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Training Executive Functions: Lessons Learned from Prefrontal Cortex Physiology

Subject Area General, Cognitive and Mathematical Psychology
Term from 2016 to 2020
Project identifier Deutsche Forschungsgemeinschaft (DFG) - Project number 290922533
 
Executive functions (EFs) enable us to flexibly adjust our thoughts and actions according to rapidly changing constraints to optimize goal attainment. EF rely on a network of brain areas including the prefrontal cortex (PFC) and are heavily involved in complex problem solving, cognitive development, and aging-related cognitive decline. Moreover, most psychopathological problems go along with impairments in EF. Consequently, there has been growing interest in finding ways to improve EF, with special attention given to computerized training. However, the results so far are equivocal. Some reviews have reached optimistic conclusions. Yet, meta-analytic reviews indicate that while there are reliable practice effects (improvement seen in the training task) and relatively modest near transfer effects (improvement in structurally similar tasks), far transfer effects (improvements in structurally dissimilar tasks that presumably tap the trained EF) are predominantly tiny. We argue that the design of most of the current computerized EF training programs is not well grounded in extant theories of PFC neurophysiology. In this research project we will test two related hypotheses concerning why the success of computerized training had so far proven very modest: (1) From PFC physiology, far transfer is not to be expected in the first place unless the abstract task structure that is learned during training is mirrored in the transfer task. (2) How EF-training is currently designed results in negative transfer effects (performance deterioration due to practice) which mask the (already quite small) beneficial transfer effects. These negative transfer effects occur because (a) the application of (instructed task rules) increases shielding and (b) because the repetitive nature of the training (constant repetition of a small number of training tasks) minimizes the involvement of EF.
DFG Programme Research Grants
International Connection Israel
International Co-Applicant Professor Dr. Nachshon Meiran
 
 

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