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Although theory of mind (ToM) is seen as a primary contributor to pragmatic language use in autistic individuals, less work has considered the influence of structural language. This study examines grammaticality judgements, ToM (Reading the Eyes in the Mind, Social Attribution Test), and pragmatic language (a de novo measure based on Pragmatic Language Scales), and their associations, in three groups with heterogenous abilities: Current autism (n = 36); those with a history of autism spectrum disorder, who no longer display symptoms ( “loss of autism diagnosis”, LAD; n = 32), and non-autistic (n = 36) adolescents and adults with fluent verbal skills. Results showed pragmatic difficulties in autism, relative to both other groups, difficulties in affective ToM relative to both other groups, and difficulties in structural language relative to neurotypical controls; LAD individuals showed no impairments. While pairwise associations of structural language and matrix reasoning with pragmatic language were observed, ToM was the only unique predictor of pragmatic language when all measures were included in the models. Results suggest complex interactions among pragmatic and structural language, and ToM, and that pragmatic language improves meaningfully with broad changes in broad aspects of autism when individuals lose the autism diagnosis.
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Exploring the Intersection of Autism, Theory of Mind, and Driving Performance in Novice Drivers
Abstract This study explores the intersection of Theory of Mind (ToM) abilities and driving performance among novice drivers, with a focus on autistic individuals. The purpose is to investigate how ToM deficits may impact driving behaviors and decision-making, ultimately informing the development of tailored interventions and training programs for autistic drivers. We conducted a series of driving simulations using a custom-built driving simulator, capturing multimodal data including driving performance metrics, attention allocation, and physiological responses. Participants were categorized based on NEPSY scores, which assess ToM abilities, and self-reported autism spectrum disorder (ASD) diagnosis. Driving tasks were designed to simulate real-world scenarios, particularly focusing on intersections and merging, where ToM skills are crucial for safe navigation. Our analysis revealed differences in driving behaviors among participants with varying ToM abilities as determined through the NEPSY. Participants with lower NEPSY scores exhibited less smooth driving behaviors, increased risk-taking tendencies, and differences in attention allocation compared to those with higher scores. Alternatively, individuals with ASD displayed comparable driving patterns overall. ToM abilities influence driving behaviors and decision-making, particularly in complex social driving scenarios. Tailored interventions addressing ToM deficits and stress management could improve driving safety and accessibility for autistic individuals. This study underscores the importance of considering social cognitive factors in driving education and licensure pathways, aiming for greater inclusivity and accessibility in transportation systems.
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- Award ID(s):
- 2322029
- PAR ID:
- 10536698
- Publisher / Repository:
- Springer Science + Business Media
- Date Published:
- Journal Name:
- Journal of Autism and Developmental Disorders
- Volume:
- 55
- Issue:
- 6
- ISSN:
- 0162-3257
- Format(s):
- Medium: X Size: p. 2124-2140
- Size(s):
- p. 2124-2140
- Sponsoring Org:
- National Science Foundation
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