Objective measurement of movement variability using wearable sensors predicts <scp>ASD</scp> outcomes in infants at high likelihood for <scp>ASD</scp> and <scp>ADHD</scp>

Wilson, Rujuta B.; Vangala, Sitaram; Reetzke, Rachel; Piergies, Antonia; Ozonoff, Sally; Miller, Meghan

doi:10.1002/aur.3150

Autism Research

2024

DOI: 10.1002/aur.3150

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Objective measurement of movement variability using wearable sensors predicts ASD outcomes in infants at high likelihood for ASD and ADHD

Rujuta B. Wilson,

Sitaram Vangala,

Rachel Reetzke

et al.

Abstract: Early motor delays and differences are common among children with autism spectrum disorder (ASD) and attention‐deficit/hyperactivity disorder (ADHD). Yet, little work has shown whether there are early atypical motor signs that differentiate these groups. Quantitative measures of movement variability hold promise for improving the identification of subtle and specific differences in motor function among infants and toddlers at high likelihood for ASD and ADHD. To this end, we created a novel quantitative measur… Show more

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Physiological parameters to support attention deficit hyperactivity disorder diagnosis in children: a multiparametric approach

Castro Ribeiro,

García Pagès,

Huguet

et al. 2024

Front. Psychiatry

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IntroductionAttention deficit hyperactivity disorder (ADHD) is a high-prevalent neurodevelopmental disorder characterized by inattention, impulsivity, and hyperactivity, frequently co-occurring with other psychiatric and medical conditions. Current diagnosis is time-consuming and often delays effective treatment; to date, no valid biomarker has been identified to facilitate this process. Research has linked the core symptoms of ADHD to autonomic dysfunction resulting from impaired arousal modulation, which contributes to physiological abnormalities that may serve as useful biomarkers for the disorder. While recent research has explored alternative objective assessment tools, few have specifically focused on studying ADHD autonomic dysregulation through physiological parameters. This study aimed to design a multiparametric physiological model to support ADHD diagnosis.MethodsIn this observational study we non-invasively analyzed heart rate variability (HRV), electrodermal activity (EDA), respiration, and skin temperature parameters of 69 treatment-naïve ADHD children and 29 typically developing (TD) controls (7-12 years old). To identify the most relevant parameters to discriminate ADHD children from controls, we explored the physiological behavior at baseline and during a sustained attention task and applied a logistic regression procedure.ResultsADHD children showed increased HRV and lower EDA at baseline. The stress-inducing task elicits higher reactivity for EDA, pulse arrival time (PAT), and respiratory frequency in the ADHD group. The final classification model included 4 physiological parameters and was adjusted by gender and age. A good capacity to discriminate between ADHD children and TD controls was obtained, with an accuracy rate of 85.5% and an AUC of 0.95.DiscussionOur findings suggest that a multiparametric physiological model constitutes an accurate tool that can be easily employed to support ADHD diagnosis in clinical practice. The discrimination capacity of the model may be analyzed in larger samples to confirm the possibility of generalization.

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Physiological parameters to support attention deficit hyperactivity disorder diagnosis in children: a multiparametric approach

Castro Ribeiro,

García Pagès,

Huguet

et al. 2024

Front. Psychiatry

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MECP2 gene; infant movement and autism; white-matter differences in tuberous sclerosis

Adams

2024

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Objective measurement of movement variability using wearable sensors predicts ASD outcomes in infants at high likelihood for ASD and ADHD

Cited by 2 publications

References 57 publications

Physiological parameters to support attention deficit hyperactivity disorder diagnosis in children: a multiparametric approach

Physiological parameters to support attention deficit hyperactivity disorder diagnosis in children: a multiparametric approach

MECP2 gene; infant movement and autism; white-matter differences in tuberous sclerosis

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