Universal Neonatal Hearing Screening - a Necessity and not a Choice

Main Article Content

Saikat Samaddar
Swagatam Banerjee
Sanjoy Kumar Ghosh
Subhra Bhattacharya
Diptanshu Mukherjee
Sirshak Dutta

Abstract

INTRODUCTION


Congenital deafness in a child is often missed. Several distraction tests have evolved over time to diagnose congenital deafness. These are of limited value in the era of Evoked response audiometry. Evoked responses, such as Oto-acoustic emission (OAE) and Brainstem Evoked Response Audiometry (BERA) have played a significant role in early diagnosis of congenital hearing impairment. The study was conducted to compare the result of neonatal hearing screening in high risk and non high risk neonates.


 


MATERIALS AND METHODS


A study was conducted over a time period of three months at a tertiary care institute to screen all live neonates for congenital hearing impairment using OAE and BERA.


 


RESULT


1182 neonates were screened for hearing impairment. 336 were in High risk group and rest in Non high risk group. Nine neonates turned out to have abnormal BERA result (absence of wave V). Six of them were high risk babies and rest 3 were non high risk.


 


DISCUSSION


33.33% of congenital deaf population detected by UNHS belong to the Non High Risk group. Studies across the world suggest at least 50% chance of missing out a congenital deaf child if Universal Neonatal Hearing Screening is not practiced.


 


CONCLUSION


In order to ensure that early detection and effective intervention are made on all newborns with hearing impairment, UNHS should be performed. Three stage UNHS protocol using TEOAEs and BERA showed that the implementation of UNHS for congenital childhood hearing loss among all newborns in India feasible and effective.

Article Details

How to Cite
1.
Samaddar S, Banerjee S, Ghosh SK, Bhattacharya S, Mukherjee D, Dutta S. Universal Neonatal Hearing Screening - a Necessity and not a Choice. BJOHNS [Internet]. 2015Apr.4 [cited 2024Nov.21];23(1):1-6. Available from: https://bjohns.in/journal3/index.php/bjohns/article/view/29
Section
Main article
Author Biographies

Saikat Samaddar, Medical College And Hospital, Kolkata.

Junior Resident,
Department Of ENT

Swagatam Banerjee, Medical College, Kolkata

Senior Resident,
Dept. of ENT

Sanjoy Kumar Ghosh, Medical College, Kolkata

Junior Resident, Department of ENT

Subhra Bhattacharya, Medical College, Kolkata

Junior Resident, Department of Physiology

Diptanshu Mukherjee, Medical College

RMO cum Clinical Tutor, Department of ENT

Sirshak Dutta, Medical College, Kolkata

RMO cum Clinical Tutor, Department of ENT

References

Kemp DT: Stimulated acoustic emissions from within the human auditory system. J Acoust Soc Am 64: 1386- 1391, 1977.

Newborn and infant hearing screening: current issues and guiding principles for action, WHO Library Cataloguing-in-Publication Data, Switzerland.

Froding CA: Acoustic investigation of Newborn Infant. Acta Otolaryngol 52: 31- 41, 1960

Joint Committee On Infant Hearing: Position statement. Pediatrics 70: 496- 497, 1982.

Available at: http://hearing.screening.nhs.uk/surveillance. Accessed January 24, 2015.

Matkin N: Re-evaluating our evaluations, in Bess FH (ed): Hearing Impairment in Children. Parkton, Md: York Press, 1988.

Stein L, Clark S, Kraus N: The hearing impaired infant: Patterns of identification and habilitation. Ear Hear 4: 232- 286, 1983.

Newborn and infant hearing screening: current issues and guiding principles for action, WHO Library Cataloguing-in-Publication Data, Switzerland.

Joint Committee on Infant Hearing, American Academy of Audiology, American Academy of Pediatrics, American Speech-Language-Hearing Association, Directors of Speech and Hearing Programmes in State Health and Welfare Agencies, “Year 2000 Position Statement: Prin- ciples and Guidelines for Early Hearing Detection and Intervention Programmes,” Pediatrics, Vol. 106, pp. 798-817, 2000.

Joint Committee on Infant Hearing, “Joint Committee on Infant Hearing (JICH) 1994 Position Statement,” Pediat- rics, Vol. 95, pp. 152-156, 1994.

M. A. M. De, “Newborn Hearing Screening,” eMedicine, pp. 1-14, 2004.

K. R. White, B. R. Vohr and T. R. Behrens, “Universal Newborn Hearing Screening Using Transient Evoked Otoacoustic Emissions: Results of the Rhode Island Hear- ing Assessment Project,” Seminars in Hearing, Vol. 14, pp. 18-29, 1993.

G. Isaacson, “Universal Newborn Hearing Screening and Intervention,” Advances in Otolaryngology-Head and Neck Surgery, Vol. 15, pp. 1-19, 2001.

K. White and A. Maxon, “Universal Screening for the Hearing Impairment: Simple, Beneficial and Presently Justified,” International Journal of Pediatric Otorhinola- ryngology, Vol. 32, No. 3, 1995, pp. 201-211. doi:10.1016/0165-5876(95)01165-8

Bonfils P, Francois M, Avan P: Spontaneous and evoked emissions in preterm neonates. Laryngoscope 102: 182- 189, 1992

Doyle KJ, Burggraaff B, Fujikawa S, Kim J: Neonatal hearing screening with otoscopy, auditory brain stem response, and otoacoustic emissions. Otolaryngol Head Neck Surg 116: 597- 603, 1997.

Brass D, Watkin P, Kemp DT: Assessment of an implementation of an narrow band, neonatal oto acoustic emission screening method. Ear Hear 15: 467- 475, 1994

Weirather YP, Korth N, White KR, et al: Cost analysis of TEOAE- based universal neonatal hearing screening. J Commun Disord 30: 477- 493, 1997.

Bantock HM, Croxson S: Universal hearing screening using transient otoacoustic emission in a community health clinic. Atch Dis Child 78: 249- 252, 1998.

Schwartz DM, Schwartz JA: Auditory evoked potential in clinical paediatrics, in Rintelmann WF (ed): Hearing Assessment. Austin, Tex, Pro- Ed, Inc, 1991

Van Straaten HL, Groote ME, Oudesluys-Murphy AM: Evaluation of an automated auditory brain stem response infant hearing screening method in a risk neonate. Eur J Pediatr 155: 702- 705, 1996.

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