Early neurophysiological markers of aberrant auditory processing associated with increased risk of autism spectrum disorder: A systematic review.
Early neurophysiological markers of aberrant auditory processing associated with increased risk of autism spectrum disorder: A systematic review.
Importance: there is a lack of reliable early diagnostic criteria for autism spectrum disorder (ASD), despite earlier diagnosis leading to better outcomes.
Objective: to evaluate the association of aberrant auditory processing (AAP) as a potential early marker of ASD risk in children under 2 years old.
Methods: a systematic review of studies published between 1985 and September 2024 was conducted by searching PubMed and Web of Science.
Results: the review encompassed 18 studies with 140 231 participants, and a majority (76%) of these studies found evidence that early neurophysiological changes in auditory processing are associated with later ASD risk. Specifically, prolonged auditory brainstem response (ABR) latency, reduced social stimuli selectivity, and poorer auditory brain connectivity were correlated with ASD status in later childhood. Notably, auditory habituation did not differ significantly with ASD risk. It's important to recognize that the evidence was somewhat limited by heterogeneity, small sample sizes, and inadequate reporting.
Interpretation: this review identified three early neurophysiological AAP markers associated with ASD risk: ABR latency, social stimuli selectivity, and auditory brain coherence. These markers show potential for aiding in earlier ASD risk assessment in young children, potentially leading to earlier interventions. However, to fully establish the association of these AAP markers with ASD as a reliable screening tool during early childhood, future research should focus on standardized experimental protocols and adequately powered prospective cohort studies.
Auditory processing, Autism spectrum disorder, Early infancy, Neurophysiological markers, Risk assessment
191-200
Benz, Fee
9ccb82be-3139-4870-a690-913836ce9590
Hanna, Sean
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Harvey, Nicholas C.
ce487fb4-d360-4aac-9d17-9466d6cba145
Koster, Moritz
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Villar, Jose
316f758c-97b0-42a3-9b04-b7ead75181ee
Fernandes, Michelle
16d62e60-ae8e-455f-88d3-88e778253b4a
June 2025
Benz, Fee
9ccb82be-3139-4870-a690-913836ce9590
Hanna, Sean
9c75222b-db23-4785-8392-9d527370f788
Harvey, Nicholas C.
ce487fb4-d360-4aac-9d17-9466d6cba145
Koster, Moritz
4ea62989-e919-4380-b462-bf89cd50769c
Villar, Jose
316f758c-97b0-42a3-9b04-b7ead75181ee
Fernandes, Michelle
16d62e60-ae8e-455f-88d3-88e778253b4a
Benz, Fee, Hanna, Sean, Harvey, Nicholas C., Vollmer, Brigitte, Koster, Moritz, Villar, Jose and Fernandes, Michelle
(2025)
Early neurophysiological markers of aberrant auditory processing associated with increased risk of autism spectrum disorder: A systematic review.
Pediatric investigation, 9 (2), .
(doi:10.1002/ped4.12460).
Abstract
Importance: there is a lack of reliable early diagnostic criteria for autism spectrum disorder (ASD), despite earlier diagnosis leading to better outcomes.
Objective: to evaluate the association of aberrant auditory processing (AAP) as a potential early marker of ASD risk in children under 2 years old.
Methods: a systematic review of studies published between 1985 and September 2024 was conducted by searching PubMed and Web of Science.
Results: the review encompassed 18 studies with 140 231 participants, and a majority (76%) of these studies found evidence that early neurophysiological changes in auditory processing are associated with later ASD risk. Specifically, prolonged auditory brainstem response (ABR) latency, reduced social stimuli selectivity, and poorer auditory brain connectivity were correlated with ASD status in later childhood. Notably, auditory habituation did not differ significantly with ASD risk. It's important to recognize that the evidence was somewhat limited by heterogeneity, small sample sizes, and inadequate reporting.
Interpretation: this review identified three early neurophysiological AAP markers associated with ASD risk: ABR latency, social stimuli selectivity, and auditory brain coherence. These markers show potential for aiding in earlier ASD risk assessment in young children, potentially leading to earlier interventions. However, to fully establish the association of these AAP markers with ASD as a reliable screening tool during early childhood, future research should focus on standardized experimental protocols and adequately powered prospective cohort studies.
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Pediatric Investigation - 2025 - Benz - Early neurophysiological markers of aberrant auditory processing associated with
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More information
Accepted/In Press date: 22 October 2024
e-pub ahead of print date: 6 January 2025
Published date: June 2025
Keywords:
Auditory processing, Autism spectrum disorder, Early infancy, Neurophysiological markers, Risk assessment
Identifiers
Local EPrints ID: 499660
URI: http://eprints.soton.ac.uk/id/eprint/499660
ISSN: 2574-2272
PURE UUID: 37d5cd0c-8b8a-4571-a906-921964f1f413
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Date deposited: 28 Mar 2025 18:32
Last modified: 22 Aug 2025 02:34
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Contributors
Author:
Fee Benz
Author:
Sean Hanna
Author:
Brigitte Vollmer
Author:
Moritz Koster
Author:
Jose Villar
Author:
Michelle Fernandes
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