Investigate the Ability to Auditory Temporal Processing in Dyslexic Children

Document Type : Review Articles


1 Associate Professor, Hearing Disorder Research Center AND Department of Audiology, School of Rehabilitation, Hamadan University of Medical Sciences. Hamedan, Iran

2 PhD Student of Audiology, School of Rehabilitation, Hamadan University of Medical Sciences, Hamedan, Iran





  1. Giraud AL, Ramus F. Neurogenetics and auditory processing in developmental dyslexia. Curr Opin Neurobiol 2013; 23(1): 37-42.
  2. Hamalainen JA, Salminen HK, Leppanen PH. Basic auditory processing deficits in dyslexia: Systematic review of the behavioral and event-related potential/ field evidence. J Learn Disabil 2013; 46(5): 413-27.
  3. Ramus F. Developmental dyslexia: Specific phonological deficit or general sensorimotor dysfunction? Curr Opin Neurobiol 2003; 13(2): 212-8.
  4. Cohen-Mimran R, Sapir S. Auditory temporal processing deficits in children with reading disabilities. Dyslexia 2007; 13(3): 175-92.
  5. Murphy CF, Schochat E. How auditory temporal processing deficits relate to dyslexia. Braz J Med Biol Res 2009; 42(7): 647-54.
  6. Amaral MI, Colella-Santos MF. Temporal resolution: performance of school-aged children in the. Braz J Otorhinolaryngol 2010; 76(6): 745-52.
  7. White-Schwoch T, Woodruff CK, Thompson EC, Anderson S, Nicol T, Bradlow AR, et al. Auditory processing in noise: a preschool biomarker for literacy. PLoS Biol 2015; 13(7): e1002196.
  8. Iliadou V, Kaprinis S, Kandylis D, Kaprinis GS. Hemispheric laterality assessment with dichotic digits testing in dyslexia and auditory processing disorder. Int J Audiol 2010; 49(3): 247-52.
  9. Jirsa RE. The clinical utility of the P3 AERP in children with auditory processing disorders. J Speech Hear Res 1992; 35(4): 903-12.
  10. Moncrieff DW, Musiek FE. Interaural asymmetries revealed by dichotic listening tests in normal and dyslexic children. J Am Acad Audiol 2002; 13(8): 428-37.
  11. Musiek FE, Shinn JB, Jirsa R, Bamiou DE, Baran JA, Zaida E. GIN (Gaps-In-Noise) test performance in subjects with confirmed central auditory nervous system involvement. Ear Hear 2005; 26(6): 608-18.
  12. Carey J, Amin N. Evolutionary changes in the cochlea and labyrinth: Solving the problem of sound transmission to the balance organs of the inner ear. Anat Rec A Discov Mol Cell Evol Biol 2006; 288(4): 482-9.
  13. Wang X. The harmonic organization of auditory cortex. In: Lopez-Poveda EA, Meddis R, Palmer AR, editors. The neurophysiological bases of auditory perception. New York, NY: Springer Science+Business Media; 2010. p. 211-22.
  14. Abrams DA, Kraus N. Auditory pathway representations of speech sounds in humans. Handbook of clinical audiology. Taylor and Francis Inc.; 2014. p. 527-44.
  15. Burkard R, Secor S. Overview of auditory evoked potentials. In: Katz J, Ed. In: Katz J, editors. Issues in hand book of clinical audiology. 6th Philadelphia. PA: Lippincott Williams and Wilkins; 2002;(3): 233-49
  16. Hartley D, King AJ. Development of the auditory pathway. In: Palmer AR, Rees A, editors. The Oxford handbook of auditory science: The auditory brain. Oxford, UK: Oxford Academic; 2010. p. 361-86.
  17. Tallal P, Fitch RH. Central auditory processing and language learning impairments: implications for neuroplasticity research. In: Syka J, Merzenich MM, editors. Plasticity and signal representation in the auditory system. New York, NY: Springer; 2005. p. 355-85.
  18. Kraus N, Nicol T. Brainstem origins for cortical 'what' and 'where' pathways in the auditory system. Trends Neurosci 2005; 28(4): 176-81.
  19. Skoe E, Kraus N. Auditory brain stem response to complex sounds: A tutorial. Ear Hear 2010; 31(3): 302-24.
  20. Ghitza O, Greenberg S. Intelligibility of time-compressed speech with periodic and aperiodic insertions of silence: Evidence for endogenous brain rhythms in speech perception? New York, NY: Springer; 2010 p. 393-405.
  21. Ikeda Y, Yahata N, Takahashi H, Koeda M, Asai K, Okubo Y, et al. Cerebral activation associated with speech sound discrimination during the diotic listening task: An fMRI study. Neurosci Res 2010; 67(1): 65-71.
  22. Mukari SZ, Mamat WH. Medial olivocochlear functioning and speech perception in noise in older adults. Audiol Neurootol 2008; 13(5): 328-34.
  23. Walker MM, Shinn JB, Cranford JL, Givens GD, Holbert D. Auditory temporal processing performance of young adults with reading disorders. J Speech Lang Hear Res 2002; 45(3): 598-605.
  24. Yilmaz ST, Sennaroglu G, Sennaroglu L, Kose SK. Effect of age on speech recognition in noise and on contralateral transient evoked otoacoustic emission suppression. J Laryngol Otol 2007; 121(11): 1029-34.
  25. Kujala T, Brattico E. Detrimental noise effects on brain's speech functions. Biol Psychol 2009; 81(3): 135-43.
  26. Galaburda AM, Menard MT, Rosen GD. Evidence for aberrant auditory anatomy in developmental dyslexia. Proc Natl Acad Sci USA 1994; 91(17): 8010-3.
  27. Moncrieff DW, Musiek FE. Interaural asymmetries revealed by dichotic listening tests in normal and dyslexic children. J Am Acad Audiol 2002; 13(8): 428-37.
  28. Musiek FE, Bellis TJ, Chermak GD. Nonmodularity of the central auditory nervous system: implications for (central) auditory processing disorder. Am J Audiol 2005; 14(2): 128-38.
  29. Moncrieff DW, Black JR. Dichotic listening deficits in children with dyslexia. Dyslexia 2008; 14(1): 54-75.
  30. Kumar P, Singh NK, Ghosh VPG. Behavioral assessment of children at risk of central auditory processing disorder without reading deficits. J Hear Sci 2013; 3(4): 49-55.
  31. Halliday LF, Bishop DV. Auditory frequency discrimination in children with dyslexia. J Res Read 2006; 29(2): 213-28.
  • Receive Date: 26 November 2021
  • Accept Date: 16 March 2023
  • First Publish Date: 16 March 2023