Prevalence of Mild Hearing Loss in Schoolchildren and its Association with their School Performance

Elbeltagy, Reem

doi:10.1055/s-0039-1695024

Abstract

Introduction

Hearing is important for the proper development of every child, especially for those younger than 5 years of age, because it helps in the development of language and speech. Emotional and social problems, as well as issues with academic performance, can result from hearing loss even of mild degree. Early diagnosis and management can overcome those negative impacts.

Objective

To determine the prevalence of mild hearing loss in primary-school children and its association with their school performance.

Methods

A comparative cross-sectional study was conducted at a regular school. The study included the random selection of 120 apparently normal students (aged 6-9 years) who were considered as having normal hearing by their parents. A total of 20 students were excluded from the study due to the presence of wax in their ears. Finally, the study was conducted with 100 students. All participants were subjected to a basic audiological evaluation, and the Screening Instrument for Targeting Educational Risk (SIFTER) question- naire was given to their teachers to evaluate their school performance.

Results

From a total of 100 students, we conﬁrmed that 23 (23%) had mild hearing loss, 17 (17%) had bilateral conductive hearing loss, and 6 (6%) had bilateral sensorineural hearing loss. The students who had low attention and communication performance were signiﬁcantly associated with mild hearing loss.

Conclusion

The prevalence of mild hearing loss was of 23% (23 cases). This problem had an effect on the communication and attention in school; and it might affect academic performance later in life. A hearing assessment is highly recommended for every child, especially those who have a low rate of academic performance.

Keywords:
prevalence; hearing loss; academic performance

Introduction

Hearing is important for the proper development of every child, especially those younger than 5 years of age, because it helps in the development of language and speech.¹1 Yoshinaga-Itano C, Sedey AL, Coulter DK, Mehl AL. Language of early- and later-identi?ed children with hearing loss. Pediatrics 1998;102(05):1161-1171 Hearing loss is considered one of the most prevalent disabling disorders worldwide;²2 World Health Organization (WHO). WHO Global Estimates on Prevalence of Hearing Loss, (2012) http://www.who.int/pbd/ deafness/estimates. Accessed date: 15 March 2018
http://www.who.int/pbd/ deafness/estimat... it affects between 1 to 6 children per 1,000 live births.³3 Finitzo T, Albright K, O'Neal J. The newborn with hearing loss: detection in the nursery. Pediatrics 1998;102(06):1452-1460 ⁴4 Van Naarden K, Decou?é P, Caldwell K. Prevalence and character- istics of children with serious hearing impairment in metropoli- tan Atlanta, 1991-1993. Pediatrics 1999;103(03):570-575 About 466 million people complain of disabling hearing loss, and 34 million of these people are children.⁵5 World Health Organization (WHO). Deafness and Hearing Loss, (2018) http://www.who.int/mediacentre/factsheets/fs300/en/. Accessed: March 15, 2018
http://www.who.int/mediacentre/factsheet... Mild hearing loss is a hidden problem in most children in the age group between 1 and 9. The prevalence of a mild hearing loss in school-age children is estimated to be between 2.4% and 14.9%, according to the area of the study.⁶6 Rao RS, Subramanyam MA, Nair NS, Rajashekhar B. Hearing im- pairment and ear diseases among children of school entry age in rural South India. Int J Pediatr Otorhinolaryngol 2002;64(02):105-110 ⁷7 Olusanya BO, Okolo AA, Ijaduola GTA. The hearing pro?le of Nigerian school children. Int J Pediatr Otorhinolaryngol 2000; 55(03):173-179 ⁸8 Niskar AS, Kieszak SM, Holmes A, Esteban E, Rubin C, Brody DJ. Prevalence of hearing loss among children 6 to 19 years of age: the Third National Health and Nutrition Examination Survey. JAMA 1998;279(14):1071-1075 ⁹9 Westerberg BD, Skowronski DM, Stewart IF, Stewart L, Bernauer M, Mudarikwa L. Prevalence of hearing loss in primary school children in Zimbabwe. Int J Pediatr Otorhinolaryngol 2005;69 (04):517-525 ¹⁰10 Osei AO, Larnyo PA, Azaglo A, Sedzro TM, Torgbenu EL. Screening for hearing loss among school going children. Int J Pediatr Otorhinolaryngol 2018;111:7-12 When a speaker is located at a distance of more than 3 feet, this may result in missing up to 10% of the speech. This percentage is susceptible to increase if there is background noise.⁶6 Rao RS, Subramanyam MA, Nair NS, Rajashekhar B. Hearing im- pairment and ear diseases among children of school entry age in rural South India. Int J Pediatr Otorhinolaryngol 2002;64(02):105-110

Hearing loss in children, whether congenital or acquired, may be due to several causes. Congenital hearing loss may be due to genetic or non-genetic etiologies; the non-genetic factors include premature birth, birth complications, an infection in the mother during pregnancy, and maternal diabetes. More than 50% of all cases of hearing loss that occur in children are due to genetic factors, be them present at birth or developed later in life¹¹11 World and Health Organization [WHO Web site]. Hearing loss due to recreational exposure to loud sounds: a review; 2015. Avail- able from: http://apps.who.int/iris/bitstream/10665/154589/1/ 9789241508513 eng.pdf. Accessed: September 22, 2017_. A total of 60% of the hearing loss that occurs in children under the age of 15 is due to preventable causes, such as exposure to loud noise and secondhand smoke, and use of audio devices. Other causes are untreated or frequent otitis media, infections like meningitis, measles, the mumps or whooping cough, in addition to taking ototoxic medications.¹²12 American Speech Language Hearing Association. Cause of hearing loss in children. Available at: http://www.asha.org/public/hear- ing/Causes-of-Hearing-Loss-in-Children 2011
http://www.asha.org/public/hear- ing/Cau...

Emotional and social problems can result from hearing loss even of mild degree. It also has a negative impact on the learning of verbal language, reading, writing and academic performance. Hearing loss of any type or degree can act as a barrier to incidental learning.¹³13 Wilson BS, Tucci DL, Merson MH, O'Donoghue GM. Global hearing health care: new ?ndings and perspectives. Lancet 2017;390 (10111):2503-251510.1016/ S0140-6736(17)31073-5 Academic losses may begin when the children are in kindergarten and first grade, but those children begin to show significant learning difficulties when they reach the third grade. This difficulty may be attributed to the complexity of the language, less visual clues, more verbalizations, more need to sequence and recall, and lack of development of pre-skills in the previous grades. Mostly, these symptoms of hearing loss are mistaken for an attention deficit problem.¹⁴14 Elizabeth C, Flexer C. Classroom Accommodations for Students with Hearing impairment. San Diego, CA: Plural Publishing, Inc.; 2007

Some children do not have any physical complaints. Their parents complain only of behavioral problems, like frequent requests, improper responses to instruction, carelessness, talking too loud and confusion with similar-sounding words. However, these behavioral complaints are subjective, and are usually missed and ignored by teachers and parents, who consider that these children have normal hearing. So, identifying mild hearing loss in schoolchildren without a school hearing screening program is very difficult.¹⁵15 Dood-Murphy J, Mamlin NMinimizing minimal hearing loss in the schools: 5- 92 (retrieved July 12, 2009), from ProQuest Central

Some countries, like Canada, have studied the importance of a hearing screening program for newborns.¹⁶16 Harlor AD, Bower C, Committee on Practice and Ambulatory Medicine, Section on Otolaryngol -Head and Neck Surg Collabo- rators, et al. Hearing assessment in infants and children: recom- mendations beyond neonatal screening. Pediatr 2009;124(04): 1252-1263

In Egypt, The prevalence of hearing loss among children is difficult to be estimated accurately because the national hearing screening program has not yet been applied, and there are only hospital-based academic studies that give just an idea about the extent of the problem. Many children with hearing loss may be missed.¹⁷17 Taw?k S, Hazza N. Hearing screening in neonates: Ain Shams Experience. Paper presented at the annual meeting of the Egyptian Otolaryngolo Soc, Cairo, Egypt; September; 2004

A study by Skarzyński et al¹⁸18 Skarzynski PH, Swierniak W, Pilka A, et al. A Hearing Screening Program for Children in Primary Schools in Tajikistan: A Tele- medicine Model. Med Sci Monit 2016;22:2424-2430 revealed 70% of the schoolchildren screened had peripheral hearing loss; this was the first hearing screening test in those children's lives and the families were unaware of the hearing loss in 60% of the cases.¹⁸18 Skarzynski PH, Swierniak W, Pilka A, et al. A Hearing Screening Program for Children in Primary Schools in Tajikistan: A Tele- medicine Model. Med Sci Monit 2016;22:2424-2430

The Screening Instrument for Targeting Educational Risk (SIFTER) is considered a reliable method to determine the effect of hearing loss in academic performance. Bess et al¹⁹19 Bess FH, Dodd-Murphy J, Parker RA. Children with minimal sensorineural hearing loss: prevalence, educational performance, and functional status. Ear Hear 1998;19(05):339-354 and Most²⁰20 Most T. The effects of degree and type of hearing loss on children's performance in class. Deafness Educ Int 2004;6(03):154-166 used the SIFTER questionnaire for the same purpose, and they concluded that children suffering from minimal hearing loss have a poor score in the communication domain when compared with normal-hearing children.

In developing countries like Egypt, there is no established hearing screening program for the early detection of hearing impairments. Therefore, the present study was performed to determine the prevalence of hearing loss in schoolchildren in Egypt and its association with school performance.

Methods

A comparative cross-sectional study was performed from September 2017 to March 2018. The study was conducted with 120 apparently normal students who were considered as having normal hearing by their parents and teachers. The students were selected randomly between the ages of 6 and 9 years; the children were in grades 1, 2 and 3. A total of 20 students were excluded from the study due to the presence of wax in their ears. Finally, the study was conducted with 100 students (53 boys and 47 girls) at a regular school (national Language School).

The exclusion criteria were: students who had wax in their ears or who were using hearing aid or cochlear implants; students who had chronic medical illnesses, such as diabetes mellitus, hypertension, or renal failure; students who had any disorder that may affect their academic performance, such as hyperactivity, dyslexia, or learning deficit disorder; and students who had abnormal motor development, cervical pain, back pain, or any postural change in head alignment.

All participants in the current study were subjected to the following:

Full history taking (history sheets were sent to all parents), including the following:
1. Personal history (age and sex).
2. History of hearing loss, tinnitus, discharge, use of hearing aid or cochlear implant.
3. Past history of systemic disease, use of ototoxic drugs, physical trauma, and operations.
Otological examination (performed by the author) using a handheld Riester (Jungingen, Germany) pen-scope to detect any abnormalities in external auditory canal or the tympanic membrane.
Basic audiological evaluation, including:
1. Immittancemetry (handheld tympanometry Zodiac 901, Interacoustics, Middelfart, Denmak) including tympanometry and acoustic reflex (AR). The tympanometry was performed at varying pressure, ranging from +200 to −400 mm H2O. Acoustic reflex threshold measurements using pure tones (up to 100 dB) at 500,1,000, 2,000 and 4,000 Hz elicited ipsilateral.
2. Pure-tone audiometry using a model AD226 portable audiometer (Interacoustics). It included:
  - Air conduction: Air conduction hearing thresholds were determined at the frequencies of 250, 500, 1,000, 2,000, 4,000 and 8,000 Hz.
  - Bone-conduction: bone conduction hearing thresholds were determined at the frequencies of 500, 1,000, 2,000 and 4,000 Hz.
  - Mild hearing loss was defined as an average of 20-40 dB at 500, 1,000, 2,000 and 4,000 Hz.²¹21 Jerger J, Jerger S. Measurement of hearing in adults. In: Paperella MM, Shumrick DA, eds. Otolaryngology. 2nd ed. Philadelphia: W.B. Saunders; 1980
All tests were conducted in a quiet room in the school itself. Diagnostic air and bone-conduction audiometry was determined. Bone conduction was performed for students who had had air conduction > 15 dB. The testing began at 1,000 Hz in the right ear at 40 dB HL. Thresholds were obtained using the routine 10 dB descending and 5 dB ascending method (Hughson-Westlake method). Reports on the students who had hearing loss were sent to their parents and advised them to go to an audio vestibular unit in the university hospital for reassessment and treatment.
The SIFTER questionnaire was given to the teachers for them to evaluate the students' school performance. (Supplementary Material Appendix A - Available online)

This questionnaire was developed by Anderson²²22 Anderson KL. S.I.F.T.E.R.: screening instrument for targeting edu- cational risk in children identi?ed by hearing screening or who have known hearing loss. Tampa, FL: The Educational Audiology Association; 1989 in 1989 as a screening instrument to assess school performance in children. It is composed of fifteen questions, and there are five domains (academic, attention, communication, class participation, and school behavior). Each domain is assessed by three questions. The teachers were selected according to certain criteria. They had to be teaching the children for at least one year to be considered real evaluators and to be well aware of the academic performance of the children and their personalities. The study was described to the teachers before their evaluation, which was performed during their rest period. Based on their knowledge from observations of the students, the teachers were instructed to circle the number that best represented the students' behavior.

Ethical Considerations

In the present study, all of the testing procedures were performed using non-invasive techniques, and adhering to the conditions of the Ethics in Research Committee of the institute. The history sheet and consent form were sent to the parents before the children participated in the study.

Statistical Analysis

The analysis of the data was performed using the Statistical Package for the Social Sciences (SPSS, SPSS, Inc., Chicago, IL, US), version 23. The quantitative variables, such as the mean and standard deviation (SD), and the qualitative variables were described as numbers and percentages. the t-test was used for the parametric data to compare the quantitative variables (SD < 50% mean). Values of p< 0.05 were considered statistically significant. Values of p< 0.001 were considered highly significant.

Results

Demographic Data

The age of the sample ranged from 6 to 9 years, with a mean age of 7.71 years (±0.79 years).There were 53 females (53%) and 47 males (47%).

Basic Audiological Assessment

Table 1 shows the mean pure tone hearing thresholds of the students with hearing loss in the right and left ears. The mean hearing thresholds were > 20 dB, and they were greater in higher frequencies than in lower frequencies.

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Table 1
Mean values of the pure tone thresholds of students with hearing loss

The prevalence of mild hearing loss in the school population was of 23% (23 cases; 10% [10 cases] of the students had bilateral conductive hearing loss [CHL], 7% [7 cases] had unilateral CHL, and 6% [6 cases] had bilateral sensorineural hearing loss [SNHL]). In addition, 6 (6%) students with mild hearing loss had bilateral type-A tympanograms with preserved AR, 7 (7%) had bilateral type-B tympanograms with absent AR, 3 (3%) had unilateral type-B tympanograms with absent AR, 3 (3%) had bilateral type-C tympanograms with absent AR, and 4 (4%) had unilateral type-C tympanograms with absent AR. The 7 (7%) students with unilateral type-B and type-C had type-A tympanograms with preserved AR in the other ear.

Comparison of school performance between normal-hearing students and students with mild hearing loss, between the students with unilateral and bilateral mild hearing loss, and between those with mild CHL and SNHL.

As demonstrated in Tables 2 3 4 there was a statistically significant difference in communication and attention between normal-hearing students and those with mild hearing loss, and there was a statistically significant difference in academic performance between those with CHL and SNHL. But there was no statistically significant difference in school performance between the students with unilateral and bilateral mild hearing loss.

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Table 2
Comparison of school performance between normal-hearing students and students with mild hearing loss

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Table 3
Comparison of school performance between children with mild CHL and SNHL

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Table 4
Comparison of school performance between students with unilateral and bilateral mild hearing loss

Discussion

The purpose of the current study was to determine the prevalence of mild hearing loss in primary-school children and its association with their school performance. The prevalence of mild hearing loss was of 23% (23 cases) in schoolchildren aged between 6 and 9 years. This result was similar to that of a study performed in Tajikistan,¹⁸18 Skarzynski PH, Swierniak W, Pilka A, et al. A Hearing Screening Program for Children in Primary Schools in Tajikistan: A Tele- medicine Model. Med Sci Monit 2016;22:2424-2430 in which 143 primary-school children were screened for hearing loss: the authors reported that about 23.7% of children had hearing loss.¹⁸18 Skarzynski PH, Swierniak W, Pilka A, et al. A Hearing Screening Program for Children in Primary Schools in Tajikistan: A Tele- medicine Model. Med Sci Monit 2016;22:2424-2430 A similar result was reported in another study²³23 Oyewumi AM, Adejumo OR. An investigation of hearing loss among school age children through audiological assessment in Ibadan, Oyo State, Nigeria. Elementary Education Online 2011;10(01):1-11 performed in Nigeria, in which the hearing threshold in 300 school-age children was assessed; the authors reported that the prevalence of low frequency was of 33.4%.²³23 Oyewumi AM, Adejumo OR. An investigation of hearing loss among school age children through audiological assessment in Ibadan, Oyo State, Nigeria. Elementary Education Online 2011;10(01):1-11 Khairi et al²⁴24 Khairi Md Daud M, Noor RM, Rahman NA, Sidek DS, Mohamad A. The effect of mild hearing loss on academic performance in primary school children. Int J Pediatr Otorhinolaryngol 2010;74 (01):67-70 screened 234 schoolchildren, and found a prevalence of hearing loss of 15%. Osei et al¹⁰10 Osei AO, Larnyo PA, Azaglo A, Sedzro TM, Torgbenu EL. Screening for hearing loss among school going children. Int J Pediatr Otorhinolaryngol 2018;111:7-12 stated that hearing loss in basic school children is uncommon, and they found a prevalence of 11.9%. In the study conducted by Bess et al¹⁹19 Bess FH, Dodd-Murphy J, Parker RA. Children with minimal sensorineural hearing loss: prevalence, educational performance, and functional status. Ear Hear 1998;19(05):339-354 with 1,218 children, only 11.3% complained of minimal SNHL.

In the current study, the majority of the children suffering from hearing loss (17%; 17 cases) had CHL (6% [6 cases] with type-C tympanograms, and 11% [11 cases] with type-B tympanograms). Only 6 (6%) students had bilateral SNHL with type-A tympanograms. Khairi et al²⁴24 Khairi Md Daud M, Noor RM, Rahman NA, Sidek DS, Mohamad A. The effect of mild hearing loss on academic performance in primary school children. Int J Pediatr Otorhinolaryngol 2010;74 (01):67-70 reported that 88.9% of the children with hearing loss had CHL. Hunt et al²⁵25 Hunt L, Wakisa M, Victoria K, et al. Prevalence of pediatric chronic suppurative otitis media and hearing impairment in rural Malawi: A cross-sectional survey. PLoS One 2017;12(12): e0188950 determined the percentage of unilateral and bilateral CHL, and the results were 24.5% and 12.5% respectively. However, Bess et al¹⁹19 Bess FH, Dodd-Murphy J, Parker RA. Children with minimal sensorineural hearing loss: prevalence, educational performance, and functional status. Ear Hear 1998;19(05):339-354 found different results: in their study, the rate of SNHL was of 5.4%, and the rate of CHL was of 3.4%.

The current study was conducted during autumn and winter, when the incidence of upper respiratory tract infections is high; this may explain the higher prevalence of CHL in the study. Czech et al²⁶26 Czech D, Malicka M, Kott E, Zakrzewska A. Incidence of articula- tory disorders in children with recurrent upper respiratory tract infections. Otorynolaryngologia 2011;10(03):116-120 observed a correlation between upper respiratory tract infection and hearing loss. Additionally, the Eustachian tube is smaller and more horizontal in children than in adults, which makes it more prone to be blocked by large adenoids and infection. Until the Eustachian tube changes in size and angle, the children are more susceptible to otitis media.²⁷27 Dhooge IJ. Risk factors for the development of otitis media. Curr Allergy Asthma Rep 2003;3(04):321-325

In the present study, the prevalence of SNHL was higher than that reported in previous studies.¹⁸18 Skarzynski PH, Swierniak W, Pilka A, et al. A Hearing Screening Program for Children in Primary Schools in Tajikistan: A Tele- medicine Model. Med Sci Monit 2016;22:2424-2430 ¹⁹19 Bess FH, Dodd-Murphy J, Parker RA. Children with minimal sensorineural hearing loss: prevalence, educational performance, and functional status. Ear Hear 1998;19(05):339-354 ²⁰20 Most T. The effects of degree and type of hearing loss on children's performance in class. Deafness Educ Int 2004;6(03):154-166 ²¹21 Jerger J, Jerger S. Measurement of hearing in adults. In: Paperella MM, Shumrick DA, eds. Otolaryngology. 2nd ed. Philadelphia: W.B. Saunders; 1980 ²²22 Anderson KL. S.I.F.T.E.R.: screening instrument for targeting edu- cational risk in children identi?ed by hearing screening or who have known hearing loss. Tampa, FL: The Educational Audiology Association; 1989 ²³23 Oyewumi AM, Adejumo OR. An investigation of hearing loss among school age children through audiological assessment in Ibadan, Oyo State, Nigeria. Elementary Education Online 2011;10(01):1-11 ²⁴24 Khairi Md Daud M, Noor RM, Rahman NA, Sidek DS, Mohamad A. The effect of mild hearing loss on academic performance in primary school children. Int J Pediatr Otorhinolaryngol 2010;74 (01):67-70 This may be attributed to the increasing use of headphones among children to listen to music and watch videos and other forms of entertainment.¹²12 American Speech Language Hearing Association. Cause of hearing loss in children. Available at: http://www.asha.org/public/hear- ing/Causes-of-Hearing-Loss-in-Children 2011
http://www.asha.org/public/hear- ing/Cau... Moreover, infectious diseases such as the mumps, measles, and meningitis, as well as mechanical injuries, can cause SNHL in schoolchildren.²⁸28 Skarzynski PH, Kochanek K, Skarzynski H, et al. Hearing screening program in school-age children in Western Poland. Int Adv Otol 2011;7(02):194-200 ²⁹29 Yamatodani T, Mizuta K, Hosokawa K, et al. Congenital middle ear cholesteatoma: experience from 26 surgical cases. Ann Otol Rhinol Laryngol 2013;122(05):316-321 ³⁰30 Nelson M, Roger G, Koltai PJ, et al. Congenital cholesteatoma: classi?cation, management, and outcome. Arch Otolaryngol Head Neck Surg 2002;128(07):810-814

In the current study, there was a significant difference between mild hearing loss and normal hearing in the communication and attention domains, and no significant difference in participation and behavior. In addition, the academic performance was not affected. There was a significant difference in academic performance between CHL and SNHL. This may be attributed to the fact that CHL of short duration doesn't cause a significant effect on academic performance. Bess et al¹⁹19 Bess FH, Dodd-Murphy J, Parker RA. Children with minimal sensorineural hearing loss: prevalence, educational performance, and functional status. Ear Hear 1998;19(05):339-354 observed poorer school performance in children with minimal hearing loss when they were compared with their normal-hearing peers. The school performance was affected especially in terms of attention, communication and academic performance. They also reported that about 37% of children with minimal SNHL failed at least one grade, compared to a 2% failure rate among their normal-hearing peers; children with minimal SNHL had poorer rates regarding stress, self-esteem, and social support. Moreover, Most²⁰20 Most T. The effects of degree and type of hearing loss on children's performance in class. Deafness Educ Int 2004;6(03):154-166 used the SIFTER questionnaire to evaluate the school performance of 47 children aged between 7.2 and 9.3 years. The children had hearing impairments of different types and degrees. He concluded that some children with unilateral hearing loss and mild hearing loss had poor school performance. The same result was reported by Hunt et al,²⁵25 Hunt L, Wakisa M, Victoria K, et al. Prevalence of pediatric chronic suppurative otitis media and hearing impairment in rural Malawi: A cross-sectional survey. PLoS One 2017;12(12): e0188950 who stated that chronic suppurative otitis media and hearing impairment in schoolchildren can affect their educational outcome.

Many studies showed that children with minimal and mild hearing loss may suffer from difficulties in speech perception, especially in poor listening conditions, and delays in language acquisition and social/emotional development.³¹31 Bovo R, Martini A, Agnoletto M, et al. Auditory and academic performance of children with unilateral hearing loss. Scand Audiol Suppl 1988;30:71-74 ³²32 Crandell CC. Speech recognition in noise by children with minimal degrees of sensorineural hearing loss. Ear Hear 1993; 14(03):210-216 A study conducted by Johnson et al,³³33 Johnson C, Stein R, Broadway A, Markwalter TS. "Minimal" high- frequency hearing loss and school-age children: Speech recognition in a classroom. Lang Speech Hear Serv Sch 1997;28:77-85 in which the speech recognition in 12 children suffering from minimal high-frequency hearing loss was compared with that of their normal peers, the authors found a diminished score for minimal hearing loss.

Lewis et al³⁴34 Lewis DE, Valente DL, Spalding JL. Effect of minimal/mild hearing loss on children's speech understanding in a simulated classroom. Ear Hear 2015;36(01):136-144 assessed speech perception in eighteen children with minimal/mild hearing loss in an environment that simulated a classroom. They observed poor performance in those children when compared with normal-hearing children.

There was no significant difference in school performance between unilateral and bilateral mild hearing loss. Niskar et al⁸8 Niskar AS, Kieszak SM, Holmes A, Esteban E, Rubin C, Brody DJ. Prevalence of hearing loss among children 6 to 19 years of age: the Third National Health and Nutrition Examination Survey. JAMA 1998;279(14):1071-1075 reported that even unilateral minimal hearing loss can cause educational problems. This is in line with the results from previous studies, which reported that mild unilateral hearing loss can cause difficulties in sound localization and speech comprehension that significantly affect the learning outcome. These children do not achieve the same progress in school as their normal-hearing peers, and about 40% of schoolchildren with unilateral hearing loss may fail their final-year exams and have to repeat a class.³⁵35 Ross DS, Holstrum WJ, Gaffney M, Green D, Oyler RF, Gravel JS. Hearing screening and diagnostic evaluation of children with unilateral and mild bilateral hearing loss. Trends Amplif 2008; 12(01):27-34 ³⁶36 Holstrum WJ, Gaffney M, Gravel JS, Oyler RF, Ross DS. Early intervention for children with unilateral and mild bilateral degrees of hearing loss. Trends Amplif 2008;12(01):35-41

The educational problems reported in students with mild hearing loss may be due to poor classroom acoustics, such as high reverberation and noise. This affects students with mild hearing loss more than students with normal hearing, and students with mild hearing loss require a higher signal to noise ratio in order to be able to well discriminate speech.³⁷37 Ruscetta MN, Arjmand EM, Pratt SR Sr. Speech recognition abilities in noise for children with severe-to-profound unilateral hearing impairment. Int J Pediatr Otorhinolaryngol 2005;69(06):771-779 ³⁸38 Klatte M, Hellbrück J, Seidel J, et al. Effects of classroom acoustics on performance and well-being in elementary school children: a ?eld study. Environ Behav 2010;42(05):659-692 Furthermore, with the teachers rapidly changing their location during classroom discussions and the introduction of new information can cause difficulties for children with mild hearing loss.³⁹39 McFadden B, Pittman A. Effect of minimal hearing loss on child- ren's ability to multitask in quiet and in noise. Lang Speech Hear Serv Sch 2008;39(03):342-351 Accordingly, placing children with mild hearing loss in mainstream classrooms is very important, but this must be associated with additional educational support services.¹⁹19 Bess FH, Dodd-Murphy J, Parker RA. Children with minimal sensorineural hearing loss: prevalence, educational performance, and functional status. Ear Hear 1998;19(05):339-354 ²⁰20 Most T. The effects of degree and type of hearing loss on children's performance in class. Deafness Educ Int 2004;6(03):154-166 ²¹21 Jerger J, Jerger S. Measurement of hearing in adults. In: Paperella MM, Shumrick DA, eds. Otolaryngology. 2nd ed. Philadelphia: W.B. Saunders; 1980 ²²22 Anderson KL. S.I.F.T.E.R.: screening instrument for targeting edu- cational risk in children identi?ed by hearing screening or who have known hearing loss. Tampa, FL: The Educational Audiology Association; 1989 ²³23 Oyewumi AM, Adejumo OR. An investigation of hearing loss among school age children through audiological assessment in Ibadan, Oyo State, Nigeria. Elementary Education Online 2011;10(01):1-11 ²⁴24 Khairi Md Daud M, Noor RM, Rahman NA, Sidek DS, Mohamad A. The effect of mild hearing loss on academic performance in primary school children. Int J Pediatr Otorhinolaryngol 2010;74 (01):67-70 ²⁵25 Hunt L, Wakisa M, Victoria K, et al. Prevalence of pediatric chronic suppurative otitis media and hearing impairment in rural Malawi: A cross-sectional survey. PLoS One 2017;12(12): e0188950 ²⁶26 Czech D, Malicka M, Kott E, Zakrzewska A. Incidence of articula- tory disorders in children with recurrent upper respiratory tract infections. Otorynolaryngologia 2011;10(03):116-120 ²⁷27 Dhooge IJ. Risk factors for the development of otitis media. Curr Allergy Asthma Rep 2003;3(04):321-325 ²⁸28 Skarzynski PH, Kochanek K, Skarzynski H, et al. Hearing screening program in school-age children in Western Poland. Int Adv Otol 2011;7(02):194-200 ²⁹29 Yamatodani T, Mizuta K, Hosokawa K, et al. Congenital middle ear cholesteatoma: experience from 26 surgical cases. Ann Otol Rhinol Laryngol 2013;122(05):316-321 ³⁰30 Nelson M, Roger G, Koltai PJ, et al. Congenital cholesteatoma: classi?cation, management, and outcome. Arch Otolaryngol Head Neck Surg 2002;128(07):810-814 ³¹31 Bovo R, Martini A, Agnoletto M, et al. Auditory and academic performance of children with unilateral hearing loss. Scand Audiol Suppl 1988;30:71-74 ³²32 Crandell CC. Speech recognition in noise by children with minimal degrees of sensorineural hearing loss. Ear Hear 1993; 14(03):210-216 ³³33 Johnson C, Stein R, Broadway A, Markwalter TS. "Minimal" high- frequency hearing loss and school-age children: Speech recognition in a classroom. Lang Speech Hear Serv Sch 1997;28:77-85 ³⁴34 Lewis DE, Valente DL, Spalding JL. Effect of minimal/mild hearing loss on children's speech understanding in a simulated classroom. Ear Hear 2015;36(01):136-144 ³⁵35 Ross DS, Holstrum WJ, Gaffney M, Green D, Oyler RF, Gravel JS. Hearing screening and diagnostic evaluation of children with unilateral and mild bilateral hearing loss. Trends Amplif 2008; 12(01):27-34 ³⁶36 Holstrum WJ, Gaffney M, Gravel JS, Oyler RF, Ross DS. Early intervention for children with unilateral and mild bilateral degrees of hearing loss. Trends Amplif 2008;12(01):35-41 ³⁷37 Ruscetta MN, Arjmand EM, Pratt SR Sr. Speech recognition abilities in noise for children with severe-to-profound unilateral hearing impairment. Int J Pediatr Otorhinolaryngol 2005;69(06):771-779 ³⁸38 Klatte M, Hellbrück J, Seidel J, et al. Effects of classroom acoustics on performance and well-being in elementary school children: a ?eld study. Environ Behav 2010;42(05):659-692 ³⁹39 McFadden B, Pittman A. Effect of minimal hearing loss on child- ren's ability to multitask in quiet and in noise. Lang Speech Hear Serv Sch 2008;39(03):342-351 ⁴⁰40 Lieu JE, Tye-Murray N, Fu Q. Longitudinal study of children with unilateral hearing loss. Laryngoscope 2012;122(09):2088-2095

With the findings of the present study, the author recommends that all teachers and parents be aware of the possible side effects of mild or unilateral hearing loss on the performance of the students in the educational system. Also, it is important to screen students with poor school performance, especially in a country that has no school hearing screening program. Finally, the conductive disorders need to be treated as early as possible, as they may have negative effects on the school performance of the children.

Conclusion

In the present study, the prevalence of mild hearing loss among primary school children was of 23% (23 cases). This problem affected their school performance in the communication and attention domains, and it may affect academic performance later in life. The impacts of mild hearing loss on school performance may be controlled and treated via an appropriate hearing screening protocol and program. It is highly recommended that every child undergoes a hearing assessment, especially those who have poor academic performance.

Limitation

One of the most important limitations of the present study was the sample size and the difficulty in applying the study to the whole population. There also were limitations related to the children themselves, as some parents refused to let their children participate in the study, and the poor reliability of some children due to their young age and the fear that some of them had of the examiner.

References

¹
Yoshinaga-Itano C, Sedey AL, Coulter DK, Mehl AL. Language of early- and later-identi?ed children with hearing loss. Pediatrics 1998;102(05):1161-1171
²
World Health Organization (WHO). WHO Global Estimates on Prevalence of Hearing Loss, (2012) http://www.who.int/pbd/ deafness/estimates Accessed date: 15 March 2018
» http://www.who.int/pbd/ deafness/estimates
³
Finitzo T, Albright K, O'Neal J. The newborn with hearing loss: detection in the nursery. Pediatrics 1998;102(06):1452-1460
⁴
Van Naarden K, Decou?é P, Caldwell K. Prevalence and character- istics of children with serious hearing impairment in metropoli- tan Atlanta, 1991-1993. Pediatrics 1999;103(03):570-575
⁵
World Health Organization (WHO). Deafness and Hearing Loss, (2018) http://www.who.int/mediacentre/factsheets/fs300/en/. Accessed: March 15, 2018
» http://www.who.int/mediacentre/factsheets/fs300/en
⁶
Rao RS, Subramanyam MA, Nair NS, Rajashekhar B. Hearing im- pairment and ear diseases among children of school entry age in rural South India. Int J Pediatr Otorhinolaryngol 2002;64(02):105-110
⁷
Olusanya BO, Okolo AA, Ijaduola GTA. The hearing pro?le of Nigerian school children. Int J Pediatr Otorhinolaryngol 2000; 55(03):173-179
⁸
Niskar AS, Kieszak SM, Holmes A, Esteban E, Rubin C, Brody DJ. Prevalence of hearing loss among children 6 to 19 years of age: the Third National Health and Nutrition Examination Survey. JAMA 1998;279(14):1071-1075
⁹
Westerberg BD, Skowronski DM, Stewart IF, Stewart L, Bernauer M, Mudarikwa L. Prevalence of hearing loss in primary school children in Zimbabwe. Int J Pediatr Otorhinolaryngol 2005;69 (04):517-525
¹⁰
Osei AO, Larnyo PA, Azaglo A, Sedzro TM, Torgbenu EL. Screening for hearing loss among school going children. Int J Pediatr Otorhinolaryngol 2018;111:7-12
¹¹
World and Health Organization [WHO Web site]. Hearing loss due to recreational exposure to loud sounds: a review; 2015. Avail- able from: http://apps.who.int/iris/bitstream/10665/154589/1/ 9789241508513 eng.pdf. Accessed: September 22, 2017
¹²
American Speech Language Hearing Association. Cause of hearing loss in children. Available at: http://www.asha.org/public/hear- ing/Causes-of-Hearing-Loss-in-Children 2011
» http://www.asha.org/public/hear- ing/Causes-of-Hearing-Loss-in-Children
¹³
Wilson BS, Tucci DL, Merson MH, O'Donoghue GM. Global hearing health care: new ?ndings and perspectives. Lancet 2017;390 (10111):2503-251510.1016/ S0140-6736(17)31073-5
¹⁴
Elizabeth C, Flexer C. Classroom Accommodations for Students with Hearing impairment. San Diego, CA: Plural Publishing, Inc.; 2007
¹⁵
Dood-Murphy J, Mamlin NMinimizing minimal hearing loss in the schools: 5- 92 (retrieved July 12, 2009), from ProQuest Central
¹⁶
Harlor AD, Bower C, Committee on Practice and Ambulatory Medicine, Section on Otolaryngol -Head and Neck Surg Collabo- rators, et al. Hearing assessment in infants and children: recom- mendations beyond neonatal screening. Pediatr 2009;124(04): 1252-1263
¹⁷
Taw?k S, Hazza N. Hearing screening in neonates: Ain Shams Experience. Paper presented at the annual meeting of the Egyptian Otolaryngolo Soc, Cairo, Egypt; September; 2004
¹⁸
Skarzynski PH, Swierniak W, Pilka A, et al. A Hearing Screening Program for Children in Primary Schools in Tajikistan: A Tele- medicine Model. Med Sci Monit 2016;22:2424-2430
¹⁹
Bess FH, Dodd-Murphy J, Parker RA. Children with minimal sensorineural hearing loss: prevalence, educational performance, and functional status. Ear Hear 1998;19(05):339-354
²⁰
Most T. The effects of degree and type of hearing loss on children's performance in class. Deafness Educ Int 2004;6(03):154-166
²¹
Jerger J, Jerger S. Measurement of hearing in adults. In: Paperella MM, Shumrick DA, eds. Otolaryngology. 2nd ed. Philadelphia: W.B. Saunders; 1980
²²
Anderson KL. S.I.F.T.E.R.: screening instrument for targeting edu- cational risk in children identi?ed by hearing screening or who have known hearing loss. Tampa, FL: The Educational Audiology Association; 1989
²³
Oyewumi AM, Adejumo OR. An investigation of hearing loss among school age children through audiological assessment in Ibadan, Oyo State, Nigeria. Elementary Education Online 2011;10(01):1-11
²⁴
Khairi Md Daud M, Noor RM, Rahman NA, Sidek DS, Mohamad A. The effect of mild hearing loss on academic performance in primary school children. Int J Pediatr Otorhinolaryngol 2010;74 (01):67-70
²⁵
Hunt L, Wakisa M, Victoria K, et al. Prevalence of pediatric chronic suppurative otitis media and hearing impairment in rural Malawi: A cross-sectional survey. PLoS One 2017;12(12): e0188950
²⁶
Czech D, Malicka M, Kott E, Zakrzewska A. Incidence of articula- tory disorders in children with recurrent upper respiratory tract infections. Otorynolaryngologia 2011;10(03):116-120
²⁷
Dhooge IJ. Risk factors for the development of otitis media. Curr Allergy Asthma Rep 2003;3(04):321-325
²⁸
Skarzynski PH, Kochanek K, Skarzynski H, et al. Hearing screening program in school-age children in Western Poland. Int Adv Otol 2011;7(02):194-200
²⁹
Yamatodani T, Mizuta K, Hosokawa K, et al. Congenital middle ear cholesteatoma: experience from 26 surgical cases. Ann Otol Rhinol Laryngol 2013;122(05):316-321
³⁰
Nelson M, Roger G, Koltai PJ, et al. Congenital cholesteatoma: classi?cation, management, and outcome. Arch Otolaryngol Head Neck Surg 2002;128(07):810-814
³¹
Bovo R, Martini A, Agnoletto M, et al. Auditory and academic performance of children with unilateral hearing loss. Scand Audiol Suppl 1988;30:71-74
³²
Crandell CC. Speech recognition in noise by children with minimal degrees of sensorineural hearing loss. Ear Hear 1993; 14(03):210-216
³³
Johnson C, Stein R, Broadway A, Markwalter TS. "Minimal" high- frequency hearing loss and school-age children: Speech recognition in a classroom. Lang Speech Hear Serv Sch 1997;28:77-85
³⁴
Lewis DE, Valente DL, Spalding JL. Effect of minimal/mild hearing loss on children's speech understanding in a simulated classroom. Ear Hear 2015;36(01):136-144
³⁵
Ross DS, Holstrum WJ, Gaffney M, Green D, Oyler RF, Gravel JS. Hearing screening and diagnostic evaluation of children with unilateral and mild bilateral hearing loss. Trends Amplif 2008; 12(01):27-34
³⁶
Holstrum WJ, Gaffney M, Gravel JS, Oyler RF, Ross DS. Early intervention for children with unilateral and mild bilateral degrees of hearing loss. Trends Amplif 2008;12(01):35-41
³⁷
Ruscetta MN, Arjmand EM, Pratt SR Sr. Speech recognition abilities in noise for children with severe-to-profound unilateral hearing impairment. Int J Pediatr Otorhinolaryngol 2005;69(06):771-779
³⁸
Klatte M, Hellbrück J, Seidel J, et al. Effects of classroom acoustics on performance and well-being in elementary school children: a ?eld study. Environ Behav 2010;42(05):659-692
³⁹
McFadden B, Pittman A. Effect of minimal hearing loss on child- ren's ability to multitask in quiet and in noise. Lang Speech Hear Serv Sch 2008;39(03):342-351
⁴⁰
Lieu JE, Tye-Murray N, Fu Q. Longitudinal study of children with unilateral hearing loss. Laryngoscope 2012;122(09):2088-2095

Publication Dates

Publication in this collection
14 Feb 2020
Date of issue
Jan-Mar 2020

History

Received
20 Apr 2018
Accepted
16 June 2019

This is an open-access article distributed under the terms of the Creative Commons Attribution License

[1] ¹
Yoshinaga-Itano C, Sedey AL, Coulter DK, Mehl AL. Language of early- and later-identi?ed children with hearing loss. Pediatrics 1998;102(05):1161-1171

[2] ²
World Health Organization (WHO). WHO Global Estimates on Prevalence of Hearing Loss, (2012) http://www.who.int/pbd/ deafness/estimates Accessed date: 15 March 2018
» http://www.who.int/pbd/ deafness/estimates

[3] ³
Finitzo T, Albright K, O'Neal J. The newborn with hearing loss: detection in the nursery. Pediatrics 1998;102(06):1452-1460

[4] ⁴
Van Naarden K, Decou?é P, Caldwell K. Prevalence and character- istics of children with serious hearing impairment in metropoli- tan Atlanta, 1991-1993. Pediatrics 1999;103(03):570-575

[5] ⁵
World Health Organization (WHO). Deafness and Hearing Loss, (2018) http://www.who.int/mediacentre/factsheets/fs300/en/. Accessed: March 15, 2018
» http://www.who.int/mediacentre/factsheets/fs300/en

[6] ⁶
Rao RS, Subramanyam MA, Nair NS, Rajashekhar B. Hearing im- pairment and ear diseases among children of school entry age in rural South India. Int J Pediatr Otorhinolaryngol 2002;64(02):105-110

[7] ⁷
Olusanya BO, Okolo AA, Ijaduola GTA. The hearing pro?le of Nigerian school children. Int J Pediatr Otorhinolaryngol 2000; 55(03):173-179

[8] ⁸
Niskar AS, Kieszak SM, Holmes A, Esteban E, Rubin C, Brody DJ. Prevalence of hearing loss among children 6 to 19 years of age: the Third National Health and Nutrition Examination Survey. JAMA 1998;279(14):1071-1075

[9] ⁹
Westerberg BD, Skowronski DM, Stewart IF, Stewart L, Bernauer M, Mudarikwa L. Prevalence of hearing loss in primary school children in Zimbabwe. Int J Pediatr Otorhinolaryngol 2005;69 (04):517-525

[10] ¹⁰
Osei AO, Larnyo PA, Azaglo A, Sedzro TM, Torgbenu EL. Screening for hearing loss among school going children. Int J Pediatr Otorhinolaryngol 2018;111:7-12

[11] ¹¹
World and Health Organization [WHO Web site]. Hearing loss due to recreational exposure to loud sounds: a review; 2015. Avail- able from: http://apps.who.int/iris/bitstream/10665/154589/1/ 9789241508513 eng.pdf. Accessed: September 22, 2017

[12] ¹²
American Speech Language Hearing Association. Cause of hearing loss in children. Available at: http://www.asha.org/public/hear- ing/Causes-of-Hearing-Loss-in-Children 2011
» http://www.asha.org/public/hear- ing/Causes-of-Hearing-Loss-in-Children

[13] ¹³
Wilson BS, Tucci DL, Merson MH, O'Donoghue GM. Global hearing health care: new ?ndings and perspectives. Lancet 2017;390 (10111):2503-251510.1016/ S0140-6736(17)31073-5

[14] ¹⁴
Elizabeth C, Flexer C. Classroom Accommodations for Students with Hearing impairment. San Diego, CA: Plural Publishing, Inc.; 2007

[15] ¹⁵
Dood-Murphy J, Mamlin NMinimizing minimal hearing loss in the schools: 5- 92 (retrieved July 12, 2009), from ProQuest Central

[16] ¹⁶
Harlor AD, Bower C, Committee on Practice and Ambulatory Medicine, Section on Otolaryngol -Head and Neck Surg Collabo- rators, et al. Hearing assessment in infants and children: recom- mendations beyond neonatal screening. Pediatr 2009;124(04): 1252-1263

[17] ¹⁷
Taw?k S, Hazza N. Hearing screening in neonates: Ain Shams Experience. Paper presented at the annual meeting of the Egyptian Otolaryngolo Soc, Cairo, Egypt; September; 2004

[18] ¹⁸
Skarzynski PH, Swierniak W, Pilka A, et al. A Hearing Screening Program for Children in Primary Schools in Tajikistan: A Tele- medicine Model. Med Sci Monit 2016;22:2424-2430

[19] ¹⁹
Bess FH, Dodd-Murphy J, Parker RA. Children with minimal sensorineural hearing loss: prevalence, educational performance, and functional status. Ear Hear 1998;19(05):339-354

[20] ²⁰
Most T. The effects of degree and type of hearing loss on children's performance in class. Deafness Educ Int 2004;6(03):154-166

[21] ²¹
Jerger J, Jerger S. Measurement of hearing in adults. In: Paperella MM, Shumrick DA, eds. Otolaryngology. 2nd ed. Philadelphia: W.B. Saunders; 1980

[22] ²²
Anderson KL. S.I.F.T.E.R.: screening instrument for targeting edu- cational risk in children identi?ed by hearing screening or who have known hearing loss. Tampa, FL: The Educational Audiology Association; 1989

[23] ²³
Oyewumi AM, Adejumo OR. An investigation of hearing loss among school age children through audiological assessment in Ibadan, Oyo State, Nigeria. Elementary Education Online 2011;10(01):1-11

[24] ²⁴
Khairi Md Daud M, Noor RM, Rahman NA, Sidek DS, Mohamad A. The effect of mild hearing loss on academic performance in primary school children. Int J Pediatr Otorhinolaryngol 2010;74 (01):67-70

[25] ²⁵
Hunt L, Wakisa M, Victoria K, et al. Prevalence of pediatric chronic suppurative otitis media and hearing impairment in rural Malawi: A cross-sectional survey. PLoS One 2017;12(12): e0188950

[26] ²⁶
Czech D, Malicka M, Kott E, Zakrzewska A. Incidence of articula- tory disorders in children with recurrent upper respiratory tract infections. Otorynolaryngologia 2011;10(03):116-120

[27] ²⁷
Dhooge IJ. Risk factors for the development of otitis media. Curr Allergy Asthma Rep 2003;3(04):321-325

[28] ²⁸
Skarzynski PH, Kochanek K, Skarzynski H, et al. Hearing screening program in school-age children in Western Poland. Int Adv Otol 2011;7(02):194-200

[29] ²⁹
Yamatodani T, Mizuta K, Hosokawa K, et al. Congenital middle ear cholesteatoma: experience from 26 surgical cases. Ann Otol Rhinol Laryngol 2013;122(05):316-321

[30] ³⁰
Nelson M, Roger G, Koltai PJ, et al. Congenital cholesteatoma: classi?cation, management, and outcome. Arch Otolaryngol Head Neck Surg 2002;128(07):810-814

[31] ³¹
Bovo R, Martini A, Agnoletto M, et al. Auditory and academic performance of children with unilateral hearing loss. Scand Audiol Suppl 1988;30:71-74

[32] ³²
Crandell CC. Speech recognition in noise by children with minimal degrees of sensorineural hearing loss. Ear Hear 1993; 14(03):210-216

[33] ³³
Johnson C, Stein R, Broadway A, Markwalter TS. "Minimal" high- frequency hearing loss and school-age children: Speech recognition in a classroom. Lang Speech Hear Serv Sch 1997;28:77-85

[34] ³⁴
Lewis DE, Valente DL, Spalding JL. Effect of minimal/mild hearing loss on children's speech understanding in a simulated classroom. Ear Hear 2015;36(01):136-144

[35] ³⁵
Ross DS, Holstrum WJ, Gaffney M, Green D, Oyler RF, Gravel JS. Hearing screening and diagnostic evaluation of children with unilateral and mild bilateral hearing loss. Trends Amplif 2008; 12(01):27-34

[36] ³⁶
Holstrum WJ, Gaffney M, Gravel JS, Oyler RF, Ross DS. Early intervention for children with unilateral and mild bilateral degrees of hearing loss. Trends Amplif 2008;12(01):35-41

[37] ³⁷
Ruscetta MN, Arjmand EM, Pratt SR Sr. Speech recognition abilities in noise for children with severe-to-profound unilateral hearing impairment. Int J Pediatr Otorhinolaryngol 2005;69(06):771-779

[38] ³⁸
Klatte M, Hellbrück J, Seidel J, et al. Effects of classroom acoustics on performance and well-being in elementary school children: a ?eld study. Environ Behav 2010;42(05):659-692

[39] ³⁹
McFadden B, Pittman A. Effect of minimal hearing loss on child- ren's ability to multitask in quiet and in noise. Lang Speech Hear Serv Sch 2008;39(03):342-351

[40] ⁴⁰
Lieu JE, Tye-Murray N, Fu Q. Longitudinal study of children with unilateral hearing loss. Laryngoscope 2012;122(09):2088-2095

laterality	Frequencies (Hz)
laterality	250	500	1,000	2,000	4,000	8,000
Right ear (23 ears)	25.2 ± 6.515–40	23.5 ± 515–35	26 ± 5.115–35	27.9 ± 4.315–40	32 ± 4.6.615–40	33.9 ± 7.715–40
Left ear (23 ears)	23.1 ± 4.215–35	23.1 ± 4.515–35	25.6 ± 515–35	27.2 ± 4.315–35	32 ± 6.715–40	34.1 ± 7.315–40

School performance	Normal hearing	Mild hearing loss	t-test	p-value
Attention	10.97 ± 2.562	9.21 ± 2.926	2.797	0.0062
Academic	11.00 ± 2.066	10.05 ± 2.571	1.825	0.070
Participation	11.52 ± 2.515	10.53 ± 2.010	1.728	0.0871
Behavior	11.55 ± 1.895	11.79 ± 2.594	0.487	0.627
Communication	11.03 ± 2.089	9.47 ± 2.144	3.124	0.0023

School performance	CHL	SNHL	t-test	p-value
Attention	10.29 ± 1.65	9.17 ± 0.75	1.59	0.125
Academic	10.65 ± 1.27	9.17 ± 0.75	2.66	0.0145
Participation	10.88 ± 1.54	10.33 ± 0.82	0.80	0.427
Behavior	10.56 ± 1.67	10.17 ± 1.6	0.49	0.622
Communication	10.06 ± 1.6	9 ± 0.89	1.52	0.142

School performance	Unilateral	Bilateral	t-test	p-value
Attention	9.11 ± 3.100	8.30 ± 2.869	0.6086	0.5493
Academic	10.56 ± 2.603	9.60 ± 2.591	0.8165	0.4234
Participation	10.67 ± 1.803	10.40 ± 2.271	0.2774	0.7842
Behavior	11.56 ± 3.046	12.00 ± 2.261	0.3868	0.7028
Communication	9.89 ± 2.804	9.10 ± 1.370	0.9205	0.3678

Brasil

Brasil

Prevalence of Mild Hearing Loss in Schoolchildren and its Association with their School Performance

Abstract

Introduction

Objective

Methods

Results

Conclusion

Introduction

Methods

Ethical Considerations

Statistical Analysis

Results

Demographic Data

Basic Audiological Assessment

Discussion

Conclusion

Limitation

References

Publication Dates

History