Abstract
Brain training is a large and expanding industry, and yet there is a recurrent and ongoing debate concerning its scientific basis or evidence for efficacy. Much of evidence for the efficacy of brain training within this debate is from small-scale studies that do not assess the type of “brain training,” the specificity of transfer effects, or the length of training required to achieve a generalized effect. To explore these factors, we analyze cross-sectional data from two large Internet-cohort studies (total N = 60,222) to determine whether cognition differs at the population level for individuals who report that they brain train on different devices, and across different timeframes, with programs in common use circa 2010–2013. Examining scores for an assessment of working-memory, reasoning and verbal abilities shows no cognitive advantages for individuals who brain train. This contrasts unfavorably with significant advantages for individuals who regularly undertake other cognitive pursuits such as computer, board and card games. However, finer grained analyses reveal a more complex relationship between brain training and cognitive performance. Specifically, individuals who have just begun to brain train start from a low cognitive baseline compared to individuals who have never engaged in brain training, whereas those who have trained for a year or more have higher working-memory and verbal scores compared to those who have just started, thus suggesting an efficacy for brain training over an extended period of time. The advantages in global function, working memory, and verbal memory after several months of training are plausible and of clinically relevant scale. However, this relationship is not evident for reasoning performance or self-report measures of everyday function (e.g., employment status and problems with attention). These results accord with the view that although brain training programs can produce benefits, these might extend to tasks that are operationally similar to the training regime. Furthermore, the duration of training regime required for effective enhancement of cognitive performance is longer than that applied in most previous studies.
Highlights
Brain training is a large and expanding industry
Brain Training Is Effective, but the Effect Is Small to Negligible When Compared to Regular Video-Gaming Of the 44,780 participants included in Cohort 1, 2,833 reported that they regularly used a brain training program (Table 1)
Brain training has a negligible effect on self-report of everyday problems we examined whether the relationship that was evident between brain training duration and cognitive performance extended to every-day life, “far transfer.”
Summary
Brain training is a large and expanding industry. It has been estimated that sales in this sector are increasing at a compound rate of 20 to 25% annually, passing $1.3bn worldwide in 2013 and projected to exceed $6bn by 2020 (SharpBrains, 2013; Cookson, 2014; Katz, 2014). 2 months later another group of more than 100 scientists publicly criticized the open letter, in form and substance, claiming that evidence for the “brain training effect” was plentiful and highlighting that the first letter could not be considered a consensus view (AlescioLautier et al, 2014). The latter group accused the former of taking an extreme “faith-based” position, pertaining more to an ideological stance, whilst ignoring the scientific evidence.
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