In the present study, we aimed at examining selective neural changes after taskswitching training in old age by not only considering the spatial location but also the
timescale of brain activation changes (i.e., sustained/block-related or transient/trialrelated timescales). We assigned a sample of 50 older adults to a task-switching
training or an active single-task control group. We administered two task paradigms,
either sensitive to transient (i.e., a context-updating task) or sustained (i.e., a delayedrecognition working-memory task) dynamics of cognitive control. These dynamics
were captured by utilizing an appropriate event-related or block-related functional
magnetic resonance imaging design. We captured selective changes in task activation
during the untrained tasks after task-switching training compared to an active control
group. Results revealed changes at the neural level that were not evident from only
behavioral data. Importantly, neural changes in the transient-sensitive context updating
task were found on the same timescale but in a different region (i.e., in the left
inferior parietal lobule) than in the task-switching training task (i.e., ventrolateral PFC,
inferior frontal junction, superior parietal lobule), only pointing to temporal overlap, while
neural changes in the sustained-sensitive delayed-recognition task overlapped in both
timescale and region with the task-switching training task (i.e., in the basal ganglia),
pointing to spatio-temporal overlap. These results suggest that neural changes after
task-switching training seem to be critically supported by the temporal organization of
neural processing.Deutsche Forschungsgemeinschaft (DFG