, 2004), and there is some evidence to suggest that such training procedures can lead to improvements on untrained tests of executive function, reasoning, and WM (Klingberg, 2010, but see Owen et al., 2010). Regardless of the kind of training procedure that is adopted, it is reasonable to ask whether it is even
possible to train an ability or cognitive process, as opposed to training performance on a specific task. Ability training is based on the premise of capitalizing on neural plasticity to improve function ( Klingberg, 2010 and Mahncke et al., 2006a). Strictly Dolutegravir in vitro speaking, plasticity operates at the level of synapses, not abilities. Repeated performance of a task could lead to strengthening of cell assemblies that represent task-relevant information. It is not clear, however, whether these cell assemblies would support performance outside of the context of the trained task. selleckchem We can envision at least two scenarios by which cognitive training can elicit results that transfer to real-world situations. First, generalization could occur if the training tasks closely approximate the real-world situation in question (e.g., training in phoneme discrimination to improve real-world speech perception). Second, training
could result in generalized benefits if it increases the ability to engage a beneficial process that is not usually engaged. For instance, practicing tasks that place demands on cognitive control processes might make one more likely to proactively engage these processes rather than waiting until conflict is detected ( Lustig and Flegal, 2008 and Paxton et al., 2006). Although numerous studies have investigated the effects of ability training on WM or cognitive control in healthy individuals, few have specifically investigated the effects of training on episodic memory. Generally, the existing literature indicates positive effects of training on the measures that were trained, but the extent of generalization to untrained measures
of episodic memory varies considerably across studies. The efficacy of the Posit Science below program on improving memory performance in older adults was tested in an initial study that compared a training group (performing computerized tasks that emphasize auditory perception and also include modules that tax short-term and long-term memory) against an active control group (viewing DVDs on history, art, and literature), and a no-contact control group (Mahncke et al., 2006b). Memory performance was assessed using a standardized battery (the RBANS), and the trained group showed significant improvements in tasks that used auditory stimuli (mean effect size = 0.25), whereas no significant improvement was seen for the control groups. In a second study (Smith et al.