The injured cochlea as a target for inflammatory processes, initiation of cell death pathways and application of related otoprotectives strategies.
about
Reactive oxygen species, apoptosis, and mitochondrial dysfunction in hearing loss.In vitro and in vivo evaluation of a hydrogel reservoir as a continuous drug delivery system for inner ear treatment.Mechanisms of aminoglycoside ototoxicity and targets of hair cell protection.Transcriptome characterization by RNA-Seq reveals the involvement of the complement components in noise-traumatized rat cochleaeThe Role of Glia in the Peripheral and Central Auditory System Following Noise Overexposure: Contribution of TNF-α and IL-1β to the Pathogenesis of Hearing LossDietary supplement comprised of β-carotene, vitamin C, vitamin E, and magnesium: failure to prevent music-induced temporary threshold shift.Resistance to noise-induced hearing loss in 129S6 and MOLF mice: identification of independent, overlapping, and interacting chromosomal regionsACEMg-mediated hearing preservation in cochlear implant patients receiving different electrode lengths (PROHEARING): study protocol for a randomized controlled trial.The redox protein p66(shc) mediates cochlear vascular dysfunction and transient noise-induced hearing loss.Impedance Changes and Fibrous Tissue Growth after Cochlear Implantation Are Correlated and Can Be Reduced Using a Dexamethasone Eluting Electrode.Loss of STAT1 protects hair cells from ototoxicity through modulation of STAT3, c-Jun, Akt, and autophagy factors.Rescuing the Cochlea: the challengesHigh-throughput technologies for gene expression analyses: what we have learned for noise-induced cochlear degeneration?Assessment of nutrient supplement to reduce gentamicin-induced ototoxicity.Transforming growth factor β1 inhibition protects from noise-induced hearing loss.Digital music exposure reliably induces temporary threshold shift in normal-hearing human subjects.Vascular Pathophysiology in Hearing Disorders.Effects of antioxidant treatment on blast-induced brain injury.Increased vitamin plasma levels in Swedish military personnel treated with nutrients prior to automatic weapon training.The miR-183/Taok1 target pair is implicated in cochlear responses to acoustic trauma.The design and screening of drugs to prevent acquired sensorineural hearing lossAntioxidant treatment with coenzyme Q-ter in prevention of gentamycin ototoxicity in an animal model.Gentamicin rapidly inhibits mitochondrial metabolism in high-frequency cochlear outer hair cells.Early investigational drugs for hearing loss.Effect of the WWOX gene on the regulation of the cell cycle and apoptosis in human ovarian cancer stem cells.NaHS Protects Cochlear Hair Cells from Gentamicin-Induced Ototoxicity by Inhibiting the Mitochondrial Apoptosis PathwayAdenosine A1 Receptor Protects Against Cisplatin Ototoxicity by Suppressing the NOX3/STAT1 Inflammatory Pathway in the Cochlea.Neuroglobin immunoreactivity in the human cochlea.Morin hydrate promotes inner ear neural stem cell survival and differentiation and protects cochlea against neuronal hearing loss.Effect of surgical technique on electrode impedance after cochlear implantation.The role of intracochlear drug delivery devices in the management of inner ear disease.Efficacy of different routes of administration for Coenzyme Q10 formulation in noise-induced hearing loss: systemic versus transtympanic modality.Cochlear protection against cisplatin by viral transfection of X-linked inhibitor of apoptosis protein across round window membrane.Differential expression of transcription factors and inflammation-, ROS-, and cell death-related genes in organotypic cultures in the modiolus, the organ of Corti and the stria vascularis of newborn rats.Infant hearing loss: from diagnosis to therapy Official Report of XXI Conference of Italian Society of Pediatric Otorhinolaryngology.Sensorineural deafness following routine transurethral resection of the prostate.Auditory and vestibular defects induced by experimental labyrinthitis following herpes simplex virus in mice.Effect of both local and systemically administered dexamethasone on long-term hearing and tissue response in a Guinea pig model of cochlear implantation.Antibiotics Reduce Retinal Cell Survival In Vitro.Acquired sensorineural hearing loss in children: current research and therapeutic perspectives.
P2860
Q26851254-4F91AA72-22A9-4B14-BBE1-16387256B7F0Q27315838-DEDCED6B-6198-44D8-865B-3C104070CD54Q28393038-694CB152-1705-4635-93B8-A6A53B7A9195Q28582262-057B89A0-FDC8-4931-882C-C3C55B2E3353Q30361410-3C299482-166C-41CC-93B5-DEA24559C07DQ30368013-C72702E6-D964-4771-95F7-A9B4FFE14D65Q30370648-AD30DB6C-D532-49E0-BD9C-22FD44A592E7Q30376821-705A30BF-A54D-4100-9EE6-FA227618917FQ30383441-183F2FF3-0A9C-403C-828B-6DF813564932Q30391330-45024A5E-C982-40F1-A85E-576D0A7C9CE4Q30392973-72740401-9BE2-422F-ACC4-DD0C1D64CDAFQ30406078-7335CCEF-16EB-43A4-87CC-76B7EF5B3899Q30406087-76932AC2-28A5-47BD-8B36-C57FAB4FF282Q30410332-68E4113F-AEAC-410F-B8EF-8C510E83BF4FQ30414703-262633B2-F0D3-4F16-8351-0E9A2F2FB2DDQ30420286-CE331F08-BCFA-4819-BC5F-142B43ED35A7Q30427799-E5BD7F07-3C18-4D10-BFEF-8F876C702357Q30447343-40087077-E3F4-40A3-9BC2-79EF00B861C3Q30448959-0643162F-F850-4F13-9160-4092DA120837Q30457564-D064524B-4D1B-47D8-99CB-BD47CE5ADA96Q30465748-DE5B0205-3BE1-4245-8FE9-50C6400077C8Q30465930-87176486-4B4E-44E2-9E6F-01E3B613D1EDQ30466528-9D21BBCD-972A-4D29-B632-77B8AD9025C4Q33847686-9C9D28B6-2163-4FED-B5CB-37E25DC533E3Q35727976-C1AEB76C-6F59-4AA1-B8C0-43055AC21E9BQ35752292-C16FD05E-620C-49DC-B82C-60075E861754Q36768399-B5CD7553-34AF-4172-827D-6275EB885E5AQ37138326-C3BAE532-9FCF-400C-A0B2-4D21753DEC78Q37662838-0B83074D-7F83-4854-9587-96750394BF7BQ37933254-E57CFA4E-0FF1-4BFB-86BA-358CAE949F01Q38262931-401A2FB9-B0EF-4A82-A4D0-014E33DE2EB0Q39637189-8BCB30BA-8AED-4E61-B806-E87DE6BD5EEDQ42152642-60921A87-24E1-4CB0-805A-4A96BA6B86C9Q42455189-2C2CAFFE-6F25-46DA-915F-28ABCE1C623CQ42933722-BF38A4D7-F3AA-4085-9F2E-F6B4CED81D82Q43162717-18E1A6C1-F0EE-415C-ACF5-889F04C45F25Q44487700-E3AF6F61-F9C7-4B95-A921-D78F46A1F603Q45908239-8655D4E5-82F7-49BF-9C61-A13FE91338CCQ47446283-A10A15DF-F71B-4EFA-AAF1-7FA9ACE1A023Q47554578-15867C30-F5F8-4EE5-A99C-4ABAB1152EC9
P2860
The injured cochlea as a target for inflammatory processes, initiation of cell death pathways and application of related otoprotectives strategies.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on June 2010
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
The injured cochlea as a targe ...... ted otoprotectives strategies.
@en
The injured cochlea as a targe ...... ted otoprotectives strategies.
@nl
type
label
The injured cochlea as a targe ...... ted otoprotectives strategies.
@en
The injured cochlea as a targe ...... ted otoprotectives strategies.
@nl
prefLabel
The injured cochlea as a targe ...... ted otoprotectives strategies.
@en
The injured cochlea as a targe ...... ted otoprotectives strategies.
@nl
P2093
P1476
The injured cochlea as a targe ...... ted otoprotectives strategies.
@en
P2093
Ralph N Abi-Hachem
Thomas R Van De Water
P304
P356
10.2174/157488910791213121
P577
2010-06-01T00:00:00Z