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Cited by in CrossRef
For: Tan WJ, Thorne PR, Vlajkovic SM. Noise-induced cochlear inflammation. World J Otorhinolaryngol 2013; 3(3): 89-99 [DOI: 10.5319/wjo.v3.i3.89]
URL: https://www.wjgnet.com/2218-6247/full/v3/i3/89.htm
Number Citing Articles
1
Raul A. Urrutia, Federico Kalinec. Biology and pathobiology of lipid droplets and their potential role in the protection of the organ of CortiHearing Research 2015; 330: 26 doi: 10.1016/j.heares.2015.04.015
2
Tony L. Sahley, David J. Anderson, Michael D. Hammonds, Karthik Chandu, Frank E. Musiek. Evidence for a dynorphin-mediated inner ear immune/inflammatory response and glutamate-induced neural excitotoxicity: an updated analysisJournal of Neurophysiology 2019; 122(4): 1421 doi: 10.1152/jn.00595.2018
3
Verónica Fuentes-Santamaría, Juan Carlos Alvarado, Pedro Melgar-Rojas, María C. Gabaldón-Ull, Josef M. Miller, José M. Juiz. The 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 LossFrontiers in Neuroanatomy 2017; 11 doi: 10.3389/fnana.2017.00009
4
Pietro Ghezzi, Luciano Floridi, Diana Boraschi, Antonio Cuadrado, Gina Manda, Snezana Levic, Fulvio D'Acquisto, Alice Hamilton, Toby J. Athersuch, Liza Selley. Oxidative Stress and Inflammation Induced by Environmental and Psychological Stressors: A Biomarker PerspectiveAntioxidants & Redox Signaling 2018; 28(9): 852 doi: 10.1089/ars.2017.7147
5
R R Vethanayagam, W Yang, Y Dong, B H Hu. Toll-like receptor 4 modulates the cochlear immune response to acoustic injuryCell Death & Disease 2016; 7(6): e2245 doi: 10.1038/cddis.2016.156
6
Silvia Murillo-Cuesta, Lourdes Rodríguez-de la Rosa, Julio Contreras, Adelaida M. Celaya, Guadalupe Camarero, Teresa Rivera, Isabel Varela-Nieto. Transforming growth factor β1 inhibition protects from noise-induced hearing lossFrontiers in Aging Neuroscience 2015; 7 doi: 10.3389/fnagi.2015.00032
7
László Köles, Judit Szepesy, Eszter Berekméri, Tibor Zelles. Purinergic Signaling and Cochlear Injury-Targeting the Immune System?International Journal of Molecular Sciences 2019; 20(12): 2979 doi: 10.3390/ijms20122979
8
Randall Reynolds, Angela Garner, John Norton. Sound and Vibration as Research Variables in Terrestrial Vertebrate ModelsILAR Journal 2019; 60(2): 159 doi: 10.1093/ilar/ilaa004
9
Markus Suckfuell, Grazyna Lisowska, Wojciech Domka, Anna Kabacinska, Krzysztof Morawski, Robert Bodlaj, Petr Klimak, Rom Kostrica, Thomas Meyer. Efficacy and Safety of AM-111 in the Treatment of Acute Sensorineural Hearing LossOtology & Neurotology 2014; 35(8): 1317 doi: 10.1097/MAO.0000000000000466
10
Bo Hua Hu, Celia Zhang, Mitchell D. Frye. Immune cells and non-immune cells with immune function in mammalian cochleaeHearing Research 2018; 362: 14 doi: 10.1016/j.heares.2017.12.009
11
M. Kossowski. Traumi acustici acutiEMC - Otorinolaringoiatria 2017; 16(1): 1 doi: 10.1016/S1639-870X(16)81842-5
12
Pei-Ciao Tang, Glen M. Watson. Proteomic identification of hair cell repair proteins in the model sea anemone Nematostella vectensisHearing Research 2015; 327: 245 doi: 10.1016/j.heares.2015.07.005
13
Francisco Alves de Sousa, Rodrigo Pinto Costa, Sandra Xará, Ana Nóbrega Pinto, Cecília Almeida e Sousa. SARS-CoV-2 and hearing: An audiometric analysis of COVID-19 hospitalized patientsJournal of Otology 2021; 16(3): 158 doi: 10.1016/j.joto.2021.01.005
14
Abraham Shulman, Weihua Wang, Hao Luo, Shaowen Bao, Grant Searchfield, Jinsheng Zhang. The Behavioral Neuroscience of TinnitusCurrent Topics in Behavioral Neurosciences 2021; 51: 161 doi: 10.1007/7854_2021_238
15
Winston J. T. Tan, Peter R. Thorne, Srdjan M. Vlajkovic. Characterisation of cochlear inflammation in mice following acute and chronic noise exposureHistochemistry and Cell Biology 2016; 146(2): 219 doi: 10.1007/s00418-016-1436-5
16
Leila Abbas, Marcelo N. Rivolta. The use of animal models to study cell transplantation in neuropathic hearing lossHearing Research 2019; 377: 72 doi: 10.1016/j.heares.2019.03.014
17
Judit Szepesy, Gabriella Miklós, János Farkas, Dániel Kucsera, Zoltán Giricz, Anita Gáborján, Gábor Polony, Ágnes Szirmai, László Tamás, László Köles, Zoltán V. Varga, Tibor Zelles. Anti-PD-1 Therapy Does Not Influence Hearing Ability in the Most Sensitive Frequency Range, but Mitigates Outer Hair Cell Loss in the Basal Cochlear RegionInternational Journal of Molecular Sciences 2020; 21(18): 6701 doi: 10.3390/ijms21186701
18
Adelaida M. Celaya, Lourdes Rodríguez-de la Rosa, Jose M. Bermúdez-Muñoz, José M. Zubeldia, Carlos Romá-Mateo, Carlos Avendaño, Federico V. Pallardó, Isabel Varela-Nieto. IGF-1 Haploinsufficiency Causes Age-Related Chronic Cochlear Inflammation and Increases Noise-Induced Hearing LossCells 2021; 10(7): 1686 doi: 10.3390/cells10071686
19
Pietro Ghezzi, Luciano Floridi, Diana Boraschi, Antonio Cuadrado, Gina Manda, Snezana Levic, Fulvio D’Acquisto, Alice Hamilton, Toby Athersuch, Liza Selley. Oxidative Stress and Inflammation Induced by Environmental and Psychological Stressors: A Biomarker PerspectiveSSRN Electronic Journal 2018;  doi: 10.2139/ssrn.3862342
20
Shichang Li, Hongwei Zheng, Zhimin Xing, Yan Liu, Lin Han, Zijing Wang, Lisheng Yu. The circadian timing of noise exposure influences noise-induced inflammatory responses in the mouse cochleaBrazilian Journal of Otorhinolaryngology 2021;  doi: 10.1016/j.bjorl.2021.05.010
21
Noa Peeleman, Dorien Verdoodt, Peter Ponsaerts, Vincent Van Rompaey. On the Role of Fibrocytes and the Extracellular Matrix in the Physiology and Pathophysiology of the Spiral LigamentFrontiers in Neurology 2020; 11 doi: 10.3389/fneur.2020.580639
22
Qunfeng Cai, R Robert Vethanayagam, Shuzhi Yang, Jonathan Bard, Jennifer Jamison, Daniel Cartwright, Youyi Dong, Bo Hua Hu. Molecular profile of cochlear immunity in the resident cells of the organ of CortiJournal of Neuroinflammation 2014; 11(1) doi: 10.1186/s12974-014-0173-8
23
M. Kossowski. Traumatismos sonoros agudosEMC - Otorrinolaringología 2017; 46(1): 1 doi: 10.1016/S1632-3475(16)82192-X