Don't fear the creeper: your brain on video games
A team led by psychology professor Ian Spence at the University of Toronto reveals that playing an action video game, even for a relatively short time, causes differences in brain activity and improvements in visual attention.
Previous studies have found differences in brain activity between action video game players and non-players, but these could have been attributed to pre-existing differences in the brains of those predisposed to playing video games and those who avoid them. This is the first time research has attributed these differences directly to playing video games.
Twenty-five subjects — who had not previously played video games — played a game for a total of 10 hours in one to two hour sessions. Sixteen of the subjects played a first-person shooter game and, as a control, nine subjects played a three-dimensional puzzle game.
Before and after playing the games, the subjects’ brain waves were recorded while they tried to detect a target object among other distractions over a wide visual field. Subjects who played the shooter video game and also showed the greatest improvement on the visual attention task showed significant changes in their brain waves. The remaining subjects — including those who had played the puzzle game — did not.
“After playing the shooter game, the changes in electrical activity were consistent with brain processes that enhance visual attention and suppress distracting information,” said Sijing Wu, a PhD student in Spence’s lab in U of T’s Department of Psychology and lead author of the study.
“Studies in different labs, including here at the University of Toronto, have shown that action video games can improve selective visual attention, such as the ability to quickly detect and identify a target in a cluttered background,” said Spence. “But nobody has previously demonstrated that there are differences in brain activity which are a direct result of playing the video game.”
“Superior visual attention is crucial in many important everyday activities,” added Spence. “It’s necessary for things such as driving a car, monitoring changes on a computer display, or even avoiding tripping while walking through a room with children’s toys scattered on the floor.”
The research was supported by funding from the Natural Sciences and Engineering Research Council of Canada in the form of Discovery Grants to Spence and co-author Claude Alain of the Rotman Research Institute, Baycrest Centre and U of T’s Psychology Department.
The research team also included U of T PhD candidate Cho Kin Cheng, Jing Feng, a postdoc at the Rotman Research Institute and former undergraduate student Lisa D'Angelo.
The study will appear in the June 2012 issue of the Journal of Cognitive Neuroscience, published by MIT Press. Early access to uncorrected proofs of the article is available now.