BMC Neuroscience (Nov 2009)

Prolonged rote learning produces delayed memory facilitation and metabolic changes in the hippocampus of the ageing human brain

  • Prendergast Julie,
  • McMackin Deirdre,
  • Fitzsimons Mary,
  • Doherty Colin P,
  • Brennan Paul,
  • Hayden Judy,
  • McNulty Jonathan P,
  • Mullally Sinéad L,
  • Roche Richard AP,
  • Sukumaran Sunita,
  • Mangaoang Maeve A,
  • Robertson Ian H,
  • O'Mara Shane M

DOI
https://doi.org/10.1186/1471-2202-10-136
Journal volume & issue
Vol. 10, no. 1
p. 136

Abstract

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Abstract Background Repeated rehearsal is one method by which verbal material may be transferred from short- to long-term memory. We hypothesised that extended engagement of memory structures through prolonged rehearsal would result in enhanced efficacy of recall and also of brain structures implicated in new learning. Twenty-four normal participants aged 55-70 (mean = 60.1) engaged in six weeks of rote learning, during which they learned 500 words per week every week (prose, poetry etc.). An extensive battery of memory tests was administered on three occasions, each six weeks apart. In addition, proton magnetic resonance spectroscopy (1H-MRS) was used to measure metabolite levels in seven voxels of interest (VOIs) (including hippocampus) before and after learning. Results Results indicate a facilitation of new learning that was evident six weeks after rote learning ceased. This facilitation occurred for verbal/episodic material only, and was mirrored by a metabolic change in left posterior hippocampus, specifically an increase in NAA/(Cr+Cho) ratio. Conclusion Results suggest that repeated activation of memory structures facilitates anamnesis and may promote neuronal plasticity in the ageing brain, and that compliance is a key factor in such facilitation as the effect was confined to those who engaged fully with the training.