THE QUEST FOR EARLY IDENTIFICATION AND INTERVENTION

Marion P. Downs

doi:10.1055/s-2000-13467

Seminars in Hearing, Table of Contents

Semin Hear 2000; 21(4): 285-294
DOI: 10.1055/s-2000-13467

THE QUEST FOR EARLY IDENTIFICATION AND INTERVENTION

Marion P. Downs

University of Colorado Health Sciences Denver, Colorado

Abstract

ABSTRACT

Screening testing of young infants' hearing was initiated by the Ewings in England in 1944, and variations of their tests were used in Europe and other countries for many years. Efforts to screen newborns with noisemakers began shortly thereafter in Japan, Sweden, and the United States. Universal newborn screening with electronic sounds was introduced in Denver, Colorado, in 1964, but was discontinued after the formation of the National Joint Committee on Infant Hearing. This Committee recommended the use of a High Risk Register and in 1982 suggested that electrophysiologic techniques be employed. These techniques had been available since the 1950s, with the advent of the signal-averaging computer. In 1986, the first commercial automated auditory brain stem-evoked response (ABR) instrument was developed, fostering the development of universal newborn hearing screening. In the United States, with most of the states having laws mandating universal screening, and the federal government also providing support to the states, universal newborn screening is well on its way to becoming a worldwide essential.

KEYWORD

Newborn screening - screening history

Full Text

References

REFERENCES

1 Aldrich C. A new test for hearing in the newborn: the conditioned reflex. Am J Dis Child . 1928; 35 36-37
2 Referenced in: Northern J, Downs M P. Hearing in Children. 1st ed. Baltimore: Williams & Wilkins 1974
3 Dean L W, Bunch C C. The use of the pitch range audiometer in otology. Laryngoscope . 1919; 29 453
4 Downs M. The familiar sounds test and other tests for hearing screening in children. J School Health . 1956; 26 77-87
5 Froding A. Acoustic investigation of newborn infants. Acta Otolaryngol . 1960; 52 31-40
6 Downs M P, Sterritt G M. Identification audiometry for neonates-a preliminary report. J Audiol Res . 1964; 4 69-80
7 Downs M P, Sterritt G M. A guide to newborn and infant hearing screening programs. Arch Otolaryngol . 1967; 85 15-22
8 Bergstrom L, Hemenway W G, Downs M P. A high risk registry to find congenital deafness. Otolaryngol Clin North Am . 1971; 4 369-399
9 Bronstein W, Petrova E. The auditory analyzer in young infants. In: Brackbill Y, Thompson G, eds. Behavior in Infancy and Early Childhood New York: Free Press 1967: 77-89
10 Bernstein R S, Gravel J S. Orienting as a means of assessing hearing in newly born infants. In: Bess FH, Hall JW, eds. Screening Children for Auditory Function Nashville, TN: Bill Wilkerson Center Press; 1992
11 Simmons F B. Reported in: Northern J, Downs MP. Hear Child Baltimore: Williams & Wilkins, 1973: 106
12 Simmons F B. Automated hearing screening test for newborns: the crib-o-gram. In: Mencher G, ed. Early Identification of Hearing Loss Basel: S Karger 1976: 171-180
13 Bennett M. Trials with the auditory response cradle. I. Neonatal responses to auditory stimuli. Br J Audiol . 1979; 13 125
14 Amochaev A. The infant hearing foundation-a unique approach to hearing screening of newborns. Semin Hear . 1987; 8 165-168
15 Peters J G. An automated infant screener using advanced evoked response technology. Hear J . 1986; 3 25-30
16 Downs M P. Universal newborn hearing screening-the Colorado story. Int J Pediatr Otorhinolaryngol . 1995; 32 257-259
17 Prieve A P, Stevens F. The New York State universal newborn screening demonstration project: introduction and overview. Ear Hear . 2000; 21 85-91
18 Finitzo T, Albright K, O'Neal J. The newborn with hearing loss: detection in the newborn nursery. Pediatrics . 1998; 102 1452-1260
19 Mason J A, Herrmann K SR. Universal infant hearing screening by automated auditory brainstem response measurement. Pediatrics . 1998; 101 221-228
20 Gold T. Hearing. II. The physical basis of the action of the cochlea. Proc R Soc Bri . 1948; 135 492-498
21 Kemp D. Stimulated acoustic emissions from within the human auditory system. J Acoust Soc Am . 1978; 84 1386-1391
22 Glattke T, Kujawa S. Otoacoustic emissions. Am J Audiol . 1991; 1 29-49
23 Lounsbury-Martin B, Martin G. The clinical utility of distortion product emissions. Ear Hear . 1990; 11 144-154
24 Stevens A, Webb H, Hutchinson J. Slick evoked otoacoustic emissions compared with brainstem electric response. Arch Dis Child . 1989; 64 1105-1111
25 Uziel A, Pron J. Evoked otoacoustic emissions from normal newborn and babies admitted to an intensive care baby unit. Acta Otolaryngol (Stockh) . 1991; 482(Suppl) 85-91
26 Kennedy C, Kimm D, Cafarelli D. Otoacoustic emissions and auditory brainstem response in the newborn. Arch Dis Child . 1991; 64 1124-1129
27 Joint Committee on Infant Hearing. Joint Committee on Infant Hearing Position Statement Hearing in Children. 1st ed. Baltimore, MD: Williams & Wilkins 1970: 1973:108-109
28 Joint Committee on Infant Hearing. Joint Committee on Infant Hearing Position Statement. ASHA . 1982; 24 1017-1018
29 Joint Committee on Infant Hearing. Joint Committee on Infant Hearing Position Statement. ASHA. 1991;
30 Joint Committee on Infant Hearing. Joint Committee on Infant Hearing Position Statement. Audiol Today . 1994; 6 6-9
31 Joint Committee on Infant Hearing. Joint Committee on Infant Hearing Position Statement. 2000; www.asha.org/infant hearing/y2kpstn stmnt.htm
32 NIH Consensus Statement. Early Identification of Hearing Impairment in Infants and Young Children. National Institutes of Health, Office of the Director. 1993;11:No 1, March 1-3