about
Hearing Restoration in Neurofibromatosis Type II PatientsBenefits of active middle ear implants over hearing aids in patients with sloping high tone hearing loss: comparison with hearing aids.Genetic Predisposition to Sporadic Congenital Hearing Loss in a Pediatric Populationβ1- and β2-adrenergic stimulation-induced electrogenic transport by human endolymphatic sac epithelium and its clinical implicationsElectrogenic transport and K(+) ion channel expression by the human endolymphatic sac epithelium.Autoimmunity as a candidate for the etiopathogenesis of Meniere's disease: detection of autoimmune reactions and diagnostic biomarker candidateNeutrophil-to-lymphocyte ratio and platelet-to-lymphocyte ratio: novel markers for diagnosis and prognosis in patients with idiopathic sudden sensorineural hearing loss.Developmental changes of ENaC expression and function in the inner ear of pendrin knock-out mice as a perspective on the development of endolymphatic hydrops.Albumin-like protein is the major protein constituent of luminal fluid in the human endolymphatic sac.Adverse events and discomfort during magnetic resonance imaging in cochlear implant recipients.Ventilation tube insertion is not effective to the treatment of hearing impairment in pediatric patients with Cornelia de Lange syndrome.CHD7 mutational analysis and clinical considerations for auditory rehabilitation in deaf patients with CHARGE syndromeProtease-activated receptor 2-dependent fluid secretion from airway submucosal glands by house dust mite extract.Developmental gene expression profiling along the tonotopic axis of the mouse cochlea.Mutational analysis of EYA1, SIX1 and SIX5 genes and strategies for management of hearing loss in patients with BOR/BO syndrome.A melting method for RNA extraction from the mucosal membrane of the mouse middle ear.Conserved role of Sonic Hedgehog in tonotopic organization of the avian basilar papilla and mammalian cochlea.A drug-repositioning screening identifies pentetic acid as a potential therapeutic agent for suppressing the elastase-mediated virulence of Pseudomonas aeruginosa.Differential Protein Expression in Congenital and Acquired Cholesteatomas.Synergistic airway gland mucus secretion in response to vasoactive intestinal peptide and carbachol is lost in cystic fibrosis.A novel siderophore system is essential for the growth of Pseudomonas aeruginosa in airway mucusChanges in Tinnitus After Middle Ear Implant Surgery: Comparisons With the Cochlear Implant.A Genetic Screen Reveals Novel Targets to Render Pseudomonas aeruginosa Sensitive to Lysozyme and Cell Wall-Targeting AntibioticsThe HSP70 co-chaperone DNAJC14 targets misfolded pendrin for unconventional protein secretion.Sulforaphane, a natural component of broccoli, inhibits vestibular schwannoma growth in vitro and in vivo.Third windows as a cause of failure in hearing gain after exploratory tympanotomy.Vibrant Soundbridge can improve the most comfortable listening level in sensorineural hearing loss: our experience of 61 patients.Hearing Preservation During Cochlear Implantation and Electroacoustic Stimulation in Patients With SLC26A4 Mutations.Audiologic Gain of Incus Short Process Vibroplasty With Conventional Incus Long Process Vibroplasty: A Retrospective Analysis of 36 Patients.Benefits of active middle ear implants in mixed hearing loss: Stapes versus round window.Audiologic limitations of Vibrant Soundbridge device: Is the contralateral hearing aid fitting indispensable?A case of the vibrant soundbridge stapes coupler in patients with mixed hearing loss.Is there a deafness duration limit for cochlear implants in post-lingual deaf adults?Combined rTMS to the auditory cortex and prefrontal cortex for tinnitus control in patients with depression: a pilot study.Interferon-gamma suppresses Na+ -H+ exchanger in cultured human endolymphatic sac epithelial cells.Severe to profound hearing loss in patients with progressed Alport's syndrome.Mucociliary differentiation according to time in human nasal epithelial cell culture.Correlation of vestibular aqueduct size with air-bone gap in enlarged vestibular aqueduct syndrome.Early deterioration of residual hearing in patients with SLC26A4 mutations.Novel COCH p.V123E Mutation, Causative of DFNA9 Sensorineural Hearing Loss and Vestibular Disorder, Shows Impaired Cochlin Post-Translational Cleavage and Secretion.
P50
Q26748852-EEB1D17D-67DB-48E7-94A1-5059A7AFEBA3Q30354208-0891D4C0-00E5-417E-972F-B309E1125A59Q30358959-C7305929-A20F-4686-B288-7D25EC9618D9Q30363636-9DC8CC5E-BEBD-4747-859E-B8857E0ED9C6Q30395870-6878110F-EDAF-4DA5-92DF-82FC80469C27Q30428121-80AF66C1-CAC2-4ECD-8DA9-847C2D9B5C60Q30437338-8C5134B4-56D7-4FBE-B42B-BE7C9E91DB68Q30439655-E474C799-7FFD-48BA-BFFF-8EAD1419672BQ30474877-707698FB-7374-4E3F-A97E-968FB43173B2Q30870703-A5707C25-2084-4946-9A92-A297DC2CA25BQ31096025-09AA9CDB-1FAC-46BF-B481-547D75CB0190Q34023574-B77893EE-3A49-43E1-9B2B-A4C96CDADAE8Q34111487-7B3B7A17-006C-403E-A559-F5FC9C328FBBQ34342346-FA5D8345-CB28-4B01-8850-12DE7F0A0D7AQ34806757-D84C4F97-4036-4013-BA0D-802A8F714CB9Q35086110-B6847456-8460-41E4-B6C0-0D260D86E4D1Q35229526-81DB1B97-AD26-4B47-A813-88DFDC6896CAQ35270008-64AA6705-D16A-4719-94F9-64F2BD2D43FDQ35763374-8A0DB03B-E714-4A01-A188-42210A817B6FQ35987585-D68053FF-4A88-40B0-ABD2-341A64B49C98Q36134138-5167885C-3AC5-431C-A100-FC03F767CF5FQ36197428-041BD406-F8C6-4392-9C7B-38B3BD31DB25Q36309883-D291C7B7-7A2D-4F7C-9381-BBADDB844C34Q36845681-F4B028BB-C84D-4CA4-B506-86B21FADD793Q37386177-37524C35-D254-4D4F-B714-C8D3E28F1A16Q37865205-0AACB86A-7BB0-4049-B5EB-099E15B52A58Q38399453-FC3E07AB-0703-44D0-ADE8-8E04E29958D6Q38400155-2D1DC2FF-418B-4C77-BC2F-92BB75B9CCD9Q38400918-A72FC27F-1E25-462C-97EF-F689FD4F14FFQ38411258-82A57173-676E-449E-B943-BFDBA3A88C54Q38418124-A0159104-9ADA-4759-B820-D150AE451309Q38433443-5A70BAA5-EE52-42FC-8619-97F53E05CA2BQ38444132-9499F988-9E82-4C8C-A197-53613FDB3759Q38452840-61DDD395-918B-49EB-BFB2-2AC4F5B538FCQ38494580-4C5329C6-9681-4BA9-B9E9-9E7993C9F039Q38497879-B6360EB6-A25B-4A00-9606-3BC1BD8F150FQ38522551-B0727BF5-474B-474D-98FA-4A96F21DBA98Q38587190-84CDEAC7-24B2-49BB-9147-8DE1A0EC249AQ38664068-566248E5-6463-4545-9833-C63752DCDBBDQ38845134-700A5508-722D-4152-848A-75499CB4BA8F
P50
description
researcher ORCID ID=0000-0001-9493-3458
@en
name
Jae Young Choi
@en
Jae Young Choi
@nl
type
label
Jae Young Choi
@en
Jae Young Choi
@nl
prefLabel
Jae Young Choi
@en
Jae Young Choi
@nl
P106
P31
P496
0000-0001-9493-3458