb;
501(6):837-53.
PMID: 17311311
Previous studies have shown that electrical stimulation of the cochlea by a cochlear implant promotes increased survival of spiral ganglion (SG) neurons in animals deafened early in life (Leake et...
9.
Wardrop P, Whinney D, Rebscher S, Luxford W, Leake P
Hear Res
. 2005 Apr;
203(1-2):68-79.
PMID: 15855031
In recent years, several new designs of cochlear implant electrodes have been introduced clinically with the goal of optimizing perimodiolar placement of stimulation sites. Previous studies suggest that perimodiolar electrodes...
10.
Wardrop P, Whinney D, Rebscher S, Roland Jr J, Luxford W, Leake P
Hear Res
. 2005 Apr;
203(1-2):54-67.
PMID: 15855030
In recent years, new designs of cochlear implant electrodes have been introduced in an attempt to improve efficiency and performance by locating stimulation sites closer to spiral ganglion neurons and...