Motor demands impact speed of information processing in autism spectrum disorders.

Kenworthy, Lauren; Yerys, Benjamin E.; Weinblatt, Rachel; Abrams, Danielle N.; Wallace, Gregory L.

doi:10.1037/a0033599

Cited by 29 publications

(24 citation statements)

References 23 publications

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“…In addition, the inspection time studies included children with ASD (Scheuffgen et al 2000; Wallace et al 2009; Kenworthy et al 2013), or a broad range of ages from adolescence and adulthood (Barbeau et al 2013), whereas the current study focused on adults with ASD. There may be a developmental change or delay (Williams et al 2013) in processing speed in ASD, which could also explain the discrepancy in results.…”

Section: Discussionmentioning

confidence: 99%

“…A growing number of investigations have provided evidence of significant reductions in processing speed in both children (Oliveras-Rentas et al 2012; Nader et al 2015; Hedvall et al 2013; Mayes and Calhoun 2007; Bavin et al 2016a, b) and in adults with ASD without comorbid ID (Holdnack et al 2011; Faja et al 2009; Eack et al 2013a), and several studies showed relationships between slower processing speed and impaired measures of social cognition (Oliveras-Rentas et al 2012; Lerner et al 2013). However, there are several studies that do not show reduced processing speed in children with ASD (Scheuffgen et al 2000; Wallace et al 2009; Kenworthy et al 2013), and even fewer that examine the presence of this impairment in adulthood.…”

Section: Introductionmentioning

confidence: 99%

“…Studies have used a variety of methods to measure processing speed: some used standardized tests from measures of intelligence, for example, the Wechsler Intelligence Scales for Children (Oliveras-Rentas et al 2012; Nader et al 2015; Hedvall et al 2013; Mayes and Calhoun 2007) and the Measurement and Treatment Research to Improve Cognition in Schizophrenia (MATRICS) battery, which is comprised of tests of neuropsychological functioning (Eack et al 2013a), whereas others have used tests of inspection time (i.e. reaction time to identify which of two lines appears to be longer; Scheuffgen et al 2000; Wallace et al 2009; Kenworthy et al 2013), language tests (Bavin et al 2016a, b) or measures confounded with social-cognitive impairment (Faja et al 2009). When standardized tests have been utilized, the majority of studies have showed impaired processing speed (Oliveras-Rentas et al 2012; Nader et al 2015; Hedvall et al 2013; Mayes and Calhoun 2007; Bavin et al 2016a, bb; Holdnack et al 2011; Faja et al 2009; Eack et al 2013a).…”

Section: Introductionmentioning

confidence: 99%

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Processing Speed is Impaired in Adults with Autism Spectrum Disorder, and Relates to Social Communication Abilities

Haigh

Walsh

Mazefsky

et al. 2018

J Autism Dev Disord

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Autism spectrum disorder (ASD) is characterized by a variety of social and non-social behavioral deficits. One potential mechanism that could unify this diverse profile of behaviors is slower processing speed. Seventy-six high-functioning adults with ASD were compared to 64 matched controls on standardized measures of processing speed. Participants with ASD were significantly slower on all measures, and on the composite score from the three tests (d's > .65). ASD participants with slower processing speeds scored higher on the ADOS Communication and Reciprocal Social Interaction scale (r = .34). These findings provide evidence of slower processing speeds in adults with ASD, and that this may be contributing to impairments in social communication skills. Interventions that improve processing speed might improve social communication abilities in ASD.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Processing Speed is Impaired in Adults with Autism Spectrum Disorder, and Relates to Social Communication Abilities

Haigh

Walsh

Mazefsky

et al. 2018

J Autism Dev Disord

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“…However, normal appearing activation patterns emerged by the second scan, at which point the ASD group attained the same level of activation that was observed by the controls in the first scan. This suggests that the individuals with ASD may engage in slower, inefficient information processing (Bertone et al 2005; Dawson et al 2005), which may have been compounded by the simple motor response included in our paradigm (Kenworthy et al 2013). …”

Section: Discussionmentioning

confidence: 99%

Altered Dynamics of the fMRI Response to Faces in Individuals with Autism

Kleinhans

Richards

Greenson

et al. 2015

J Autism Dev Disord

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Abnormal fMRI habituation in autism spectrum disorders (ASD) has been proposed as a critical component in social impairment. This study investigated habituation to fearful faces and houses in ASD and whether fMRI measures of brain activity discriminate between ASD and typically developing (TD) controls. Two identical fMRI runs presenting masked fearful faces, houses, and scrambled images were collected. We found significantly reduced habituation to fearful faces but not houses in ASD. In addition, amygdala habituation to faces had robust discriminability (ASD versus TD; area under the curve (AUC) = .852, p<.000). In contrast, habituation to houses had no predictive value (AUC = .573, p =.365). Amygdala habituation to emotional faces may be useful for quantifying risk in ASD.

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“…Increased activation in the putamen in the adolescent ASD group may reflect a compensatory process in order to overcome possible delayed development in cortical (i.e., FEF) control in order to generate a successful AS response. There is little fMRI evidence showing activation differences in putamen in ASD, with one study linking reduced activation in putamen with repetitive behavior symptoms and verbal fluency in ASD [Kenworthy et al, 2013]. However, converging lines of research from PET and structural MRI have suggested that the putamen may be a locus of dysfunction in ASD.…”

Section: Discussionmentioning

confidence: 99%

Developmental Changes in Brain Function Underlying Inhibitory Control in Autism Spectrum Disorders

et al. 2014

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The development of inhibitory control—the ability to suppress inappropriate actions in order to make goal-directed responses—is often impaired in autism spectrum disorders (ASD). In the present study, we examined whether the impairments in inhibitory control evident in ASD reflect—in part—differences in the development of the neural substrates of inhibitory control from adolescence into adulthood. We conducted a functional magnetic resonance imaging (fMRI) study on the anti-saccade task, a probe of inhibitory control, in high-functioning adolescents and adults with ASD compared to a matched group of typically developing (TD) individuals. The ASD group did not show the age-related improvements in behavioral performance from adolescence to adulthood evident in the typical group, consistent with previous behavioral work. The fMRI results indicated that much of the circuitry recruited by the ASD group was similar to the TD group. However, the ASD group demonstrated some unique patterns, including: (a) a failure to recruit the frontal eye field during response preparation in adolescence but comparable recruitment in adulthood; (b) greater recruitment of putamen in adolescence and precuneus in adolescence and adulthood than the TD group; and (c) decreased recruitment in the inferior parietal lobule relative to TD groups. Taken together, these results suggest that brain circuitry underlying inhibitory control develops differently from adolescence to adulthood in ASD. Specifically, there may be relative underdevelopment of brain processes underlying inhibitory control in ASD, which may lead to engagement of subcortical compensatory processes.

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Motor demands impact speed of information processing in autism spectrum disorders.

Cited by 29 publications

References 23 publications

Processing Speed is Impaired in Adults with Autism Spectrum Disorder, and Relates to Social Communication Abilities

Processing Speed is Impaired in Adults with Autism Spectrum Disorder, and Relates to Social Communication Abilities

Altered Dynamics of the fMRI Response to Faces in Individuals with Autism

Developmental Changes in Brain Function Underlying Inhibitory Control in Autism Spectrum Disorders

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