View clinical trials related to Social Skills.
Filter by:Animal-Assisted Interventions (AAI) can increase social behavior in children with autism spectrum disorder (ASD), although the mechanism by which this occurs remains elusive. The central goal of this project is to identify the mechanisms involved in the social-enhancing effect of dogs on children with ASD. The investigators will incorporate therapy dogs into an established evidence-based, group social skills instruction program for children with ASD, using a controlled experimental design with between- and within- subject comparisons and physiological and behavioral outcome measures. The investigators predict therapy dogs to have a specific and measurable effect on children's social behavior and that this effect is gained through identifiable mechanisms. Specifically, the investigators hypothesize that (1) an integration of therapy dogs into group social skills instruction will result in reduced stress and improved social behavior compare to traditional group instruction; (2) repeated exposure to the therapy dog across sessions will increase a child's preference for spending time with the dog and will increase the social-enhancing effects of the dog; and (3) that the therapists will experience less stress, engage in more social and affiliative behavior towards the children, and deliver higher quality instruction during sessions that include dogs. The investigators will enroll 72 children with ASD into group social skills instruction classes taught by 6 therapists. Each child will experience a 10-week, 8-student class in which either (a) the first 5 weeks will involve a therapy dog, (b) the last 5 weeks will involve the therapy dog, or (c) the class will not involve a therapy dog. The therapists will teach the courses repeatedly across the three cycles of the program with different children, rotating through each condition. Social behavior, stress behavior, heart rate, electrodermal activity, and salivary cortisol concentrations of children and therapists will be assessed and compared across conditions. The direction of the children's social behavior towards the dog and peers and the changes in quality of instruction of therapists during dog sessions compared to no-dog sessions will also be assessed. The outcomes of this research will lead to significant enhancements in current interventions for individuals with ASD.
Metacognition is the ability to introspect and report one's own mental states, or in other words to know how much one knows. It allows us to form a sense of confidence about decisions one makes in daily life, so one can commit to one option if our confidence is high, or seek for more evidence before commitment if our confidence is low. Although this function is crucial to behave adequately in a complex environment, confidence judgments are not always optimal. Notably, individuals with schizophrenia are prone to overconfidence in errors and underconfidence in correct answers. In schizophrenia, confidence is less correlated with performance compared to controls. These aspects are held to be at the origin of delusions, disorganization, poor insight into illness and into cognitive deficit and poor social functioning. Our study aims at identifying the cognitive and neural processes involved in metacognitive deficits in schizophrenia. Participants will perform metacognitive judgments on a low-level perceptual task (visual motion discrimination). Participants will do the first-order perceptual task by clicking on the correct answer with a mouse. During the first order task completion, the investigators will record several behavioral, physiological and neural variables. Then, participants will perform the metacognitive task with a visual analog scale. The study will address four research questions: - Q1: is schizophrenia associated with a decrease in metacognitive efficiency? Is the metacognitive deficit due to under- or over-confidence? - Q2: is the metacognitive impairment reflected at a decisional level as measured by behavioral variables (mouse tracking and reaction times)? - Q3: which physiological markers (EEG, skin conductance, heart rate) are predictors of metacognitive efficiency in individuals with schizophrenia and healthy controls? - Q4: which clinical symptoms correlate with metacognitive deficits? The investigators make several hypotheses related to the previous research questions: - Q1: the investigators expect metacognitive deficits in schizophrenia, based on results from several studies using both qualitative and quantitative measures. The investigators will rule out that quantitative deficits are not confounded with impairments in type 1 performance, with a generalized cognitive deficit in schizophrenia (lower premorbid and current Intelligence Quotient (IQ), and deficits in executive functioning and particularly in planning and working memory abilities), with depression or with statistical flaws during analysis of confidence. - Q2: the investigators expect behavioral cues (mouse tracking and reaction times) to be less correlated with confidence in patients vs. controls. The investigators thus make the hypothesis that the metacognitive deficit in schizophrenia may stem from an inability to integrate pre-decisional cues while performing an explicit metacognitive judgment. - Q3: the investigators expect physiological cues (EEG with Error-Related Negativity, Lateralized Readiness Potential and alpha suppression, and arousal of the autonomic nervous system with skin conductance and heart rate ) to be less correlated with confidence in patients vs. controls. - Q4: based on previous findings, the investigators expect that several clinical dimensions of schizophrenia may correlate with metacognitive performance. The metacognitive deficit would be greater for patients with high levels of positive and disorganized symptoms, and greater for patients with low levels of clinical and cognitive insight, and low levels of social functioning.