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Electrical Brain Stimulation During a Retrieval-Based Learning Task Can Impair Long-Term Memory Publisher



Pyke W1 ; Vostanis A2 ; Javadi AH1, 3, 4
Authors
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Authors Affiliations
  1. 1. School of Psychology, Keynes College, University of Kent, Canterbury, CT2 7NP, United Kingdom
  2. 2. The Tizard Centre, University of Kent, Canterbury, United Kingdom
  3. 3. Institute of Behavioural Neuroscience, University College London, London, United Kingdom
  4. 4. School of Rehabilitation, Tehran University of Medical Sciences, Tehran, Iran

Source: Journal of Cognitive Enhancement Published:2021


Abstract

Anodal transcranial direct current stimulation (tDCS) to the left dorsolateral prefrontal cortex (DLPFC) has been shown to improve performance on a multitude of cognitive tasks. These are, however, often simple tasks, testing only one cognitive domain at a time. Therefore, the efficacy of brain stimulation for complex tasks has yet to be understood. Using a task designed to increase learning efficiency, this study investigates whether anodal tDCS over the left DLPFC can modulate both learning ability and subsequent long-term memory retention. Using a within-subject design, participants (N = 25) took part in 6 training sessions over consecutive days in which active or sham stimulation was administered randomly (3 of each). A computer-based task was used, containing flags from countries unknown to the participants. Each training session consisted of the repetition of 8 pairs of flag/country names. Subsequently, in three testing sessions, free, cued, and timed cued recall, participants were assessed on all 48 flags they had learnt. No difference in learning speed between active and sham tDCS was found. Furthermore, in the timed cued recall phase, flags learnt in the sham tDCS sessions were recalled significantly better than flags learnt in the active tDCS sessions. This effect was stronger in the second testing session. It was also found that for the flags answered incorrectly; thus, meaning they were presented more frequently, subsequent long-term retention was improved. These results suggest that for a complex task, anodal tDCS is ineffective at improving learning speed and potentially detrimental to long-term retention when employed during encoding. This serves to highlight the complex nature of brain stimulation, providing a greater understanding of its limitations and drawbacks. © 2020, The Author(s).
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