P3 and provoked aggressive behavior

Abstract

Cognitive and biological processes play a role in human aggression. However, relatively little is known about the neural correlates of cognitive processes in aggressive individuals, particularly as they unfold during an aggressive encounter. We investigated whether the P3 event-related potential (ERP) discriminates aggressive versus nonaggressive individuals during a provocative, aggressive encounter. Forty-eight participants (23 men and 25 women) were classified as aggressive or nonaggressive based on self-reported life history of aggression. Aggressive behavior was assessed using a modification of a well-validated laboratory task during which the participant and a fictitious opponent ostensibly delivered and received noise blasts of low, medium, and high intensity. Provocation was manipulated by altering the level of noise set by the opponent. Aggression was defined as the number of high-intensity noise blasts the participant set for the opponent. As predicted, P3 amplitude in response to provocation differed as a function of aggressive history. Nonaggressive individuals showed enhanced P3 when provoked by the opponent relative to low provocation, but this effect was absent in aggressive individuals. The results suggest that aggressive individuals engage fewer neural processing resources in response to provoking social cues, which may reflect aberrant cognitive and emotional processes.