International consensus (ICON) on audiological assessment of hearing loss in children
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Abstract: The prevalence of hearing loss in newborns and infants is estimated between 1 to 3.47 cases per 1000 live births. Neonatal screening for hearing loss and audiological evaluation are becoming more extensively carried out. However, there is no consensus regarding the use of audiometry and other electrophysiological tests in current practices. This article is intended to provide professionals with recommendations about the "best practice" based on consensus opinion of the session's speakers, and a review of the literature on the efficacy of various assessment options for children with hearing loss.
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[1] FARINETTI A, RAJI A, WU H, et al.International consensus (ICON) on audiological assessment of hearing loss in children[J].Eur Ann Otorhinolaryngol Head Neck Dis, 2018, 135:S41-S48.
[2] KEMP D, RYAN S, BRAY P.A guide to the effective use of otoacoustic emissions[J].Ear Hear, 1990, 11:93-105.
[3] AMERICAN ACADEMY OF PEDIATRICS, JOINTCOMMITTEE ON INFANT HEARING.Year 2007position statement:Principles and guidelines for early hearing detection and intervention programs[J].Pediatrics, 2007, 120:898-921.
[4] LIMING B J, CARTER J, CHENG A, et al.International pediatric otolaryngology group (IPOG) consensus recommendations:hearing loss in the pediatric patient[J].Int J Pediatr Otorhinolaryngol, 2016, 90:251-258.
[5] MARGOLIS R H, BASS-RINGDAHL S, HANKSW D, et al.Tympanometry in newborn infants——1kHz norms[J].J Am Acad Audiol, 2017, 14:383-392.
[6] JANSSEN T.A review of the effectiveness of otoacoustic emissions for evaluating hearing status after newborn screening[J].Otol Neurotol, 2013, 34:1058-1063.
[7] BALDWIN M, WATKIN P.Predicting the degree of hearing loss using click auditory brainstem response in babies referred from newborn hearing screening[J].Ear Hear, 2013, 34:361-369.
[8] GORGA M P, JOHNSON T A, KAMINSKI J K, et al.Using a combination of click-and tone burst-evoked auditory brainstem response measurements to estimate pure-tone thresholds[J].Ear Hear, 2006, 27:60-74.
[9] ELBERLING C, CALLO J, DON M.Evaluating auditory brainstem responses to different chirp stimuli at three levels of stimulation[J].J Acoust Soc Am, 2010, 128:215-223.
[10] ELBERLING C, DON M.Auditory brainstem responses to a chirp stimulus designed from derivedband latencies in normal-hearing subjects[J].JAcoust Soc Am, 2008, 124:3022-3037.
[11] STEVENS J, SUTTON G, WOOD S, et al.Guidelines for the early audiological assessment and management of babies referred from the newborn hearing screening programme[J].NHSP Early Assess Guidel, 2013, 31:1-44.
[12] FRANCOIS M, DEHAN E, CARLEVAN M, et al.Use of auditory steady-state responses in children and comparison with other electrophysiological and behavioral tests[J].Eur Ann Otorhinolaryngol Head Neck Dis, 2016, 133:331-335.
[13] DIMITRIJEVIC A, JOHN M, VANPOON P, et al.Estimating the audiogram using multiple auditory steady-state responses[J].J Am Acad Audiol, 2002, 13:205-224.
[14] RANCE G, BEER D, CONE-WESSON B, et al.Clinical findings for a group of infants and young children with auditory neuropathy[J].Ear Hear, 1999, 20:238-252.
[15] LUTS H, DESLOOVERE C, WOUTERS J.Clinical application of dichotic multiplestimulus auditory steady-state responses in high-risk newborns and young children[J].Audiol Neurotol, 2006, 11:24-37.
[16] SILVA D P C, LOPEZ P S, MONTOVANI J C.Auditory steady state response in hearing assessment in infants with cytomegalovirus[J].Rev Paul Pediatr, 2013, 31:550-553.
[17] GRASEL S S, DE ALMEIDA E R, BECK R, et al.Are auditory steady-state responses useful to evaluate severe-to-profound hearing loss in children[J]?Biomed Res Int, 2015, 2015:579206.
[18] REA P, GIBSON W.Evidence for surviving outer hair cell function in congenitally deaf ears[J].Laryngoscope, 2003, 113:2030-2034.
[19] MADDEN C, RUTTER M, HILBERT L, et al.Clinical and audiological features in auditory neuropathy[J].Arch Otolaryngol Head Neck Surg, 2002, 128:1026-1030.
[20] MANCHAIAH V K C, ZHAO F, DANESH A A, et al.The genetic basis of auditory neuropathy spectrum disorder (ANSD)[J].Int J Pediatr Otorhinolaryngol, 2011, 75:151-158.
[21] HOOD L J.Auditory Neuropathy/Dys-Synchrony Disorder:Diagnosis and Management[J].Otolaryngol Clin North Am, 2015, 48:1027-1040.
[22] KAGA K.Auditory nerve disease and auditory neuropathy spectrum disorders[J].Auris Nasus Larynx, 2016, 43:10-20.
[23] BERLIN C, BORDELON J, ST JOHN P, et al.Reversing click polarity may uncover auditory neuropathy in infants[J].Ear Hear, 1998, 19:37-47.
[24] RAVEH E, BULLER N, BADRANA O, et al.Auditory neuropathy:clinical characteristics and therapeutic approach[J].Am J Otolaryngol, 2007, 28:302-308.
[25] RANCE G, BARKER E.Speech and language outcomes in children with auditory neuropathy/dys-synchrony managed with either cochlear implants or hearing aids[J].Int J Audiol, 2009, 48:313-320.
[26] RANCE G, BARKER E.Speech perception in children with auditory neuropathy/dyssynchrony managed with either hearing AIDS or cochlear implants[J].Otol Neurotol, 2008, 29:179-182.
[27] EONG S, KIM L.Auditory neuropathy spectrum disorder:predictive value of radiologic studies and electrophysiologic tests on cochlear implant outcomes and its radiologic classification[J].Acta Otolaryngol, 2013, 133:714-721.
[28] BRENEMAN A, GIFFORD R, DEJONG M.Cochlear implantation in children with auditory neuropathy spectrum disorder:long term outcomes[J].J Am Acad Audiol, 2012, 23:5-17.
[29] STUERMER K, BEUTNER D, FOERST A, et al.Electrocochleography in children with auditory synaptopathy/neuropathy:diagnostic findings and characteristic parameters[J].Int J Pediatr Otorhinolaryngol, 2015, 79:139-145.
[30] MCMAHON C, PATUZZI R, GIBSON W, et al.Frequency-specific electrocochleography indicates that presynaptic and postsynaptic mechanisms of auditory neuropathy exist[J].Ear Hear, 2008, 29:314-325.
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