1. Hadjikhani N, Asberg Johnels J, Zurcher NR, Lassalle A, Guillon Q, Hippolyte L, Billstedt E, Ward N, Lemonnier E, Gillberg C. {{Look me in the eyes: constraining gaze in the eye-region provokes abnormally high subcortical activation in autism}}. {Sci Rep}. 2017; 7(1): 3163.
Individuals with Autism Spectrum Disorder (ASD) seem to have difficulties looking others in the eyes, but the substrate for this behavior is not well understood. The subcortical pathway, which consists of superior colliculus, pulvinar nucleus of the thalamus, and amygdala, enables rapid and automatic face processing. A specific component of this pathway – i.e., the amygdala – has been shown to be abnormally activated in paradigms where individuals had to specifically attend to the eye-region; however, a direct examination of the effect of manipulating the gaze to the eye-regions on all the components of the subcortical system altogether has never been performed. The subcortical system is particularly important as it shapes the functional specialization of the face-processing cortex during development. Using functional MRI, we investigated the effect of constraining gaze in the eye-region during dynamic emotional face perception in groups of participants with ASD and typical controls. We computed differences in activation in the subcortical face processing system (superior colliculus, pulvinar nucleus of the thalamus and amygdala) for the same stimuli seen freely or with the gaze constrained in the eye-region. Our results show that when constrained to look in the eyes, individuals with ASD show abnormally high activation in the subcortical system, which may be at the basis of their eye avoidance in daily life.
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2. Postorino V, Sharp WG, McCracken CE, Bearss K, Burrell TL, Evans AN, Scahill L. {{A Systematic Review and Meta-analysis of Parent Training for Disruptive Behavior in Children with Autism Spectrum Disorder}}. {Clin Child Fam Psychol Rev}. 2017.
Parent training (PT) has emerged as a promising treatment for disruptive behavior in children with autism spectrum disorder (ASD). This review summarizes the essential elements of PT for disruptive behavior in children with ASD and evaluates the available evidence for PT using both descriptive and meta-analytic procedures. We searched Medline, PsycINFO, and PubMed databases (1980-2016) in peer-reviewed journals for randomized controlled trials (RCTs) of PT for disruptive behavior in children with ASD. The systematic search of 2023 publications yielded eight RCTs involving a total of 653 participants. We calculated effect sizes using either raw post-treatment means and standard deviations for each treatment group (PT and control) or group mean differences with associated 95% confidence intervals (CIs). Differences in post-treatment means were converted to a standardized difference in means (SMD) for each primary outcome. Results support the efficacy of PT for disruptive behavior in children with ASD, with a SMD of -0.59 [95% CI (-0.88, -0.30); p < 0.001]. Across these eight studies, there was significant heterogeneity in the effect of PT on disruptive behavior. This variability is likely due to differences in sample size, number of treatment sessions, study duration, and control condition employed. Current findings provide solid support for the efficacy of PT for disruptive behavior in children with ASD. Future studies should focus on effectiveness trials to promote wider implementation of PT in clinical settings. Lien vers le texte intégral (Open Access ou abonnement)
3. Steward R. {{Life as a deck of cards: A perspectiveon autistic female’s experiences}}. {Autism}. 2017: 1362361317704976.
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4. Torrado JC, Gomez J, Montoro G. {{Emotional Self-Regulation of Individuals with Autism Spectrum Disorders: Smartwatches for Monitoring and Interaction}}. {Sensors (Basel)}. 2017; 17(6).
In this paper, we analyze the needs of individuals with Autism Spectrum Disorders (ASD) to have a pervasive, feasible and non-stigmatizing form of assistance in their emotional self-regulation, in order to ease certain behavioral issues that undermine their mental health throughout their life. We argue the potential of recent widespread wearables, and more specifically smartwatches, to achieve this goal. Then, a smartwatch system that implements a wide range of self-regulation strategies and infers outburst patterns from physiological signals and movement is presented, along with an authoring tool for smartphones that is to be used by caregivers or family members to create and edit these strategies, in an adaptive way. We conducted an intensive experiment with two individuals with ASD who showed varied, representative behavioral responses to their emotional dysregulation. Both users were able to employ effective, customized emotional self-regulation strategies by means of the system, recovering from the majority of mild stress episodes and temper tantrums experienced in the nine days of experiment in their classroom.
