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Kelly Vasconcelos Chaves Martins & Maria Valéria Schmidt Goffi-Gomez. (2021) The influence of stimulation levels on auditory thresholds and speech recognition in adult cochlear implant users. Cochlear Implants International 22:1, pages 42-48.
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Justine Wathour, Paul J. Govaerts & Naïma Deggouj. (2020) From manual to artificial intelligence fitting: Two cochlear implant case studies. Cochlear Implants International 21:5, pages 299-305.
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Terry B. Nunn, Dan Jiang, Tim Green, Patrick J. Boyle & Deborah A. Vickers. (2019) A systematic review of the impact of adjusting input dynamic range (IDR), electrical threshold (T) level and rate of stimulation on speech perception ability in cochlear implant users. International Journal of Audiology 58:6, pages 317-325.
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Tobias Rader, Philipp Doms, Youssef Adel, Tobias Weissgerber, Sebastian Strieth & Uwe Baumann. (2018) A method for determining precise electrical hearing thresholds in cochlear implant users. International Journal of Audiology 57:7, pages 502-509.
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Rolf-Dieter Battmer, Stephanie Borel, Martina Brendel, Andreas Buchner, Huw Cooper, Claire Fielden, Dzemal Gazibegovic, Romy Goetze, Paul Govaerts, Katherine Kelleher, Thomas Lenartz, Isabelle Mosnier, Joanne Muff, Terry Nunn, Bart Vaerenberg & Zebunissa Vanat. (2015) Assessment of ‘Fitting to Outcomes Expert’ FOX™ with new cochlear implant users in a multi-centre study. Cochlear Implants International 16:2, pages 100-109.
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Andreas Buechner, Bart Vaerenberg, Dzemal Gazibegovic, Martina Brendel, Geert De Ceulaer, Paul Govaerts & Thomas Lenarz. (2015) Evaluation of the ‘Fitting to Outcomes eXpert’ (FOX®) with established cochlear implant users. Cochlear Implants International 16:1, pages 39-46.
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Patrick J Boyle & Brian C J Moore. (2015) Balancing cochlear implant AGC and near-instantaneous compression to improve perception of soft speech. Cochlear Implants International 16:sup1, pages S9-S11.
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Articles from other publishers (29)
Alice Henton & Rachel Glade. (2023) Graduate-Level Training of Speech-Language Pathologists for the Provision of Auditory Rehabilitation. Perspectives of the ASHA Special Interest Groups 8:3, pages 455-463.
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Andrew J. Vermiglio. (2023) A Critique of the National Academies of Sciences, Engineering, and Medicine Report (2021) and the Diagnostic Accuracy of Measurements of Functional Hearing Ability. American Journal of Audiology 32:2, pages 477-485.
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Toru Sonoyama, Takashi Ishino, Takashi Oda, Yuichiro Horibe, Nobuyuki Chikuie, Takashi Kono, Takayuki Taruya, Takao Hamamoto, Tsutomu Ueda & Sachio Takeno. (2022) Effectiveness of Expanded Instantaneous Input Dynamic Range Adjustment on Speech Perception. Journal of Personalized Medicine 12:11, pages 1860.
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Crossref
Sungmin Lee & Soo Jung Lee. (2022) Perceptual Loudness Growth in Cochlear Implant Users. Audiology and Speech Research 18:2, pages 109-117.
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Robert Ernst, Maximilian Linxweiler, Katharina Anna Rink, Heike Rothe, Gregory Lecomte, Alessandro Bozzato & Dietmar Hecker. (2021) Neurophysiologische Parameter zum Sprachverstehen von Patienten mit Cochlea-Implantaten. Laryngo-Rhino-Otologie 101:03, pages 216-227.
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Crossref
Justine Wathour, Paul J. Govaerts & Naïma Deggouj. (2021) Variability of fitting parameters across cochlear implant centres. European Archives of Oto-Rhino-Laryngology 278:12, pages 4671-4679.
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Crossref
Steven C. Marcrum, Erin M. PicouChristopher Bohr & Thomas Steffens. (2021) Activating a Noise-Gating Algorithm and Personalizing Electrode Threshold Levels Improve Recognition of Soft Speech for Adults With CIs. Ear & Hearing 42:5, pages 1208-1217.
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Ali Saeedi, Ludwig Englert & Werner Hemmert. (2021) eABR THR Estimation Using High-Rate Multi-Pulse Stimulation in Cochlear Implant Users. Frontiers in Neuroscience 15.
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Floris Heutink, Berit M. Verbist, Willem-Jan van der Woude, Tamara J. Meulman, Jeroen J. Briaire, Johan H. M. Frijns, Priya VartEmmanuel A. M. Mylanus & Wendy J. Huinck. (2021) Factors Influencing Speech Perception in Adults With a Cochlear Implant. Ear & Hearing 42:4, pages 949-960.
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Crossref
Kelly Vasconcelos Chaves Martins, Maria Valéria Schmidt Goffi-Gomez, Robinson Koji Tsuji & Ricardo Ferreira Bento. (2021) Do the minimum and maximum comfortable stimulation levels influence the cortical potential latencies or the speech recognition in adult cochlear implant users?. Hearing Research 404, pages 108206.
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Crossref
Kristi Hendrickson, Jacob Oleson & Elizabeth Walker. (2021) School‐Age Children Adapt the Dynamics of Lexical Competition in Suboptimal Listening Conditions. Child Development 92:2, pages 638-649.
Crossref
Crossref
H. Christiaan Stronks, Eline Apperloo, Raphael Koning, Jeroen J. Briaire & Johan H. M. Frijns. (2021) SoftVoice Improves Speech Recognition and Reduces Listening Effort in Cochlear Implant Users. Ear & Hearing 42:2, pages 381-392.
Crossref
Crossref
Rachel Glade, Erin Taylor, Deborah S. Culbertson & Christin Ray. (2020) Overview of Current Approaches to Aural Rehabilitation for Adults With Cochlear Implants. Perspectives of the ASHA Special Interest Groups 5:5, pages 1175-1187.
Crossref
Crossref
Feike de Graaff, Birgit I. Lissenberg-WitteMarre W. Kaandorp, Paul Merkus, S. Theo Goverts, Sophia E. Kramer & Cas Smits. (2020) Relationship Between Speech Recognition in Quiet and Noise and Fitting Parameters, Impedances and ECAP Thresholds in Adult Cochlear Implant Users. Ear & Hearing 41:4, pages 935-947.
Crossref
Crossref
Kristi Hendrickson, Jessica Spinelli & Elizabeth Walker. (2020) Cognitive processes underlying spoken word recognition during soft speech. Cognition 198, pages 104196.
Crossref
Crossref
Johannes Plesch, Benjamin P. Ernst, Sebastian Strieth & Tobias Rader. (2019) A psychoacoustic application for the adjustment of electrical hearing thresholds in cochlear implant patients. PLOS ONE 14:10, pages e0223625.
Crossref
Crossref
Tarek A. Ghannoum, Mona H. Selim, Amira M. El-Shennawy & Zahraa M. Elbohy. (2019) Effect of different input dynamic range variables on cochlear implant performance in postlingual cochlear implant in adults. Otorinolaringologia 69:3.
Crossref
Crossref
Laura K. Holden, Jill B. Firszt, Ruth M. Reeder, Noël Y. Dwyer, Amy L. SteinLeo M. Litvak. (2019) Evaluation of a New Algorithm to Optimize Audibility in Cochlear Implant Recipients. Ear & Hearing 40:4, pages 990-1000.
Crossref
Crossref
Shuman He, Holly F. B. Teagle & Craig A. Buchman. (2017) The Electrically Evoked Compound Action Potential: From Laboratory to Clinic. Frontiers in Neuroscience 11.
Crossref
Crossref
Aaron C. Moberly, Michael S. Harris, Lauren Boyce & Susan Nittrouer. (2017) Speech Recognition in Adults With Cochlear Implants: The Effects of Working Memory, Phonological Sensitivity, and Aging. Journal of Speech, Language, and Hearing Research 60:4, pages 1046-1061.
Crossref
Crossref
. 2016. ANSI/AAMI CI86:2017; Cochlear implant systems: Requirements for safety, functional verification, labeling and reliability reporting. ANSI/AAMI CI86:2017; Cochlear implant systems: Requirements for safety, functional verification, labeling and reliability reporting.
Aaron C. Moberly, Derek M. Houston & Irina Castellanos. (2016) Non‐auditory neurocognitive skills contribute to speech recognition in adults with cochlear implants. Laryngoscope Investigative Otolaryngology 1:6, pages 154-162.
Crossref
Crossref
Shuman HeTyler C. McFaydenHolly F. B. TeagleMatthew EwendLillian HendersonCraig A. Buchman. (2016) Electrically Evoked Auditory Event-Related Responses in Patients with Auditory Brainstem Implants: Morphological Characteristics, Test–Retest Reliability, Effects of Stimulation Level, and Association with Auditory Detection. Ear & Hearing 37:6, pages 634-649.
Crossref
Crossref
Matthias Hey, Thomas Hocke, Stefan Mauger & Joachim Müller-Deile. (2016) A clinical assessment of cochlear implant recipient performance: implications for individualized map settings in specific environments. European Archives of Oto-Rhino-Laryngology 273:11, pages 4011-4020.
Crossref
Crossref
Michelle L. Hughes, Jenny L. Goehring, Jacquelyn L. Baudhuin & Kendra K. Schmid. (2016) Effects of stimulus level and rate on psychophysical thresholds for interleaved pulse trains in cochlear implants. The Journal of the Acoustical Society of America 140:4, pages 2297-2311.
Crossref
Crossref
Shaokui Weng, Weibin Rong, Zeyang Xia, Hao Deng, Yangzhou Gan & Jing Xiong. (2016) System development for micro-electrode assembly of cochlear implant. System development for micro-electrode assembly of cochlear implant.
Ahmed Khater, Amira El Shennaway & Ahmed Anany. (2015) Improvement of cochlear implant performance: changes in dynamic range. The Egyptian Journal of Otolaryngology 31:1, pages 36-41.
Crossref
Crossref
Feddo B. van der Beek, Jeroen J. Briaire & Johan H.M. Frijns. (2015) Population-Based Prediction of Fitting Levels for Individual Cochlear Implant Recipients. Audiology and Neurotology 20:1, pages 1-16.
Crossref
Crossref
Theodore R. McRackan, Ramya Balachandran, Grégoire S. Blachon, Jason E. Mitchell, Jack H. Noble, Charles G. Wright, J. Michael Fitzpatrick, Benoit M. Dawant & Robert F. Labadie. (2013) Validation of minimally invasive, image-guided cochlear implantation using Advanced Bionics, Cochlear, and Medel electrodes in a cadaver model. International Journal of Computer Assisted Radiology and Surgery 8:6, pages 989-995.
Crossref
Crossref