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Human brain mapping
Aug, 2009;30 (8): 2401-11.

Contribution of the anterior insula to temporal auditory processing deficits in developmental dyslexia.

Claudia Steinbrink, Hermann Ackermann, Thomas Lachmann, Axel Riecker
Author Information
  1. Claudia Steinbrink: Department of Psychology II, Faculty of Social Sciences, University of Kaiserslautern, Kaiserslautern, Germany.
PMID: 19072896 DOI: 10.1002/hbm.20674

Abstract

Developmental dyslexia has been assumed to arise from general auditory deficits, compromising rapid temporal integration both of linguistic and nonlinguistic acoustic stimuli. Because the effort of auditory temporal processing of speech and nonspeech test materials may depend on presentation rate, fMRI measurements were performed in dyslexics and controls during passive listening to series of syllable and click sounds, using a parametric approach. Controls showed a decrease of hemodynamic brain activation within the right and an increase within the left anterior insula as a function of the presentation rate both of click as well as syllable trains. By contrast, dyslexics exhibited this profile of hemodynamic responses under the nonspeech condition only. As concerns syllables, activation in dyslexics did not depend on presentation rate. Moreover, a subtraction analysis of hemodynamic main effects across conditions and groups revealed decreased activation both of the left and right anterior insula in dyslexics compared to controls during application both of click and syllables. These results indicate, in line with preceding studies, that the insula of both hemispheres is involved in auditory temporal processing of nonlinguistic auditory stimuli and demonstrate, furthermore, that these operations of intrasylvian cortex also extend to the linguistic domain. In addition, our data suggest that the anterior insula represents an important neural correlate of deficient temporal processing of speech and nonspeech sounds in dyslexia.

References

  1. Nat Neurosci. 2005 Jul;8(7):862-3 [PMID: 15924138]
  2. Ann Neurol. 1999 Apr;45(4):495-503 [PMID: 10211474]
  3. Neuroreport. 2001 May 8;12(6):1195-201 [PMID: 11338191]
  4. Trends Cogn Sci. 2002 Jan 1;6(1):37-46 [PMID: 11849614]
  5. Neuroreport. 2001 Dec 21;12(18):4087-92 [PMID: 11742243]
  6. Neuroreport. 2002 Jul 19;13(10):1285-9 [PMID: 12151788]
  7. J Neurosci. 2006 Aug 23;26(34):8647-52 [PMID: 16928852]
  8. Brain Res Brain Res Rev. 2003 May;42(2):143-54 [PMID: 12738055]
  9. Dyslexia. 2007 Aug;13(3):175-92 [PMID: 17624911]
  10. Psychol Bull. 2007 Jul;133(4):651-72 [PMID: 17592960]
  11. Dyslexia. 2006 Feb;12(1):3-20 [PMID: 16512170]
  12. Ann N Y Acad Sci. 1993 Jun 14;682:27-47 [PMID: 7686725]
  13. J Speech Lang Hear Res. 2003 Feb;46(1):80-97 [PMID: 12647890]
  14. J Learn Disabil. 1988 Dec;21(10):590-604 [PMID: 2465364]
  15. Cereb Cortex. 2005 Oct;15(10):1621-31 [PMID: 15703256]
  16. Brain Lang. 1980 Mar;9(2):182-98 [PMID: 7363063]
  17. Proc Natl Acad Sci U S A. 2000 Dec 5;97(25):13907-12 [PMID: 11095716]
  18. Psychon Bull Rev. 1995 Dec;2(4):460-93 [PMID: 24203785]
  19. Brain. 1996 Feb;119 ( Pt 1):143-57 [PMID: 8624677]
  20. J Exp Child Psychol. 1983 Apr;35(2):345-67 [PMID: 6842131]
  21. J Cogn Neurosci. 2002 Aug 15;14(6):902-12 [PMID: 12191457]
  22. J Cogn Neurosci. 1995 Summer;7(3):357-75 [PMID: 23961866]
  23. Neuroreport. 2006 Jul 17;17(10):1051-5 [PMID: 16791102]
  24. N Engl J Med. 1998 Jan 29;338(5):307-12 [PMID: 9445412]
  25. Cogn Neuropsychol. 2005 Jul;22(5):499-522 [PMID: 21038263]
  26. Neuroreport. 1998 Jan 26;9(2):337-40 [PMID: 9507979]
  27. J Exp Psychol Hum Percept Perform. 1983 Dec;9(6):923-935 [PMID: 6227701]
  28. Neuroimage. 2003 May;19(1):64-79 [PMID: 12781727]
  29. Restor Neurol Neurosci. 2007;25(3-4):295-310 [PMID: 17943007]
  30. Neuropsychologia. 2000;38(7):935-43 [PMID: 10775704]
  31. Neuroimage. 2004 Jan;21(1):154-62 [PMID: 14741652]
  32. Int J Psychophysiol. 2005 May;56(2):105-20 [PMID: 15804446]
  33. Neuropsychologia. 1971 Mar;9(1):97-113 [PMID: 5146491]
  34. Lancet. 2004 May 1;363(9419):1451-60 [PMID: 15121410]
  35. Cereb Cortex. 2006 Sep;16(9):1266-75 [PMID: 16280465]
  36. Neuropsychologia. 2005;43(5):714-23 [PMID: 15721184]
  37. Brain Lang. 2007 Jul;102(1):80-90 [PMID: 16887180]
  38. Cortex. 2006 May;42(4):644-51 [PMID: 16881272]
  39. Neuropsychologia. 2008 Nov;46(13):3170-8 [PMID: 18692514]
  40. Biol Psychiatry. 2005 Jun 1;57(11):1301-9 [PMID: 15950002]

MeSH Term

Acoustic Stimulation
Auditory Perception
Brain
Brain Mapping
Dyslexia
Female
Humans
Magnetic Resonance Imaging
Male
Parietal Lobe
Phonetics
Speech Perception
Temporal Lobe
Time Factors
Time Perception
Young Adult
Journal Article Research Support, Non-U.S. Gov't
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