Violent Video Games May Dull Brain Response to Aggression
The latest salvo in the ongoing battle in academia and popular culture over the presumed link between violent video games and aggression comes from the University of Missouri, where a new study sought to determine the mechanism of such a link.
Psychologist Dr. Bruce Bartholow’s research suggests the brains of violent video game players become less responsive to violence, and this diminished brain response predicts an increase in aggression.
“Many researchers have believed that becoming desensitized to violence leads to increased human aggression. Until our study, however, this causal association had never been demonstrated experimentally,” said Bartholow, whose study monitored participants’ brain activity.
In the study, 70 young adult participants were randomly assigned to play either a nonviolent or a violent video game for 25 minutes.
Immediately afterwards, the researchers measured brain responses as participants viewed a series of neutral photos, such as a man on a bike, and violent photos, such as a man holding a gun in another man’s mouth.
Finally, participants competed against an opponent in a task that allowed them to give their opponent a controllable blast of loud noise. The level of noise blast the participants set for their opponent was the measure of aggression.
The researchers found that participants who played one of several popular violent games, such as “Call of Duty,” “Hitman,” “Killzone” and “Grand Theft Auto,” set louder noise blasts for their opponents during the competitive task – that is, they were more aggressive – than participants who played a nonviolent game.
In addition, for participants who had not played many violent video games before completing the study, playing a violent game in the lab caused a reduced brain response to the photos of violence – an indicator of desensitization.
Moreover, this reduced brain response predicted participants’ aggression levels: the smaller the brain response to violent photos, the more aggressive participants were. Participants who had already spent a lot of time playing violent video games before the study showed small brain response to the violent photos, regardless of which type of game they played in the lab.
“The fact that video game exposure did not affect the brain activity of participants who already had been highly exposed to violent games is interesting and suggests a number of possibilities,” Bartholow said.
“It could be that those individuals are already so desensitized to violence from habitually playing violent video games that an additional exposure in the lab has very little effect on their brain responses. There also could be an unmeasured factor that causes both a preference for violent video games and a smaller brain response to violence. In either case, there are additional measures to consider.”
Bartholow said that future research should focus on ways to moderate media violence effects, especially among individuals who are habitually exposed. He cites surveys that indicate that the average elementary school child spends more than 40 hours a week playing video games – more than any other activity besides sleeping.
As young children spend more time with video games than any other forms of media, the researchers say children could become accustomed to violent behavior as their brains are forming.
“More than any other media, these video games encourage active participation in violence,” said Bartholow.
“From a psychological perspective, video games are excellent teaching tools because they reward players for engaging in certain types of behavior. Unfortunately, in many popular video games, the behavior is violence.”
The study will be published in a forthcoming edition of the Journal of Experimental Social Psychology.
Source: University of Missouri
Nauert PhD, R. (2018). Violent Video Games May Dull Brain Response to Aggression. Psych Central. Retrieved on September 26, 2020, from https://psychcentral.com/news/2011/05/26/violent-video-games-may-dull-brain-response-to-aggression/26507.html