Bryan E Pfingst
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Explore the profile of Bryan E Pfingst including associated specialties, affiliations and a list of published articles.
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56
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1478
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Recent Articles
1.
Reexamining the effects of electrode location on measures of neural health in cochlear implant users
Schvartz-Leyzac K, Pfingst B
JASA Express Lett
. 2023 Jun;
3(6).
PMID: 37358401
The electrically evoked compound action potentials (ECAPs) amplitude-growth function (AGF) slope correlates with spiral ganglion neuron (SGN) density in the cochlear implanted cochlea. Electrode insertion angle and medial-lateral distance covary...
2.
Schvartz-Leyzac K, Giordani B, Pfingst B
JAMA Otolaryngol Head Neck Surg
. 2023 Jan;
149(3):239-246.
PMID: 36701145
Importance: The association between cognitive function and outcomes in cochlear implant (CI) users is not completely understood, partly because some cognitive tests are confounded by auditory status. It is important...
3.
Schvartz-Leyzac K, Colesa D, Swiderski D, Raphael Y, Pfingst B
J Assoc Res Otolaryngol
. 2023 Jan;
24(1):5-29.
PMID: 36600147
The cochlear implant (CI) is widely considered to be one of the most innovative and successful neuroprosthetic treatments developed to date. Although outcomes vary, CIs are able to effectively improve...
4.
Buswinka C, Colesa D, Swiderski D, Raphael Y, Pfingst B
Hear Res
. 2022 Nov;
426:108638.
PMID: 36368194
Outcomes of cochlear implantation are likely influenced by the biological state of the cochlea. Fibrosis is a pathological change frequently seen in implanted ears. The goal of this work was...
5.
Garadat S, Colesa D, Swiderski D, Raphael Y, Pfingst B
Hear Res
. 2021 Dec;
414:108404.
PMID: 34883366
It is generally believed that the efficacy of cochlear implants is partly dependent on the condition of the stimulated neural population. Cochlear pathology is likely to affect the manner in...
6.
Skidmore J, Ramekers D, Colesa D, Schvartz-Leyzac K, Pfingst B, He S
Ear Hear
. 2021 Jul;
43(1):150-164.
PMID: 34241983
Objectives: Amplitudes of electrically evoked compound action potentials (eCAPs) as a function of the stimulation level constitute the eCAP amplitude growth function (AGF). The slope of the eCAP AGF (i.e.,...
7.
Schvartz-Leyzac K, Zwolan T, Pfingst B
Hear Res
. 2021 May;
406:108257.
PMID: 34020316
Studies in cochlear implanted animals show that the IPG Effect for ECAP growth functions (i.e., the magnitude of the change in ECAP amplitude growth function (AGF) slope or peak amplitude...
8.
Colesa D, Devare J, Swiderski D, Beyer L, Raphael Y, Pfingst B
Hear Res
. 2021 Mar;
404:108216.
PMID: 33691255
Mice with chronic cochlear implants can significantly contribute to our understanding of the relationship between cochlear health and implant function because of the availability of molecular tools for controlling conditions...
9.
Schvartz-Leyzac K, Colesa D, Buswinka C, Rabah A, Swiderski D, Raphael Y, et al.
J Acoust Soc Am
. 2020 Dec;
148(6):3900.
PMID: 33379919
This study examined how multiple measures based on the electrically evoked compound action potential (ECAP) amplitude-growth functions (AGFs) were related to estimates of neural [spiral ganglion neuron (SGN) density and...
10.
Swiderski D, Colesa D, Hughes A, Raphael Y, Pfingst B
J Assoc Res Otolaryngol
. 2020 Jul;
21(4):337-352.
PMID: 32691251
Fibrous tissue and/or new bone are often found surrounding a cochlear implant in the cochlear scalae. This new intrascalar tissue could potentially limit cochlear implant function by increasing impedance and...