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Arquivos Internacionais de Otorrinolaringologia 2010; 14(03): 280-287
DOI: 10.1590/S1809-48722010000300003
Original Article
Thieme Publicações Ltda Rio de Janeiro, Brazil

Children's Listening with Cleft Lip and Palate in the School

Escuta de Crianças com Fissura Labiopalatina na Escola
Rosana Ribeiro Manoel
*   PhD in Rehabilitation Sciences - Area of Communication Disorders, Hospital for Rehabilitation of Craniofacial Anomalies, University of São Paulo - USP-HRAC. Section Chief, HRAC-USP, Bauru-SP.
,
Mariza Ribeiro Feniman
**   Post-Doctorate in Audiology - UNIVERSITY of Cincinnati, Ohio, USA. Head of Department of Speech-FOB-USP.
,
Maria José Monteiro Benjamin Buffa
***   MSc in Human Communication Disorders at HRAC-USP. Pedagogue - HRAC-USP.
,
Luciana Paula Maximino
****   PhD from the Institute of Biosciences, University Estadual Paulista - UNESP-Botucatu-SP. Professor, Department of Speech, FOB-USP.
,
José Roberto Pereira Lauris
*****   Free Teaching. Associate Professor, Department of Pediatric Dentistry, Orthodontics and Public Health of FOB-USP.
,
José Alberto de Souza Freitas
******   Professor, Department of Stomatology, FOB-USP. Superintendent of HRAC-USP.
› Author Affiliations
Further Information

Address for correspondence

Mariza Ribeiro Feniman
Faculty of Dentistry of Bauru, University of São Paulo - FOB / USP - Department of Speech Pathology / FOB-USP - Alameda Octavio Pinheiro Brisolla 9-75 - Bauru / SP - Brazil - Zip code: 17012-101 - Telephone: (+55 14) 3225-8533

Publication History

31 March 2010

23 April 2010

Publication Date:
12 February 2014 (online)

 
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Summary

Introduction: A great similarity between the patients with cleft lip and palate' behavior and those with auditory processing disorder are related by parents and professors.

Objective: To verify the listening in children with cleft lip and palate in six conditions of listening.

Method: Professors of 224 students (7 to 11 years old) with cleft completed a questionnaire aiming to judge the student listening in the noise, ideal condition, with multiple stimulus, in the silence, when it is solicited to remember the listened information and during a lengthy period of listening, comparing it to the other of the same age and listening condition, without cleft. A Prospective Study.

Results: The mean of the trial (-0, 08, standard deviation of 0,27) of the students with cleft, performed by professor was about the “same difficulty” (zero), when compared with the student without cleft. It was not found statistical significance to anyone conditions, neither to the total value of the questionnaire, considering the gender nor the school year level.

Conclusion: The listening characteristics of the students with cleft lip and palate were similar to the other without this craniofacial deformity of the same age and similar listening condition. In the noise, the conditions more difficult occurred when the memory and the auditory attention were required.


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Resumo

Introdução: Grande similaridade entre o comportamento de pacientes com fissura labiopalatina e aqueles com transtorno de processamento auditivo são relatadas por pais e professores.

Objetivo: Verificar a escuta de crianças com fissura labiopalatina em seis condições de escuta.

Método: Professores de 224 escolares (7 a 11 anos) com fissura completaram um questionário, visando julgar a escuta do escolar no ruído, condição ideal, com múltiplos estímulos, no silêncio, quando solicitado recordar a informação ouvida e durante longo período de escuta, comparando-o ao de outro sem fissura de mesma idade e condição de escuta. Estudo Prospectivo.

Resultados: A média do julgamento (-0,08, desvio padrão de 0,27) dos alunos com fissura, realizado pelo professor, foi aproximadamente ao de “mesma dificuldade” (zero), quando comparado com o escolar sem fissura. Não foi encontrada significância estatística para qualquer uma das condições, nem para o valor total do questionário considerando os gêneros e as séries escolares.

Conclusão: As características de escuta dos escolares com fissura labiopalatina foram similares ao de outro sem esta malformação craniofacial de mesma idade e condição de escuta semelhante. No ruído, quando a memória e a atenção auditiva são requeridas foram as condições mais difíceis.


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Keywords

child - cleft palate - hearing - auditory perception

Palavras-chave

criança - fissura palatina - audição - percepção auditiva

Introduction

Great similarity between the behavior of patients with cleft lip and palate and those with auditory processing disorders have been reported by researchers investigating the hearing abilities through the application of a questionnaire[1] and behavioral tests[2].

Auditory processing disorder refers to difficulties in perceptual processing of auditory information in the central nervous system. The problem may be exacerbated in unfavorable acoustic environments[3] [4]. Thus, children with this disorder are described by their parents and teachers as having difficulty listening in noise background, to follow oral instructions, as well as having difficulty understanding the distorted speech, speech in the presence of two speakers, for example, in situations of group discussion[3]. This disorder is cited as a factor of 50% of Brazilian children, according to the Ministry of Education (MEC), which reach the end of high school with serious reading and writing[5]. Thus, currently, the association between learning difficulties and changes in the development of listening skills has been emphasized in studies of auditory processing tests[6]. Researchers[7] reported that children with dyslexia show changes of central neurological processing that can be detected by specific tests of auditory processing, as in functional imaging exam, such as SPECT (Single Photon Emission Computed Tomography).

A variety of behavioral informal procedures, designed for parents or teachers, has been developed to systematically investigate conduct that may be useful in determining whether a child should be referred for an evaluation of auditory processing[3] [8].

Literature[9] has shown that much information from parents and / or teachers to help identify changes found in their children.

This study aims to determine the hearing of children with cleft lip and palate, through the trial of the teacher observing the characteristics of their students with this type of craniofacial malformation in silence, in ideal listening situation, in the presence of multiple stimuli, noise when asked to recall information and heard in a long period of listening.


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Method

In order to compose the sample size of this cohort study with cross-section was selected patients with cleft type most frequently found in a hospital specializing in this craniofacial malformation. Therefore, to the universe of 800 children with cleft lip and palate involving the left, operated, of both genders, who were aged 7-11 years, regularly enrolled in the Hospital, and, attending class regularly, level from 1st to 4th grade was sent by mail a questionnaire to be delivered to her teachers, aiming at the objective proposed in this study. The same teacher may have worked with more than one child in different classrooms.

Guidelines for the purpose of the study, the completion of the questionnaire was provided in writing to teachers. Responded to 224 questionnaires returned, along with the completion of informed consent signed. Thus, teachers participated in this prospective study of 141 children was male and 83 female mean age of 9 years.

[Table 1] shows the distribution of children according to age and gender.

Table 1.

Distribution of children according to age and gender.

Gender

Age (years)

7

8

9

10

11

Total

Male

17

29

46

38

11

141

Female

18

17

27

16

5

83

Total

35

46

73

54

16

224

The questionnaire was answered and the CHAPPS - Children's Auditory Processing Performance Scale [8] ([Figure 1a] and [1b]) that was developed to systematically collect and quantify the characteristics of listening to children. It is a type questionnaire scale characteristics of listening to children. Its objective is to verify the trial of the characteristics of the teacher listens to students in six conditions / functions listening is in a quiet environment, noise, when the information is required remember hearing (auditory memory / sequence), and long periods of listening (auditory attention).

Zoom Image
Figure 1a. CHAPPS Questionnaire - Children's Auditory Processing Performance Scale[8].
Zoom Image
Figure 1b. CHAPPS Questionnaire - Children's Auditory Processing Performance Scale[8].

This instrument was chosen for these listening conditions are the most frequent complaints cited in the literature[8] [9] [10], parents and teachers of students who have auditory processing disorder.

Each of these six conditions / functions listening has different numbers of items, comprising 36 items in total.

Each item was asked to judge a teacher by degree of difficulty experienced only school with cleft lip and palate, comparing this child with the knowledge that the teacher has other children from school, the same age and similar condition, but without this craniofacial malformation. For each degree of difficulty was given a score corresponding to: (+1) less difficulty (0) same difficulty, and (-1) more difficulty, in which the teacher should mark the answer chosen.

To analyze the characteristics of listening in CHAPPS, considered the value obtained in each of the six listening conditions (mean values scored there), and the value obtained in its totalCHAPPS total (sum of all items marked divided by 36 ). The results were analyzed by checking the responses separately for gender or grade, in the six listening conditions: noise, silence, in an ideal situation, the presence of multiple information when required to recall the information heard (memory / Following hearing) and long periods of listening (auditory attention).

This study was submitted to the Research Ethics Committee and obtained assent under the Protocol No 041/2003UEPCEP.

The collected data were entered into a spreadsheet program Excel (Microsoft Corporation), and subsequently imported into the Statistical Programme / Statistica for Window-Stat Soft version 5.1. Inc. Besides descriptive statistics (mean and standard deviation) was used to analyze differences between gender, grade and condition of listening to analysis of variance the three criteria and the Tukey test, adopting a significance level of 5% (p <0.05).


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Results

Based on the results obtained in CHAPPS questionnaire, drafted to [Table 2] and [3] showing the distribution of mean values and standard deviations for the children sampled, according to each grade and gender, according to the hearing condition, respectively.

Table 2.

Mean values (standard deviations) at each hearing condition, according to school grade.

Series

Hearing condition

Noise

Silent

Ideal

Multiple Stimuli

Auditory Memory

Auditory Attention

Chapps total

1a

−,16(0,32)

−,03(0,33)

0,11(0,41)

0,09(0,41)

−,14(0,42)

−,07(0,26)

−,06(0,26)

2a

−,17(0,30)

−,03(0,29)

0,00(0,30)

0,06(0,34)

−,14(0,37)

−,09(0,25)

−,09(0,24)

3a

−,17(0,37)

−,06(0,34)

0,04(0,39)

−0,03(0,42)

−,21(0,39)

−,13(0,34)

−,12(0,30)

4a

−,19(0,37)

−,00(0,29)

0,07(0,34)

−0,00(0,35)

−,06(0,38)

−,04(0,32)

−,06(0,27)

Total

−,17(0,34)

−,03(0,31)

0,05(0,36)

0,03(0,38)

−,14(0,39)

−,09(0,29)

−,08(0,27)

p = 0,555


Table 3.

Mean values and standard deviations at each hearing condition according to gender (G).

G

Hearing condition

Noise

Silent

Ideal

Multiple Stimuli

Auditory memory

Auditory Attention

Chapps total

Female

−0,13(0,36)

−0,00(0,34)

0,08(0,39)

0,06(0,39)

−0,13(0,38)

−0,06(0,30)

−0,05(0,27)

Male

−0,20(0,32)

−0,06(0,30)

0,03(0,34)

0,08(0,38)

−0,15(0,40)

−0,10(0,29)

−0,10(0,27)

Total

−0,17(0,34)

−0,03(0,31)

0,05(0,36)

0,03(0,38)

−0,14(0,39)

−0,09(0,29)

−0,08(0,27)

p = 0,130


The analysis of variance the three criteria showed no statistically significant difference between genders (p = 0.130) or between sets (p = 0.555), although only among listening conditions (p <0.001) ([Table 4]).

Table 4.

Comparison between the listening conditions (Tukey test).

Hearing contition

Average

Standard deviation

Noise

−0,17 (a)

0,34

Silent

−0,03 (c)

0,31

Ideal

0,05 (d)

0,36

Multiple Stimuli

0,03 (d)

0,38

Auditory memory

−0,14 (a,b)

0,39

Auditory attention

−0,09 (b,c)

0,29

(Condition with the same letter has no statistically significant difference between them)


p <0.001



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Discussion

The analysis of data from this study suggested that the average characteristics of the trial listening of the students held by teachers (average value of -0.08, SD = 0.27) was very close to zero, indicating “same difficulty. Thus, through this instrument, the teacher did not identify differences between the characteristics of students with cleft lip and palate with the other without this craniofacial malformation, watching them in the listening conditions outlined in the questionnaire. This finding is in agreement with previous studies[11] in the trial held by parents of children with cleft lip and palate, using the questionnaire CHAPPS.

With regard to the outcome of this study, the comparison between the listening conditions observed, the characteristics of listening to the children sampled in the condition of listening in noise, was the most difficult.

One of the most common complaints of individuals with auditory processing disorder is a problem processing under difficult listening conditions. When evaluated, many of these will do very well in a favorable situation. However, when the signals are distorted or degraded, often demonstrate significant difficulties due to the withdrawal of some of the inherent redundancy of the speech signal[12].

One method of reducing the redundancy of a speech signal is introducing a background noise (noise) with this sign. Thus, a listener with auditory processing disorder has difficulty in recognizing speech in noise[10].

In this sense the school is under heavy impact of various noises, which become invisible opponents to learning, in a location where the viewing situation should be much preferred. Thus, in an unfavorable situation in which there is competition between the teacher's speech and other noises, school performance may suffer interference[13]. Researchers[14] believe the noise level found in schools is above the recommended values, this being a situation unfavorable listening, taking the child in need of greater attention to retain the spoken message.

Auditory memory is the ability to store and retain the auditory stimulus. Process that allows you to archive the information to be able to retrieve them when needed[15]. Some auditory processing tasks require the child to retain information to formulate a response. Thus, auditory memory is essential to enable listening skills[16]. The condition of when asked to recall information heard (auditory memory) was the second most difficult in this study.

The student with auditory processing disorder may demonstrate problems with listening comprehension, auditory discrimination, and auditory memory, figure-background auditory and auditory attention, among others[16].

Auditory attention is defined as a cognitive process that allows the listener to focus selectively on the stimulus of interest, while ignoring a competitive stimulus not relevant, limiting the amount of processed information to the intention[17]. Learning depends on the attention that is associated with what is important, the meaning will influence the degree of attention[18].The condition for long periods of listening (auditory attention), this investigation has been among the more difficulty presented by the student.

When analyzing this work, the significant difference between the results obtained from the reactive behaviors due to the conditions of listening in noise, when the information is required remember hearing (auditory memory) and long periods of listening (auditory attention), in relation to other conditions, studies[19] have shown that exposure to loud noise can cause damage, such as decreased attention, but children can adapt to noise interference during the activities for filtering the noisy stimulus undesirable. They can use this strategy even when there is no noise, leading to their poor ability to sustain attention in the classroom, which may over time continue to affect attention, even in the absence of exposure noisy (Medical Research Council 1997)[20] could justify the difficulty of the students also provided when listening in silence.

Several key points were recorded on data obtained using this instrument with respect to the condition that the student listens with cleft lip and palate, considering that when compared to other work,[1] was applied in specific tests, confirms auditory attention problems, verbal memory, history of recurrent ear infections, high rates of learning disabilities, repetition rate and low educational attainment in this population.

The data found in this study support those of researchers[21] [22] who concluded that children with cleft lip and palate had difficulties in the auditory figure-ground and selective attention by means of the tests, suggesting that the assessment of auditory processing in battery hearing clinic for routine subjects with this malformation.

The trial of the teachers regarding hearing conditions submitted by the student, as having more problems (noise, memory and auditory attention) suggests that the children studied have to undergo an expert evaluation of auditory processing, in order that the alterations are common in children or adults with auditory processing disorders, the child may not be able to interpret the sound, since that interpretation depends on auditory skills organized and structured linked to brain functions like memory and attention.

Thus, the inclusion of procedures, such as questionnaires, checklist in the investigation of changes in processing of auditory information, the battery of audiological clinic for routine subjects with cleft lip and palate, seems justified for better orientation in the diagnostic process, treatment and family, aimed not only improvements in academic performance, but also a better quality of life. Such procedures may provide valuable information regarding the real impact of hearing loss, helping in the process of differential diagnosis, but should not be overestimated, nor used for diagnostic purposes.


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Conclusion

In this study the hearing of children with cleft lip and palate, as judged by the teacher of another child of similar age and hearing condition similar and not as the bearer of this craniofacial malformation evaluates CHAPPS, was practically similar. However condition had more difficulty in noise, when asked to recall the information heard (auditory memory) and for a long period of listening (auditory attention), for any of the genres and for all grades attended.


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  • Bibliographical References

  • 1 Minardi CG, Souza AC, Netto MP, Ulhôa FM, Feniman MR, Campos CF , et al. Auditory abilities in children with cleft lip and/or palate according to Fishers. Acta Otorrinolaringol Esp 2004; 55 (4) 160-4
    CrossrefGoogle Scholar
  • 2 Boscariol M, André KD, Feniman MR. Crianças com fissura isolada de palato: desempenho nos testes de processamento auditivo. Rev Bras Otorrinolaringol 2009; 75 (2) 213-20
    CrossrefGoogle Scholar
  • 3 Jerger J, Musiek F. Report of the Consensus Conference on the Diagnosis of Auditory Processing Disorders in School-Aged Children. J Am Acad Audiol 2000; 11: 467-74
    PubMedGoogle Scholar
  • 4 American Speech-Language-Hearing Association. 2005; (Central) Auditory Processing Disorders. Disponível em: URL: http://www.asha.org/members/deskref-journals/deskref/default . Acesso em 22 de fevereiro de 2008.
    Google Scholar
  • 5 Bueno C. Crianças com dificuldades na escola: onde mora o problema?. Cienc Cult 2008; 60 (2) 11-3
    Google Scholar
  • 6 King WM. Comorbid auditory processing disorder in developmental dyslexia. Ear Hear 2003; 24 (5) 448-56
    CrossrefPubMedGoogle Scholar
  • 7 Sauer L, Pereira LD, Ciasca SM, Pestun M, Guerreiro MM. Processamento auditivo e SPECT em crianças com dislexia. Arq Neuro-Psiquiatr 2006; 64 (1) 108-11
    CrossrefGoogle Scholar
  • 8 Smoski WJ, Brunt MA, Tannahill JC. Listening characteristics of children with central auditory processing disorders. Lang Speech Hear Serv Sch 1992; 23: 145-52
    CrossrefGoogle Scholar
  • 9 Musiek FE, Guerkink NA. Auditory perceptual problems in children: considerations for the otolaryngologist and audiologist. Laryngoscope 1980; 90: 962-70
    Google Scholar
  • 10 Momensohn-Santos MT, Branco-Barreiro FCA. Avaliação e intervenção fonoaudiológica no transtorno de processamento auditivo. In: Ferreira LP, Befi-Lopes DM, Limongi SCO, , organizador. Tratado de Fonoaudiologia. São Paulo: Roca; 2004. . p.553-68.
    Google Scholar
  • 11 Barufi L, Netto MP, Ulhoa FM, Rego CF, Feniman MR, Cruz MS , et al. Comportamento de escuta em sujeitos com fissura labiopalatina: achados preliminares. J Bras Fonoaudiol 2004; 5: 91-5
    Google Scholar
  • 12 Bellis T. Interpretation of APD test results. In: Parthasarathy TK, , editor. An introduction to auditory processing disorders in children. Mahwah: LEA; 2006. . p.145-60.
    Google Scholar
  • 13 Dreossi RCF, Momensohn-Santos T. O Ruído e sua interferência sobre estudantes em uma sala de aula: revisão de literatura. Pró-Fono 2005; 17 (2) 251-8
    Google Scholar
  • 14 Jaroszewski GC, Zeigelboim BS, Lacerda A. Ruído escolar e sua implicação na atividade de ditado. Rev Cefac 2007; 9 (1) 122-32
    CrossrefGoogle Scholar
  • 15 Izquierdo I, Vianna MRM, Cammarota M, Izquierdo LA. Mecanismos da memória. Scie Am Bras 2003; 2 (17) 99-104
    Google Scholar
  • 16 Kelly DA. Suggestions for parents, teachers, speech-language pathologists, and students: enhancing functional outcomes in children with APD. In: Parthasarathy TK, , editor. An introduction to auditory processing disorders in children. Mahwah: LEA; 2006. . p.229-45.
    Google Scholar
  • 17 Medwetsky L. Central auditory processing. In: Katz J, , editor. Handbook of Clinical Audiology. 5th ed. New York: Lippincott Willian & Wilkins; 2002. . p.495-509.
    Google Scholar
  • 18 Gray HM, Ambady N, Lowenthal WT, Deldin P. P300 as an index of attention to self-relevant stimuli. J Exp Soc Psychol 2004; 40 (2) 216-24
    CrossrefGoogle Scholar
  • 19 Ristovska G, Gjorgjev D, Pop Jordanova N. Psychosocial effects of community noise: cross sectional study of school children in urban center of Skopje, Macedonia. Croat Med J 2004; 45: 473-6
    Google Scholar
  • 20 Medical Research Council. IEH Report R10. The nonauditory effects of noise. Leicester, UK: Institute for Environment and Health; 1997
    Google Scholar
  • 21 Campos CF, Cruz MS, Feniman MR. Habilidades auditivas de figura-fundo e atenção seletiva em crianças portadoras de fissura labiopalatina. In: Anais do 1° Congresso Brasileiro de Fonoaudiologia e Genética dos Distúrbios da Comunicação; 2002 25-27 de mar; Fortaleza, Brasil. Fortaleza: Fundação Edson Queiroz, Universidade de Fortaleza; 2002. . p.44.
    Google Scholar
  • 22 Cruz MS, Campos CF, Feniman MR In: Anais da 9ª Jornada Fonoaudiológica Dra. Mariza Ribeiro Feniman; 2002 28-31 ago; Bauru, Brasil: Faculdade de Odontologia de Bauru, Universidade de São Paulo; 2002.p.26.

Address for correspondence

Mariza Ribeiro Feniman
Faculty of Dentistry of Bauru, University of São Paulo - FOB / USP - Department of Speech Pathology / FOB-USP - Alameda Octavio Pinheiro Brisolla 9-75 - Bauru / SP - Brazil - Zip code: 17012-101 - Telephone: (+55 14) 3225-8533

  • Bibliographical References

  • 1 Minardi CG, Souza AC, Netto MP, Ulhôa FM, Feniman MR, Campos CF , et al. Auditory abilities in children with cleft lip and/or palate according to Fishers. Acta Otorrinolaringol Esp 2004; 55 (4) 160-4
    CrossrefGoogle Scholar
  • 2 Boscariol M, André KD, Feniman MR. Crianças com fissura isolada de palato: desempenho nos testes de processamento auditivo. Rev Bras Otorrinolaringol 2009; 75 (2) 213-20
    CrossrefGoogle Scholar
  • 3 Jerger J, Musiek F. Report of the Consensus Conference on the Diagnosis of Auditory Processing Disorders in School-Aged Children. J Am Acad Audiol 2000; 11: 467-74
    PubMedGoogle Scholar
  • 4 American Speech-Language-Hearing Association. 2005; (Central) Auditory Processing Disorders. Disponível em: URL: http://www.asha.org/members/deskref-journals/deskref/default . Acesso em 22 de fevereiro de 2008.
    Google Scholar
  • 5 Bueno C. Crianças com dificuldades na escola: onde mora o problema?. Cienc Cult 2008; 60 (2) 11-3
    Google Scholar
  • 6 King WM. Comorbid auditory processing disorder in developmental dyslexia. Ear Hear 2003; 24 (5) 448-56
    CrossrefPubMedGoogle Scholar
  • 7 Sauer L, Pereira LD, Ciasca SM, Pestun M, Guerreiro MM. Processamento auditivo e SPECT em crianças com dislexia. Arq Neuro-Psiquiatr 2006; 64 (1) 108-11
    CrossrefGoogle Scholar
  • 8 Smoski WJ, Brunt MA, Tannahill JC. Listening characteristics of children with central auditory processing disorders. Lang Speech Hear Serv Sch 1992; 23: 145-52
    CrossrefGoogle Scholar
  • 9 Musiek FE, Guerkink NA. Auditory perceptual problems in children: considerations for the otolaryngologist and audiologist. Laryngoscope 1980; 90: 962-70
    Google Scholar
  • 10 Momensohn-Santos MT, Branco-Barreiro FCA. Avaliação e intervenção fonoaudiológica no transtorno de processamento auditivo. In: Ferreira LP, Befi-Lopes DM, Limongi SCO, , organizador. Tratado de Fonoaudiologia. São Paulo: Roca; 2004. . p.553-68.
    Google Scholar
  • 11 Barufi L, Netto MP, Ulhoa FM, Rego CF, Feniman MR, Cruz MS , et al. Comportamento de escuta em sujeitos com fissura labiopalatina: achados preliminares. J Bras Fonoaudiol 2004; 5: 91-5
    Google Scholar
  • 12 Bellis T. Interpretation of APD test results. In: Parthasarathy TK, , editor. An introduction to auditory processing disorders in children. Mahwah: LEA; 2006. . p.145-60.
    Google Scholar
  • 13 Dreossi RCF, Momensohn-Santos T. O Ruído e sua interferência sobre estudantes em uma sala de aula: revisão de literatura. Pró-Fono 2005; 17 (2) 251-8
    Google Scholar
  • 14 Jaroszewski GC, Zeigelboim BS, Lacerda A. Ruído escolar e sua implicação na atividade de ditado. Rev Cefac 2007; 9 (1) 122-32
    CrossrefGoogle Scholar
  • 15 Izquierdo I, Vianna MRM, Cammarota M, Izquierdo LA. Mecanismos da memória. Scie Am Bras 2003; 2 (17) 99-104
    Google Scholar
  • 16 Kelly DA. Suggestions for parents, teachers, speech-language pathologists, and students: enhancing functional outcomes in children with APD. In: Parthasarathy TK, , editor. An introduction to auditory processing disorders in children. Mahwah: LEA; 2006. . p.229-45.
    Google Scholar
  • 17 Medwetsky L. Central auditory processing. In: Katz J, , editor. Handbook of Clinical Audiology. 5th ed. New York: Lippincott Willian & Wilkins; 2002. . p.495-509.
    Google Scholar
  • 18 Gray HM, Ambady N, Lowenthal WT, Deldin P. P300 as an index of attention to self-relevant stimuli. J Exp Soc Psychol 2004; 40 (2) 216-24
    CrossrefGoogle Scholar
  • 19 Ristovska G, Gjorgjev D, Pop Jordanova N. Psychosocial effects of community noise: cross sectional study of school children in urban center of Skopje, Macedonia. Croat Med J 2004; 45: 473-6
    Google Scholar
  • 20 Medical Research Council. IEH Report R10. The nonauditory effects of noise. Leicester, UK: Institute for Environment and Health; 1997
    Google Scholar
  • 21 Campos CF, Cruz MS, Feniman MR. Habilidades auditivas de figura-fundo e atenção seletiva em crianças portadoras de fissura labiopalatina. In: Anais do 1° Congresso Brasileiro de Fonoaudiologia e Genética dos Distúrbios da Comunicação; 2002 25-27 de mar; Fortaleza, Brasil. Fortaleza: Fundação Edson Queiroz, Universidade de Fortaleza; 2002. . p.44.
    Google Scholar
  • 22 Cruz MS, Campos CF, Feniman MR In: Anais da 9ª Jornada Fonoaudiológica Dra. Mariza Ribeiro Feniman; 2002 28-31 ago; Bauru, Brasil: Faculdade de Odontologia de Bauru, Universidade de São Paulo; 2002.p.26.

   Permissions and Reprints
Zoom Image
Figure 1a. CHAPPS Questionnaire - Children's Auditory Processing Performance Scale[8].
Zoom Image
Figure 1b. CHAPPS Questionnaire - Children's Auditory Processing Performance Scale[8].