TY  - GEN
A1  - Kuschpel, Maxim S.
A1  - Liu, Shuyan
A1  - Schad, Daniel
A1  - Heinzel, Stephan
A1  - Heinz, Andreas
A1  - Rapp, Michael Armin
T1  - Differential effects of wakeful rest, music and video game playing on working memory performance in the n-back task
N2  - The interruption of learning processes by breaks filled with diverse activities is common in everyday life. We investigated the effects of active computer gaming and passive relaxation (rest and music) breaks on working memory performance. Young adults were exposed to breaks involving (i) eyes-open resting, (ii) listening to music and (iii) playing the video game “Angry Birds” before performing the n-back working memory task. Based on linear mixed-effects modeling, we found that playing the “Angry Birds” video game during a short learning break led to a decline in task performance over the course of the task as compared to eyes-open resting and listening to music, although overall task performance was not impaired. This effect was associated with high levels of daily mind wandering and low self-reported ability to concentrate. These findings indicate that video games can negatively affect working memory performance over time when played in between learning tasks. We suggest further investigation of these effects because of their relevance to everyday activity.
T3  - Zweitveröffentlichungen der Universität Potsdam : Humanwissenschaftliche Reihe - 280 
KW  - attention
KW  - break interventions
KW  - cognitive resources
KW  - computer games
KW  - mind wandering
KW  - mozart effect
KW  - working memory
Y1  - 2015
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-85151
ER  - 
TY  - JOUR
A1  - Kuschpel, Maxim S.
A1  - Liu, Shuyan
A1  - Schad, Daniel
A1  - Heinzel, Stephan
A1  - Heinz, Andreas
A1  - Rapp, Michael Armin
T1  - Differential effects of wakeful rest, music and video game playing on working memory performance in the n-back task
JF  - Frontiers in psychology
N2  - The interruption of learning processes by breaks filled with diverse activities is common in everyday life. We investigated the effects of active computer gaming and passive relaxation (rest and music) breaks on working memory performance. Young adults were exposed to breaks involving (i) eyes-open resting, (ii) listening to music and (iii) playing the video game “Angry Birds” before performing the n-back working memory task. Based on linear mixed-effects modeling, we found that playing the “Angry Birds” video game during a short learning break led to a decline in task performance over the course of the task as compared to eyes-open resting and listening to music, although overall task performance was not impaired. This effect was associated with high levels of daily mind wandering and low self-reported ability to concentrate. These findings indicate that video games can negatively affect working memory performance over time when played in between learning tasks. We suggest further investigation of these effects because of their relevance to everyday activity.
KW  - break interventions
KW  - computer games
KW  - mozart effect
KW  - working memory
KW  - attention
KW  - cognitive resources
KW  - mind wandering
Y1  - 2015
U6  - https://doi.org/10.3389/fpsyg.2015.01683
SN  - 1664-1078
IS  - 6
PB  - Frontiers Research Foundation
CY  - Lausanne
ER  - 
TY  - JOUR
A1  - Heinzel, Stephan
A1  - Lorenz, Robert C.
A1  - Brockhaus, Wolf-Ruediger
A1  - Wuestenberg, Torsten
A1  - Kathmann, Norbert
A1  - Heinz, Andreas
A1  - Rapp, Michael Armin
T1  - Working memory load-dependent brain response predicts behavioral training gains in older adults
JF  - The journal of neuroscience
N2  - In the domain of working memory (WM), a sigmoid-shaped relationship between WM load and brain activation patterns has been demonstrated in younger adults. It has been suggested that age-related alterations of this pattern are associated with changes in neural efficiency and capacity. At the same time, WM training studies have shown that some older adults are able to increase their WM performance through training. In this study, functional magnetic resonance imaging during an n-back WM task at different WM load levels was applied to compare blood oxygen level-dependent (BOLD) responses between younger and older participants and to predict gains in WM performance after a subsequent 12-session WM training procedure in older adults. We show that increased neural efficiency and capacity, as reflected by more "youth-like" brain response patterns in regions of interest of the frontoparietal WM network, were associated with better behavioral training outcome beyond the effects of age, sex, education, gray matter volume, and baseline WM performance. Furthermore, at low difficulty levels, decreases in BOLD response were found after WM training. Results indicate that both neural efficiency (i. e., decreased activation at comparable performance levels) and capacity (i. e., increasing activation with increasing WM load) of a WM-related network predict plasticity of the WM system, whereas WM training may specifically increase neural efficiency in older adults.
KW  - aging
KW  - fMRI
KW  - neuroimaging
KW  - plasticity
KW  - training
KW  - working memory
Y1  - 2014
U6  - https://doi.org/10.1523/JNEUROSCI.2463-13.2014
SN  - 0270-6474
VL  - 34
IS  - 4
SP  - 1224
EP  - 1233
PB  - Society for Neuroscience
CY  - Washington
ER  -