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1.
Soc Sci Med ; 336: 116288, 2023 11.
Article in English | MEDLINE | ID: mdl-37783156

ABSTRACT

RATIONALE: Gun sales spike after mass shooting incidents. As firearm presence is associated with numerous health and safety risks, it is imperative to understand what catalyzes gun ownership. Despite evidence that Americans' fear of mass shootings is increasing at a pace that exceeds their likelihood of victimization, the relationship between fear of mass shootings and gun ownership has received minimal attention. OBJECTIVE: The current study examines group differences in fear of mass shootings and openness to gun ownership. Specifically, it is hypothesized that (1) fear of mass shootings will increase openness to future firearm ownership among non-owners, (2) gun owners will be more afraid of mass shootings than non-owners, and (3) protective owners will be more afraid than non-protective owners. METHODS: This paper uses Wave 26 of Pew Research Center's nationally representative American Trends Panel (n = 1968). RESULTS: Binary logistic regression analyses indicate that among non-gun-owners, fear of mass shootings decreases openness to ownership. Ordinal logistic regression analyses indicate that while fear of mass shootings does not differ between gun owners and non-owners, protective gun owners are more afraid than non-protective owners. CONCLUSIONS: Combined with prior research, these findings suggest that protective gun owners, non-protective gun owners, and non-owners have distinct views of the relationship between guns and mass shootings and are motivated to acquire firearms by different processes. Additional longitudinal work is needed to confirm these findings and clarify the role of causal attributions.


Subject(s)
Crime Victims , Firearms , Humans , United States/epidemiology , Ownership , Fear , Social Perception
2.
Sci Rep ; 11(1): 19503, 2021 09 30.
Article in English | MEDLINE | ID: mdl-34593865

ABSTRACT

Although empathy impairments have been reported in autistic individuals, there is no clear consensus on how emotional valence influences this multidimensional process. In this study, we use the Multifaceted Empathy Test for juveniles (MET-J) to interrogate emotional and cognitive empathy in 184 participants (ages 8-59 years, 83 autistic) under the robust Bayesian inference framework. Group comparisons demonstrate previously unreported interaction effects between: (1) valence and autism diagnosis in predictions of emotional resonance, and (2) valence and age group in predictions of arousal to images portraying positive and negative facial expressions. These results extend previous studies using the MET by examining differential effects of emotional valence in a large sample of autistic children and adults with average or above-average intelligence. We report impaired cognitive empathy in autism, and subtle differences in emotional empathy characterized by less distinction between emotional resonance to positive vs. negative facial expressions in autism compared to neurotypicals. Reduced emotional differentiation between positive and negative affect in others could be a mechanism for diminished social reciprocity that poses a universal challenge for people with autism. These component- and valence- specific findings are of clinical relevance for the development and implementation of target-specific social interventions in autism.


Subject(s)
Autistic Disorder/psychology , Empathy , Adolescent , Adult , Arousal , Autistic Disorder/epidemiology , Bayes Theorem , Case-Control Studies , Child , Child, Preschool , Cognition , Emotions , Humans , Male , Social Behavior , Young Adult
3.
Front Psychiatry ; 11: 578401, 2020.
Article in English | MEDLINE | ID: mdl-33192716

ABSTRACT

Background: Individuals with autism spectrum disorder (ASD) and schizophrenia (SZ) exhibit multisensory processing difficulties and social impairments, with growing evidence that the former contributes to the latter. However, this work has largely reported on separate cohorts, introducing method variance as a barrier to drawing broad conclusions across studies. Further, very few studies have addressed touch, resulting in sparse knowledge about how these two clinical groups may integrate somatic information with other senses. Methods: In this study, we compared adults with ASD (n = 29), SZ (n = 24), and typical developmental histories (TD, n = 37) on two tasks requiring visual-tactile spatial multisensory processing. In the first task (crossmodal congruency), participants judged the location of a tactile stimulus in the presence or absence of simultaneous visual input that was either spatially congruent or incongruent, with poorer performance for incongruence an index of spatial multisensory interaction. In the second task, participants reacted to touch in the presence or absence of dynamic visual stimuli that appeared to approach or recede from the body. Within a certain radius around the body, defined as peripersonal space (PPS), an approaching visual or auditory stimulus reliably speeds reaction times (RT) to touch; outside of this radius, in extrapersonal space (EPS), there is no multisensory effect. PPS can be defined both by its size (radius) and slope (sharpness of the PPS-EPS boundary). Clinical measures were administered to explore relations with visual-tactile processing. Results: Neither clinical group differed from controls on the crossmodal congruency task. The ASD group had significantly smaller and more sharply-defined PPSs compared to the other two groups. Small PPS size was related to social symptom severity across groups, but was largely driven by the TD group, without significant effects in either clinical group. Conclusions: These results suggest that: (1) spatially static visual-tactile facilitation is intact in adults with ASD and SZ, (2) spatially dynamic visual-tactile facilitation impacting perception of the body boundary is affected in ASD but not SZ, and (3) body boundary perception is related to social-emotional function, but not in a way that maps on to clinical status.

4.
Pain Rep ; 5(6): e861, 2020.
Article in English | MEDLINE | ID: mdl-33235944

ABSTRACT

INTRODUCTION: Individuals with autism spectrum disorder (ASD) often exhibit differences in pain responsivity. This altered responsivity could be related to ASD-related social communication difficulties, sensory differences, or altered processing of pain stimuli. Previous neuroimaging work suggests altered pain evaluation could contribute to pain-related anxiety in ASD. OBJECTIVES: We hypothesized that individuals with ASD would report increased pain sensitivity and endorse more pain-related anxiety, compared to typically developing controls. METHODS: We recruited 43 adults (ASD, n = 24; typically developing, n = 19) for 3 heat pain tasks (applied to the calf). We measured heat pain thresholds using a method of limits approach, a pain-rating curve (7 temperatures between 40 and 48°C, 5 seconds, 5 trials each), and a sustained heat pain task with alternating low (42°C) and high (46°C) temperatures (21 seconds, 6 trials each). Individual differences in pain-related anxiety, fear of pain, situational pain catastrophizing, depressive symptoms, and autism-related social communication were assessed by self-report. RESULTS: There were no group differences in pain thresholds. For suprathreshold tasks, mean pain ratings were higher in ASD across both the pain-rating curve and the sustained heat pain tasks, but responses in the ASD group were more varied. Pain anxiety (PASS-Total) and pain-related fear (FOP-III-Total) were higher in the ASD group and were positively associated with pain ratings. CONCLUSIONS: Our results suggest that both sensory and cognitive experiences of pain are heightened and interact reciprocally in adults with ASD. Future studies are needed to evaluate the impact of pain-related anxiety on treatment-seeking and pain behaviors, given higher levels of pain-related anxiety in ASD.

5.
Autism Res ; 13(6): 908-920, 2020 06.
Article in English | MEDLINE | ID: mdl-32133784

ABSTRACT

Interoception involves the processing of sensory information relevant to physiological functioning and is integral to building self-awareness, emotional states, and modulating social behaviors. With the role of interoception in emotional processing and social functioning, there is growing interest in characterizing interoception in autism spectrum disorder (ASD), yet, there are mixed results regarding cardiac interoceptive accuracy in ASD. In this study, we explored the neural basis of cardiac interoception using an fMRI heartbeat-counting task in order to assess neural correlates of primary interoception. We predicted that interoceptive-specific response in the insula, a "hub" for interoception, would be related to ASD symptomatology. We investigated the relationship of insula responses during cardiac interoceptive focus and a self/caregiver-reported autism-related symptom scale (Social Responsiveness Scale-2 (SRS)). Participants included 46 individuals with autism spectrum disorder (ASD) (age 8-54, mean = 19.43 ± 10.68 years) and 54 individuals with typical development for comparison (TC, age 8-53, mean = 21.43 ± 10.41 years). We found no significant difference in cardiac interoceptive accuracy or neural response to cardiac interoception focus in ASD. Several insula subdivisions had a curvilinear relationship to age, peaking in early adulthood. Interoceptive-specific insula response was associated with adult self-report SRS scores; this association differed by diagnostic group and was not present for caregiver-reported scores. This work suggests that (a) there is no global deficit in cardiac interoception in ASD, but integrating interoceptive cues with social information may distinguish individuals with ASD, and (b) there is a developmental trajectory for interoceptive processing in the insula that may be relevant for socio-emotional health. Autism Res 2020, 13: 908-920. © 2020 International Society for Autism Research, Wiley Periodicals, Inc. LAY SUMMARY: We use internal sensory information from the body, such as signals from the heart, to understand our emotional response to the external world. We measured how accurately people with autism feel their heartbeat and how the brain responds to this type of information. We found no differences between the autism and comparison groups in how the brain senses heartbeats, or in how accurately people feel their heartbeats. However, for people with autism, brain responses while sensing heartbeats were related to social difficulties. This work suggests people with autism may use internal and external information in a different way.


Subject(s)
Autism Spectrum Disorder/physiopathology , Autism Spectrum Disorder/psychology , Interoception , Social Behavior , Adolescent , Adult , Brain/physiopathology , Child , Cues , Emotions , Female , Heart Rate , Humans , Male , Middle Aged , Young Adult
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