Open Access
Scientific Article
Issue
Acta Acust.
Volume 5, 2021
Article Number 34
Number of page(s) 10
Section Hearing, Audiology and Psychoacoustics
DOI https://doi.org/10.1051/aacus/2021028
Published online 09 August 2021
  1. P.J. Jastreboff: Phantom auditory perception (tinnitus): Mechanisms of generation and perception. Neuroscience Research 8 (1990) 221–254. [Google Scholar]
  2. J.J. Eggermont, P.A. Tass: Maladaptive neural synchrony in tinnitus: Origin and restoration. Frontiers in Neurology 6 (2015) 29. [Google Scholar]
  3. A.F. Holm, M.J. Staal, J.J.A. Mooij, F.W.J. Albers: Neurostimulation as a new treatment for severe tinnitus: A pilot study. Otology & Neurotology 26 (2005) 425–428. [Google Scholar]
  4. J. Zhang: Auditory cortex stimulation to suppress tinnitus: Mechanisms and strategies. Hearing Research 295 (2013) 38–57. [Google Scholar]
  5. F.G. Zeng, Q. Tang, A. Dimitrijevic, A. Starr, J. Larki, N.H. Blevins: Tinnitus suppression by low-rate electric stimulation and its electrophysiological mechanisms. Hearing Research 277 (2011) 61–66. [Google Scholar]
  6. P. Van de Heyning, O. Meeus, C. Blaivie, K. Vermeire, A. Boudewyns, D. De Ridder: Tinnitus: A multidisciplinary clinical approach. B-ENT 3 (2007) 3–10. [Google Scholar]
  7. D.A. Hall, H. Haider, D. Kikidis, M. Mielczarek, B. Mazurek, A.J. Szczepek, C.R. Cederroth: Toward a global consensus on outcome measures for clinical trials in tinnitus. Trends in Amplification 19 (2015) 1–7. [Google Scholar]
  8. N. Weisz, S. Voss, P. Berg, T. Elbert: Abnormal auditory mismatch response in tinnitus sufferers with high-frequency hearing loss is associated with subjective distress level. BMC Neuroscience 5 (2004) 1–9. [Google Scholar]
  9. C. Herráiz, J. Hernández: Acúfenos. Actualización. Ars Medica, Madrid, 2002. (in Spanish). [Google Scholar]
  10. M.A. López, F. Esteban: Acúfeno como señal de malestar. Amplifón, Granada, 2010. (in Spanish). [Google Scholar]
  11. M. Knipper, P. Van Dijk, I. Nunes, L. Rüttiger, U. Zimmermann: Advances in the neurobiology of hearing disorders: Recent developments regarding the basis of tinnitus and hyperacusis. Progress in Neurobiology 111 (2013) 17–33. [Google Scholar]
  12. B. Gourevitch, J.M. Edeline, F. Occelli, J.J. Eggermont: Is the din really harmless? Long-term effects of non-traumatic noise on the adult auditory system. Nature Reviews in Neuroscience 15 (2014) 483–491. [Google Scholar]
  13. M.M. Vio, R.H. Holme: Hearing loss and tinnitus: 250 million people and US10 billion potential market. Drugs Discovery Today 10 (2005) 1263–1265. [Google Scholar]
  14. N. Weisz, T. Hartmann, K. Dohrmann, W. Schlee, A. Noreña: High-frequency tinnitus without hearing loss does not mean absence of deafferentation. Hearing Research 222 (2006) 108–114. [Google Scholar]
  15. B.T. Paul, I.C. Bruce, L.E. Roberts: Evidence that hidden hearing loss underlies amplitude modulation encoding deficits in individuals with and without tinnitus. Hearing Research 344 (2017) 170–182. [Google Scholar]
  16. J.J. Eggermont: The neuroscience of tinnitus. Oxford University Press, London, 2012. [Google Scholar]
  17. A.J. Noreña, J.J. Eggermont: Enriched acoustic environment alter noise trauma reduces hearing loss and prevents cortical map reorganization. The Journal of Neuroscience 25 (2005) 699–705. [Google Scholar]
  18. J.P. Rauschecker, A.M. Leaver, M. Muhlau: Tuning out the noise: Limbic-auditory interactions in tinnitus. Neuron 66 (2010) 819–826. [Google Scholar]
  19. M.L. Lenhardt: Tinnitus devices, in Encyclopedia of Biomaterials and Biomedical Engineering, Wnek GE, Bowling GL, Editors. CRC Press, Boca Raton, 2008, pp. 2610–2619. [Google Scholar]
  20. G.D. Searchfield, M. Durai, T. Linford: A state-of-the-art review: Personalization of tinnitus sound therapy. Frontiers in Psychology 8 (2017) 1599. [Google Scholar]
  21. M. Sereda, J. Xia, A. El Refaie, D.A. Hall, D.J. Hoare: Sound therapy (using amplification devices and/or sound generators) for tinnitus in adults (protocol). Cochrane Database of Systematic Reviews 8 (2018) CD013094. [Google Scholar]
  22. M. Pienkowski: Rationale and efficacy of sound therapies for tinnitus and hyperacusis. Neuroscience 407 (2019) 120–134. [Google Scholar]
  23. P.J. Jastreboff: 25 years of tinnitus retraining therapy. HNO 63, 3 (2015) 07–311. [Google Scholar]
  24. P.J. Jastreboff, M.M. Jastreboff: Tinnitus and decreased sound tolerance, in Otorrinolaringology Head and Neck Surgery, Wackym PA, Snow JB, Editors, People’s Medical Publishing House, Shelton. 2016. [Google Scholar]
  25. H. Flor, D. Hoffmann, M. Struve, E. Diesch: Auditory discrimination training for the treatment of tinnitus. Applied Psychophysiology and Biofeedback 29 (2004) 113–120. [Google Scholar]
  26. C. Herráiz, I. Diges, P. Cobo, G. Plaza, J.M. Aparicio: Auditory discrimination therapy (ADT) for the tinnitus management: preliminary results. Acta Oto-Laryngologica 126 (2006) 80–83. [Google Scholar]
  27. C. Herráiz, I. Diges, P. Cobo: Auditory discrmination therapy (ADT) for tinnitus management. Progress in Brain Research 166 (2007) 467–471. [Google Scholar]
  28. C. Herráiz, I. Diges, P. Cobo, J.M. Aparicio: Cortical reorganization and tinnitus: principles of Auditory Discrmination Therapy (ADT) for tinnitus management. European Archives of Oto-Rhino-Laryngology 266 (2009) 9–16. [Google Scholar]
  29. C. Herráiz, I. Diges, P. Cobo, J.M. Aparicio, A. Toledano: Auditory discrimination training for tinnitus treatment: The effect of different paradigms. European Archives of Oto-Rhino-Laryngology 267 (2010) 1067–1074. [Google Scholar]
  30. R.I. Lipman, S.P. Lipman: Phase-shift treatment for predominant tone tinnitus. Otolaryngology-Head and Neck Surgery 136 (2007) 763–768. [Google Scholar]
  31. K. Vermeire, K. Heyndrickx, D. De Ridder, P. Van de Heyning: Phase shift tinnitus treatment: An open prospective clinical trial. B-ENT Supp. 7 (2007) 65–69. [Google Scholar]
  32. P.B. Davis, B. Paki, P.J. Hanley: Neuromonics tinnitus treatment: Third clinical trial. Ear & Hearing 28 (2007) 242–259. [Google Scholar]
  33. H. Okamoto, H. Stracke, W. Stoll, C. Pantev: Listening to tailor-made notched music reduces tinnitus loudness and tinnitus-related auditory cortex activity. Proceedings of the National Academy of Sciences of the United States of America 107 (2010) 1207–1210. [Google Scholar]
  34. H. Stracke, H. Okamoto, C. Pantev: Customized notched music training reduces tinnitus loudness. Communicative & Integrative Biology 3 (2010) 1–4. [Google Scholar]
  35. C. Pantev, H. Okamoto, H. Teinmann: Music-induced cortical plasticity and lateral inhibition in the human auditory cortex as foundations for tonal tinnitus treatment. Frontiers in Systems Neuroscience 6 (2012) 50. [Google Scholar]
  36. I. Adamchic, C. Hauptmann, P.A. Tass: Changes of oscillatory activity in pitch processing network and related tinnitus relief induced by acoustic CR neuromodulation. Frontiers in Systems Neuroscience 6 (2012) 18. [Google Scholar]
  37. P.A. Tass, O.V. Popovych: Unlearning tinnitus-related cerebral synchrony with acoustic coordinated reset stimulation: Theoretical concept and modelling. Biological Cybernetics 106 (2012) 27–36. [Google Scholar]
  38. W. Wurzer, C. Hauptmann: Clinical experiences with acoustic CR neuromodulation in patients with chronic tinnitus. Journal of Clinical Studies & Medical Case Reports 5 (2018) 059. [Google Scholar]
  39. R.W. Sweetow, J.H. Sabes: Effects of acoustical stimuli delivered through hearing aids on tinnitus. Journal of the American Academy of Audiology 21 (2010) 461–473. [Google Scholar]
  40. M. Herzfeld, E. Ciurlia-Guy, R.W. Sweetow: Clinical trial on the effectiveness of Widex Zen Therapy for tinnitus. Hearing Review 21 (2014) Available at: http://www.hearingreview.com/2014/10/clinical-trial-effectiveness-widex-zen-therapy-tinnitus. [Google Scholar]
  41. D.J. McFerran, D. Stckdale, R. Holme, C.H. Large, D.M. Baguley Why is there no cure for tinnitus?. Frontiers in Neuroscience 13 (2019) 802. [Google Scholar]
  42. K.S. Kraus, B. Canlon: Neuronal connectivity and interactions between the auditory and limbic systems. Effects of noise and tinnitus. Hearing Research 288 (2012) 34–46. [Google Scholar]
  43. A.M. Leaver, L. Renier, M.A. Chevillet, S. Morgan, H.J. Kim, J.P. Rauschecker: Dysregulation of limbic and auditory networks in tinnitus. Neuron 69 (2011) 33–43. [Google Scholar]
  44. J.A. Henry, M.A. Schechter, T.L. Zaugg, S. Griest, P.J. Jastreboff, J.A. Vernon, C. Kaelin, M.B. Meikle, K.S. Lyons, B.J. Stewart: Outcomes of clinical trial: Tinnitus masking versus tinnitus retraining therapy. Journal of the American Academy of Audiology 17 (2006) 104–132. [Google Scholar]
  45. R. Schaette, R. Kempter: Development of tinnitus-related neuronal hyperactivity through homeostatic plasticity after hearing loss: A computational model. European Journal of Neuroscience 23 (2006) 3124–3138. [Google Scholar]
  46. R. Schaette, R. Kempter: Development of hyperactivity after hearing loss in a computational model of the dorsal cochlear nucleus depends on neuron response type. Hearing Research 240 (2008) 57–72. [Google Scholar]
  47. A.J. Noreña, S. Chery-Croze: Enriched acoustic environment rescales auditory sensitivity. NeuroReport 18 (2007) 1251–1255. [Google Scholar]
  48. C. Herráiz, I. Diges, P. Cobo, A.J. Noreña, J. Hernández, J.M. Aparicio: Enriched acoustic environment with spectrum matched to the patient hearing loss curve for tinnitus sound therapy, in International Tinnitus Seminar, Florianopolis (Brasil). 2011. [Google Scholar]
  49. D.J. Hermes, J.J. Eggermont, A.M.H.J. Aertsen, P.I.M. Johannesma: Spectro-temporal characteristics of single units in the auditory midbrain of slightly anaesthetised grass fogs investigated with tone stimuli. Hearing Research 6 (1983) 103–126. [Google Scholar]
  50. A.J. Noreña, J.J. Eggermont: Changes in spontaneous neural activity immediately after an acoustic trauma: Implication for neural correlates of tinnitus. Hearing Research 183 (2003) 137–153. [Google Scholar]
  51. T.S. Korn: Theory of audio information. Acustica 22 (1969/70) 336–344. [Google Scholar]
  52. M. Slaney: An efficient implementation of the Patterson-Holdsworth auditory filter bank. Apple Computer Technical Report #35, Apple Computer Inc., 1993. [Google Scholar]
  53. T. Irino, R.D. Patterson: A time-domain, level-independent auditory filter: The gammachirp. Journal of the Acoustical Society of America 101 (1997) 412–419. [Google Scholar]
  54. R.F. Lyon, All-pole models of auditory filtering, in Diversity in Auditory Mechanics, E.R. Lewis, G.R. Long, R.F. Lyon, P.M. Narins, C.R. Steele, E. Hecht-Poinar, Editors, World Scientific Publishing, Singapore. 1997. [Google Scholar]
  55. A.G. Katsiamis, E.M. Drakakis, R.F. Lyon: Practical gammatone-like filters for auditory processing. EURASIP Journal of Audio Speech and Music Processing (2007). 63685. [Google Scholar]
  56. R.D. Patterson: The sound of a sinusoid: Spectral models. Journal of the Acoustical Society of America 96 (1994) 1409–1418. [Google Scholar]
  57. A.C. Lindblad, U. Rosenhall, A. Oloffson, B. Hagerman: Tinnitus and other auditory problems – Occupational noise exposure below risk limits may cause inner ear dysfunction. PLoS One 9 (2014) e97377. [Google Scholar]
  58. M.C. Liberman, S.G. Kujawa: Cochlear synaptopathy in acquired sensorineural hearing loss: Manifestations and mechanisms. Hearing Research 349 (2017) 138–147. [Google Scholar]
  59. M. Cuesta, P. Cobo: Broadband sound equalized by the hearing loss curves as an improved stimulus for tinnitus retraining therapy – A pilot, non-controlled observational study. The Journal of International Advanced Otology 16, 2 (2020) 207–212. [Google Scholar]
  60. P. Cobo: Successful application of sound therapy to a patient with severe tinnitus: Case study. Journal of Otolaryngology, Head & Neck Surgery 7 (2021) 051. [Google Scholar]
  61. C.W. Newman, S.A. Sandridge, G.P. Jacobson: Psychometric adequacy of the tinnitus handicap inventory (THI) for evaluating treatment outcome. Journal of the American Academy of Audiology 9 (1998) 153–160. [Google Scholar]
  62. C. Herráiz, F.J. Hernández Calvín, G. Plaza, M.C. Tapia, G. de los Santos: Evaluación de la incapacidad en los pacientes con acufenos [Handicap assessment in tinnitus patients]. Acta Otorrinolaringológica Española 52 (2001) 534–538. (in Spanish). [Google Scholar]
  63. A. McCombe, D. Baguley, R. Coles, L. McKenna, C. McKinney, P. Windle-Taylor: Guidelines for the grading of tinnitus severity: The results of a working group commissioned by the British Association of Otolaryngologists, Head and Neck Surgeons. Clinical Otolaryngology & Allied Sciences 26, 2001 (1999) 388–393. [Google Scholar]

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