Prolonged Auditory Brainstem Response in Universal Hearing Screening of Newborns with Autism Spectrum Disorder

Oren Miron; Rafael E. Delgado; Christine F. Delgado; Elizabeth A. Simpson; Kun Hsing Yu; Anibal Gutierrez; Guangyu Zeng; Jillian N. Gerstenberger; Isaac S. Kohane

doi:10.1002/aur.2422

Prolonged Auditory Brainstem Response in Universal Hearing Screening of Newborns with Autism Spectrum Disorder

Oren Miron, Rafael E. Delgado, Christine F. Delgado, Elizabeth A. Simpson, Kun Hsing Yu, Anibal Gutierrez, Guangyu Zeng, Jillian N. Gerstenberger, Isaac S. Kohane

Research output: Contribution to journal › Article › peer-review

25 Scopus citations

Abstract

Previous studies report prolonged auditory brainstem response (ABR) in children and adults with autism spectrum disorder (ASD). Despite its promise as a biomarker, it is unclear whether healthy newborns who later develop ASD also show ABR abnormalities. In the current study, we extracted ABR data on 139,154 newborns from their Universal Newborn Hearing Screening, including 321 newborns who were later diagnosed with ASD. We found that the ASD newborns had significant prolongations of their ABR phase and V-negative latency compared with the non-ASD newborns. Newborns in the ASD group also exhibited greater variance in their latencies compared to previous studies in older ASD samples, likely due in part to the low intensity of the ABR stimulus. These findings suggest that newborns display neurophysiological variation associated with ASD at birth. Future studies with higher-intensity stimulus ABRs may allow more accurate predictions of ASD risk, which could augment the universal ABR test that currently screens millions of newborns worldwide. Lay Summary: Children with autism spectrum disorder (ASD) have slow brain responses to sounds. We examined these brain responses from newborns' hearing tests and found that newborns who were later diagnosed with autism also had slower brain responses to sounds. Future studies might use these findings to better predict autism risk, with a hearing test that is already used on millions of newborns worldwide.

Original language	English
Pages (from-to)	46-52
Number of pages	7
Journal	Autism Research
Volume	14
Issue number	1
DOIs	https://doi.org/10.1002/aur.2422
State	Published - Jan 2021
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2020 The Authors. Autism Research published by International Society for Autism Research and Wiley Periodicals LLC.

Funding

The authors would like to thank the Florida Department of Education and MEDNAX for providing the data. The authors are also grateful to Antonio Gonzalez and Olga Camacho for their assistance with the data linkage. NIH (SBIR 1R43DC018430–01) to R.E.D. NSF CAREER Award (1653737) to E.A.S. Harvard Data Science Fellowship to K.H.Y. No additional funding to report. The authors would like to thank the Florida Department of Education and MEDNAX for providing the data. The authors are also grateful to Antonio Gonzalez and Olga Camacho for their assistance with the data linkage. NIH (SBIR 1R43DC018430?01) to R.E.D. NSF CAREER Award (1653737) to E.A.S. Harvard Data Science Fellowship to K.H.Y. No additional funding to report.

Funders	Funder number
Florida Department of Education
MEDNAX
National Science Foundation	1653737
National Institutes of Health
National Institute on Deafness and Other Communication Disorders	R43DC018430

Keywords

auditory
biomarker
children
event-related potential
infants

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Cite this

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title = "Prolonged Auditory Brainstem Response in Universal Hearing Screening of Newborns with Autism Spectrum Disorder",

abstract = "Previous studies report prolonged auditory brainstem response (ABR) in children and adults with autism spectrum disorder (ASD). Despite its promise as a biomarker, it is unclear whether healthy newborns who later develop ASD also show ABR abnormalities. In the current study, we extracted ABR data on 139,154 newborns from their Universal Newborn Hearing Screening, including 321 newborns who were later diagnosed with ASD. We found that the ASD newborns had significant prolongations of their ABR phase and V-negative latency compared with the non-ASD newborns. Newborns in the ASD group also exhibited greater variance in their latencies compared to previous studies in older ASD samples, likely due in part to the low intensity of the ABR stimulus. These findings suggest that newborns display neurophysiological variation associated with ASD at birth. Future studies with higher-intensity stimulus ABRs may allow more accurate predictions of ASD risk, which could augment the universal ABR test that currently screens millions of newborns worldwide. Lay Summary: Children with autism spectrum disorder (ASD) have slow brain responses to sounds. We examined these brain responses from newborns' hearing tests and found that newborns who were later diagnosed with autism also had slower brain responses to sounds. Future studies might use these findings to better predict autism risk, with a hearing test that is already used on millions of newborns worldwide.",

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Prolonged Auditory Brainstem Response in Universal Hearing Screening of Newborns with Autism Spectrum Disorder

Abstract

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