ORIGINAL ARTICLE
CENTRAL AUDITORY PROCESSES PREDICT READING ABILITIES OF CHILDREN WITH DEVELOPMENTAL DYSLEXIA
 
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1
World Hearing Center, Institute of Physiology and Pathology of Hearing, Kajetany, Poland
 
2
Children’s Memorial Health Institute, Warsaw, Poland
 
3
Brigham Young University, Provo, Utah, USA
 
4
University of Social Sciences and Humanities, Warsaw, Poland
 
 
Publication date: 2013-06-30
 
 
Corresponding author
Monika Lewandowska   

Monika Lewandowska, World Hearing Center, Institute of Physiology and Pathology of Hearing, Mokra 17 Str., 05-830 Nadarzyn, Kajetany, Tel +48 22 356 03 49, Fax: +48 22 356 03 67, e-mail: m.lewandowska@ifps.org.pl
 
 
J Hear Sci 2013;3(2):30-40
 
KEYWORDS
ABSTRACT
Background:
In this paper we showed predictive relationships between central auditory processes, phonological abilities, and reading abilities in children diagnosed with developmental dyslexia (DD). Both empirical data and theoretical approaches indicate that central auditory processing deficits may contribute to developmental dyslexia; however, associations between reading and phonological skills and central auditory processes remain unclear.

Material and Methods:
Exactly 57 children with dyslexia and 40 age- and gender-matched normal reading children performed reading, phonological, and auditory information processing tests, i.e. the Frequency Pattern Test (FPT), Dichotic Digit Test (DDT), and Gap Detection Test (GDT).

Results:
Dyslexic children showed parallel reading, phonological, and auditory information processing deficits. Principal component analysis, performed in dyslexic and normal reading children to reduce the data set before exploring the predictors of language skills, revealed three factors: 1) ‘Auditory processing’, which received high loadings from phonological, FPT, and DDT for the right ear; 2) ‘Age and Cognition’, including chronological age as well as measures of fluid intelligence and auditory working memory span; and 3) ‘Dichotic listening’ for the left ear. All three factors together best predicted reading regular words in children diagnosed with DD, while ‘Auditory processing’ and ‘Age and cognition’ together explained most of the variance while predicting pseudo-word reading.

Conclusions:
The present study indicates that frequency pattern recognition, dichotic listening for the right year, and phonological awareness are strongly interrelated and constitute the most significant predictor of reading abilities in children diagnosed with dyslexia. The results may have important implications for diagnosis and therapy of language disorders.

 
REFERENCES (55)
1.
ICD-10: The ICD-10 Classification of Mental and Behavioural Disorders: Clinical Description and Diagnostic Guidelines. Geneva: World Health Organization; 2000.
 
2.
Sharma M, Purdy SC, Kelly AS. Comorbidity of auditory processing, language, and reading disorders. J Speech Lang Hear Res, 2009; 52: 706.
 
3.
Rosen S. Auditory processing in dyslexia and specific language impairment: is there a deficit? What is its nature? Does it explain anything? J Phon 2003; 31: 509–27.
 
4.
Van Ingelghem M, Boets B, Van Wieringen A, Onghena P, Ghesquière P, Wouters J. An auditory temporal processing deficit in children with dyslexia. Learn Disabil Chall Teach Instr Ser Stud Paedagog, 2005; 40: 47–63.
 
5.
Bailey PJ, Snowling MJ. Auditory processing and the development of language and literacy. Br Med Bull, 2002; 63: 135–46.
 
6.
Dawes P, Bishop DVM. Psychometric profile of children with auditory processing disorder and children with dyslexia. Arch Dis Child, 2010; 95: 432–36.
 
7.
ASHA: (Central) Auditory Processing Disorders [Technical Report]. Rockville, MD: American Speech-Language-Hearing Association; 2005.
 
8.
Murphy CF, Schochat E. Correlations between reading, phonological awareness and auditory temporal processing. Pro Fono, 2009; 21(1): 13–18.
 
9.
Boscariol M, Guimarães CA, Hage SR, Cendes F, Guerreiro MM. Temporal auditory processing: correlation with developmental dyslexia and cortical malformation. Brain Dev, 2011; 33(10): 824–31.
 
10.
Zaidan E, Baran JA. Gaps-in-noise (GIN©) test results in children with and without reading disabilities and phonological processing deficits. Int J Audiol, 2013; 52: 113–23.
 
11.
Musiek FE, Shinn JB, Jirsa R, Bamiou D-E, Baran JA, Zaida E. GIN (Gaps-In-Noise) test performance in subjects with confirmed central auditory nervous system involvement. Ear Hear, 2005; 26: 608–18.
 
12.
Tallal P, Piercy M. Defects of non-verbal auditory perception in children with developmental aphasia. Nature, 1973; 241: 468–69.
 
13.
Szelag E, Skarzynski H, Senderski A, Lewandowska M. Hearing Loss and Auditory Processing Disorders: Clinical and Experimental Perspectives. In: Han S, Pöppel E. (eds). Culture and Neural Frames of Cognition and Communication. Berlin: Springer, 2011; 153–68.
 
14.
Murphy CFB, Schochat E. How auditory temporal processing deficits relate to dyslexia. Braz J Med Biol Res, 2009; 42: 647–54.
 
15.
Tallal P, Miller S, Fitch RH. Neurobiological basis of speech: a case for the preeminence of temporal processing. Ann N Y Acad Sci, 1993; 682: 27–47.
 
16.
Ben-Artzi E, Fostick L, Babkoff H. Deficits in temporal-order judgments in dyslexia: evidence from diotic stimuli differing spectrally and from dichotic stimuli differing only by perceived location. Neuropsychologia, 2005; 43: 714–23.
 
17.
Boets B, Wouters J, van Wieringen A, Ghesquière P. Auditory temporal information processing in preschool children at family risk for dyslexia: Relations with phonological abilities and developing literacy skills. Brain Lang, 2006; 97: 64–79.
 
18.
Fitch RH, Miller S, Tallal P. Neurobiology of speech perception. Annu Rev Neurosci, 1997; 20: 331–53.
 
19.
Shinn JB, Chermak GD, Musiek FE. GIN (Gaps-In-Noise) Performance in the Pediatric Population. J Am Acad Audiol, 2009; 20: 229–38.
 
20.
King WM, Lombardino LJ, Crandell CC, Leonard CM. Comorbid Auditory Processing Disorder in Developmental Dyslexia. Ear Hear, 2003; 24: 448–56.
 
21.
Banai K, Ahissar M. Auditory Processing Deficits in Dyslexia: Task or Stimulus Related? Cereb Cortex, 2005; 16: 1718–28.
 
22.
Walker KMM, Hall SE, Klein RM, Phillips DP. Development of perceptual correlates of reading performance. Brain Res, 2006; 1124: 126–41.
 
23.
Phillips DP. An introduction to central auditory neuroscience. In: Musiek FE, Chermak GD (eds.), Handbook of (Central) Auditory Processing Disorder. Auditory Neuroscience and Diagnosis. Volume I. San Diego: Plural Publishing Inc.; 2007; 53–87.
 
24.
Phillips DP. Auditory gap detection, perceptual channels, and temporal resolution in speech perception. J Am Acad Audiol, 1999; 10(6): 343–54.
 
25.
Pinheiro ML, Ptacek PH. Reversals in the perception of noise and tone patterns. J Acoust Soc Am, 1971; 49(6): 1778–83.
 
26.
Musiek FE, Pinheiro ML, Wilson DH. Auditory pattern perception in ‘split brain’ patients. Arch Otolaryngol, 1980; 106(10): 610–12.
 
27.
Bellis TJ. Assessment and Management of Central Auditory Processing Disorders in the Educational Setting. 2nd ed. NY: Thomson Delamar Learning; 2003.
 
28.
Asbjørnsen AE, Helland T, Obrzut JE, Boliek CA. The role of dichotic listening performance and tasks of executive functions in reading impairment: a discriminant function analysis. Child Neuropsychol, 2003; 9(4): 277–88.
 
29.
Simões MB, Schochat E. (Central) auditory processing disorders in individuals with and without dyslexia. Pro Fono, 2010; 22(4): 521–24.
 
30.
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.
 
31.
Moncrieff DW, Black JR. Dichotic listening deficits in children with dyslexia. Dyslexia, 2008; 14: 54–75.
 
32.
Kimura D. Speech lateralization in young children as determined by an auditory test. J Comp Physiol Psychol, 1963; 56: 899–902.
 
33.
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: 247–52.
 
34.
Helland T, Asbjørnsen AE, Hushovd AE, Hugdahl K. Dichotic listening and school performance in dyslexia. Dyslexia, 2008; 14: 42–53.
 
35.
Asbjørnsen AE, Hugdahl K. Attentional effects in dichotic listening. Brain Lang, 1995; 49(3): 189–201.
 
36.
Kinsbourne M. The cerebral basis of lateral asymmetries in attention. Acta Psychol (Amst), 1970; 33: 193–201.
 
37.
Hugdahl K, Carlsson G, Eichele T. Age effects in dichotic listening to consonant-vowel syllables: interactions with attention. Dev Neuropsychol, 2001; 20: 445–57.
 
38.
Bretherton L, Holmes VM: The relationship between auditory temporal processing, phonemic awareness, and reading disability. J Exp Child Psychol, 2003; 84: 218–43.
 
39.
Bishop DVM, Carlyton RP, Deeks JM, Bishop SJ: Auditory temporal processing impairment: Neither necessary nor sufficient for causing language impairment in children. J Speech Lang Hear Res, 1999; 42: 1295–310.
 
40.
Bell SM, McCallum RS, Cox EA. Toward a Research-Based Assessment of Dyslexia Using Cognitive Measures to Identify Reading Disabilities. J Learn Disabil, 2003; 36: 505–16.
 
41.
Hulslander J, Talcott J, Witton C, DeFries J, Pennington B, Wadsworth S et al. Sensory processing, reading, IQ, and attention. J Exp Child Psychol, 2004; 88: 274–95.
 
42.
Witton C, Stein JF, Stoodley CJ, Rosner BS, Talcott JB. Separate influences of acoustic AM and FM sensitivity on the phonological decoding skills of impaired and normal readers. J Cogn Neurosci, 2002; 14: 866–74.
 
43.
Bogdanowicz M, Jaworowska J, Krasowicz-Kupis G, Matczak A, Pelc-Pękala O, Pietras I et al. DYSLEKSJA 3 – Diagnoza dysleksji u uczniów klasy III szkoły podstawowej (DYSLEXIA 3 – diagnosis of dyslexia in the third grade students of the primary school). Warsaw: PTP; 2009.
 
44.
Jaworowska A, Szustrowa T. SPM-C. Standard Progressive Matrices – Classic. Warsaw: Psychological Test Laboratory of the Polish Psychological Association; 2000.
 
45.
Oldfield RC. The assessment and analysis of handedness: The Edinburgh Inventory. Neuropsychologia 1971; 9: 97–113.
 
46.
Bogdanowicz M. Łatysz Test. Warsaw: Psychological Test Laboratory of the Polish Psychological Association; 2002.
 
47.
Kozniewska E, Matuszewski A. Phonological Skills Scale. Warsaw: Methodical Center of Psychological and Pedagogical Support; 2003.
 
48.
Kaja B, Nair R. Phonological Awareness Scale. In: Kaja B, editor. Diagnosis of dyslexia. Bydgoszcz: WSPBYD; 2003; 70–94.
 
49.
Matczak A, Piotrowska A, Ciarkowska W. WISC-R. Wechsler Intelligence Scale for Children – Revised. Warsaw: Psychological Test Laboratory of the Polish Psychological Association; 2008.
 
50.
Martínez JA, Sánchez E. Dichotic listening CV lateralization and developmental dyslexia. J Clin Exp Neuropsychol, 1999; 21: 519–34.
 
51.
Musiek FE, Weihing J. Perspectives on dichotic listening and the corpus callosum. Brain Cogn, 2011; 76: 225–32.
 
52.
Kershner JR, Morton LL. Directed attention dichotic listening in reading disabled children: a test of four models of maladaptive lateralization. Neuropsychologia, 1990; 28(2): 181–98.
 
53.
Liberman IY. Segmentation of the spoken word. Bull Orton Soc, 1977; 3: 65–77.
 
54.
Heiervang E, Stevenson J, Hugdahl K. Auditory processing in children with dyslexia. J Child Psychol Psychiatry, 2002; 43: 931–38.
 
55.
Temple E, Poldrack RA, Salidis J, Deutsch GK, Tallal P, Merzenich MM et al. Disrupted neural responses to phonological and orthographic processing in dyslexic children: an fMRI study. Neuroreport, 2001; 12(2): 299–307.
 
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