8 research outputs found
Hands Up! Atypical Defensive Reactions in Heavy Players of Violent Video Games When Exposed to Gun-Attack Pictures
Threatening cues and surrounding contexts trigger specific defensive response patterns. Posturography, a technique for measuring postural strategies, has been used to evaluate motor defensive reactions in humans. When exposed to gun pointed pictures, humans were shown to exhibit an immobility reaction. Short and long-term exposure to violent video games was shown to be a causal risk factor for increased violent and aggressive behavior. Assaultive violence with a gun is a major trigger for motor defensive reactions, and post-traumatic stress disorder (PTSD) is the most characteristic psychiatric sequelae. Recent studies point to links between PTSD symptoms and emotional shortfalls in non-clinical trauma-exposed samples. The present study investigated defensive reactions to gun threat and PTSD symptoms in heavy players of violent video games compared to non-players. Male university students were screened according to use of violent video games and divided in three groups: non-players, moderate players, and heavy players. Stimuli were pictures depicting a man pointing a gun directed at the participant. In matched control pictures, non-lethal objects replaced the gun. Posturography was recorded and PTSD symptoms were assessed. When exposed to the threat pictures, non-players exhibited the expected reduction in amplitude of body sway (immobility), heavy players presented atypical augmented amplitude of body sway, and moderate players showed intermediate reactivity. Heavy players presented a significant distinct reaction compared to non-players. They also scored significantly higher in PTSD symptoms than non-players. Disadvantageous defensive reactions and higher vulnerability to PTSD symptoms, revealed in the present study, add to other shortcomings for heavy players
Interference of warnings on the manipulation of cigarette packs.
<p>(A) The participant grabs a holder with his/her dominant hand. Unseen by the participant, the experimenter places a cigarette pack on the holder, exposing either the brand face or the warning face. Upon illumination, the participant quickly flexes the arm. The latency between illumination and action (reaction time) is measured. (B) Reaction times for smokers. Reaction time when the warning face is exposed (left column of the graph) is significantly longer compared to when the brand face is exposed (right column). The results reveal that warnings impose a significant cost to the manipulation of the pack.</p
Immobility reactions under threat : a contribution to human defensive cascade and PTSD.
Violence exacts a burden on public health. Gun violence is a major trigger for motor defensive reactions
in humans and post-traumatic stress disorder (PTSD) is its main psychiatric sequela. However, studies
of the human defensive cascade, especially the motor reactions, are at an early stage. This review
focuses on studies that employ stabilometry, a methodology that assesses whole body motor reactions,
to address defensive behaviors to violence-related threats. Special attention is given to three reactions:
?attentive immobility?, ?immobility under attack? and ?tonic immobility?, with emphasis on the latter ?
a peritraumatic reaction which has been strongly associated with the severity of PTSD. These reactions
are characterized by reduced body sway and bradycardia, except tonic immobility that presents robust
tachycardia. The advances made by investigations into the immobility reactions of the human defensive
cascade contribute to helping to bridge the gap between human and non-human species. Furthermore,
progresses in basic research to objectively monitor motor defensive reactions under threat can help to
develop a dimensional, trans-diagnostic approach to PTSD