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Gaming enhances learning-induced plastic changes in the brain

Katja Junttila, Anna-Riikka Smolander, Reima Karhila, Anastasia Giannakopoulou, Maria Uther, Mikko Kurimo, Sari Ylinen

2022Brain and Language14 citationsDOIOpen Access PDF

Abstract

Digital games may benefit children's learning, yet the factors that induce gaming benefits to cognition are not well known. In this study, we investigated the effectiveness of digital game-based learning in children by comparing the learning of foreign speech sounds and words in a digital game or a non-game digital application. To evaluate gaming-induced plastic changes in the brain, we used the mismatch negativity (MMN) brain response that reflects the access to long-term memory representations. We recorded auditory brain responses from 37 school-aged Finnish-speaking children before and after playing a computer-based language-learning game. The MMN amplitude increased between the pre- and post-measurement for the game condition but not for the non-game condition, suggesting that the gaming intervention enhanced learning more than the non-game intervention. The results indicate that digital games can be beneficial for children's speech-sound learning and that gaming elements per se, not just practice time, support learning.

Topics & Concepts

Mismatch negativityPsychologyCognitive psychologyIntervention (counseling)CognitionSerious gameDevelopmental psychologyMultimediaElectroencephalographyNeuroscienceComputer sciencePsychiatryNeuroscience and Music PerceptionCognitive and developmental aspects of mathematical skillsReading and Literacy Development
Gaming enhances learning-induced plastic changes in the brain | Litcius