Abstract
Episodic memory circumscribes the ability to remember events, occurrences, and situations embedded in their temporal and spatial context – in other words, the memory of “what,” “where,” and “when.” Throughout the lifespan, episodic memory functioning continuously undergoes extensive change, with rapid increases during childhood, some decreases in adulthood, and accelerated decline in very old age. Given the important role that episodic memory plays in our daily lives, the prospect of potential trainability of episodic memory is a highly attractive idea. This applies to educational settings that aim to facilitate children’s memory, to younger adults ho** to optimize their episodic memory ability, but probably even more to older adults, who generally experience a profound decline in episodic memory functioning that can seriously affect their well-being and life quality. In this chapter, we first provide a brief definition and account of the processes that are involved in episodic memory. We then discuss two theoretical frameworks, one concerning the components of episodic memory across the lifespan, the other concerning the conception of plasticity. These theoretical frameworks help to guide us through the large body of memory training literature. We then summarize and integrate the behavioral and neuroimaging literature on memory training. Building upon some key points extracted from these sets of literature, we finally discuss the utility of multifactorial types of memory training and potential future work in this direction.
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Notes
- 1.
In the Method of Loci, participants are presented with lists of words, which are learned by forming visual associations between the nth word and the nth place (locus) of a fixed trajectory of places (loci) scanned mentally by the participant. Retrieval occurs by taking a mental walk along the trajectory, retrieving the associated image at each locus, and deriving the original word from it.
References
Akers, K. G., Martinez-Canabal, A., Restivo, L., Yiu, A. P., De Cristofaro, A., Hsiang, H. L. L.,... & Ohira, K. (2014). Hippocampal neurogenesis regulates forgetting during adulthood and infancy. Science, 344, 598–602.
Anderson, N. D., Ebert, P. L., Grady, C. L., & Jennings, J. M. (2018). Repetition lag training eliminates age-related recollection deficits (and gains are maintained after three months) but does not transfer: Implications for the fractionation of recollection. Psychology and Aging, 33, 93–108.
Bäckman, L. (1989). Varieties of memory compensation by older adults in episodic remembering. In L. W. Poon, D. C. Rubin, & B. A. Wilson (Eds.), Everyday cognition in adulthood and late life (pp. 509–544). New York: Cambridge University Press.
Bailey, H., Dagenbach, D., & Jennings, J. M. (2011). The locus of the benefits of repetition-lag memory training. Aging, Neuropsychology, and Cognition, 18, 577–593.
Baltes, P. B. (1987). Theoretical propositions of life-span developmental psychology: On the dynamics between growth and decline. Developmental Psychology, 23, 611–626.
Baltes, P. B., & Kliegl, R. (1992). Further testing of limits of cognitive plasticity: Negative age differences in a mnemonic skill are robust. Developmental Psychology, 28, 121–125.
Bellander, M., Berggren, R., Mårtensson, J., Brehmer, Y., Wenger, E., Li, T. Q.,... & Lövdén, M. (2016). Behavioral correlates of changes in hippocampal gray matter structure during acquisition of foreign vocabulary. NeuroImage, 131, 205–213.
Bissig, D., & Lustig, C. (2007). Who benefits from memory training? Psychological Science, 18, 720–726.
Boller, B., Jennings, J. M., Dieudonné, B., Verny, M., & Ergis, A. M. (2012). Recollection training and transfer effects in Alzheimer’s disease: Effectiveness of the repetition-lag procedure. Brain and Cognition, 78, 169–177.
Brehmer, Y., Li, S. C., Müller, V., von Oertzen, T., & Lindenberger, U. (2007). Memory plasticity across the life span: uncovering children’s latent potential. Developmental Psychology, 43, 465–478.
Brehmer, Y., Kalpouzos, G., Wenger, E., & Lövdén, M. (2014). Plasticity of brain and cognition in older adults. Psychological Research, 78, 790–802.
Brehmer, Y., Shing, Y. L., Heekeren, H. R., Lindenberger, U., & Bäckman, L. (2016). Training-induced changes in subsequent-memory effects: No major differences among children, younger adults, and older adults. NeuroImage, 131, 214–225.
Chaddock, L., Pontifex, M. B., Hillman, C. H., & Kramer, A. F. (2011). A review of the relation of aerobic fitness and physical activity to brain structure and function in children. Journal of the International Neuropsychological Society, 17, 975.
Cotman, C. W., & Berchtold, N. C. (2002). Exercise: A behavioral intervention to enhance brain health and plasticity. Trends in Neurosciences, 25, 295–301.
Davis, M. H., & Gaskell, M. G. (2009). A complementary systems account of word learning: Neural and behavioural evidence. Philosophical Transactions of the Royal Society, B: Biological Sciences, 364, 3773–3800.
Dudai, Y., Karni, A., & Born, J. (2015). The consolidation and transformation of memory. Neuron, 88, 20–32.
Düzel, E., Van Praag, H., & Sendtner, M. (2016). Can physical exercise in old age improve memory and hippocampal function? Brain, 139, 662–673.
Engvig, A., Fjell, A. M., Westlye, L. T., Moberget, T., Sundseth, Ø., Larsen, V. A., & Walhovd, K. B. (2010). Effects of memory training on cortical thickness in the elderly. NeuroImage, 52, 1667–1676.
Engvig, A., Fjell, A. M., Westlye, L. T., Skaane, N. V., Sundseth, Ø., & Walhovd, K. B. (2012a). Hippocampal subfield volumes correlate with memory training benefit in subjective memory impairment. NeuroImage, 61, 188–194.
Engvig, A., Fjell, A. M., Westlye, L. T., Moberget, T., Sundseth, Ø., Larsen, V. A., & Walhovd, K. B. (2012b). Memory training impacts short-term changes in aging white matter: A longitudinal diffusion tensor imaging study. Human Brain Map**, 33, 2390–2406.
Epp, J. R., Mera, R. S., Köhler, S., Josselyn, S. A., & Frankland, P. W. (2016). Neurogenesis-mediated forgetting minimizes proactive interference. Nature Communications, 7, 1–8.
Erickson, K. I., Voss, M. W., Prakash, R. S., Basak, C., Szabo, A., Chaddock, L., … & Wojcicki, T. R. (2011). Exercise training increases size of hippocampus and improves memory. Proceedings of the National Academy of Sciences, 108, 3017–3022.
Fabel, K., Wolf, S., Ehninger, D., Babu, H., Galicia, P., & Kempermann, G. (2009). Additive effects of physical exercise and environmental enrichment on adult hippocampal neurogenesis in mice. Frontiers in Neuroscience, 3, 2.
Fabre, C., Chamari, K., Mucci, P., Masse-Biron, J., & Prefaut, C. (2002). Improvement of cognitive function by mental and/or individualized aerobic training in healthy elderly subjects. International Journal of Sports Medicine, 23, 415–421.
Fandakova, Y., Shing, Y. L., & Lindenberger, U. (2012). Heterogeneity in memory training improvement among older adults: A latent class analysis. Memory, 20, 554–567.
Flegal, K. E., Ragland, J. D., & Ranganath, C. (2019). Adaptive task difficulty influences neural plasticity and transfer of training. NeuroImage, 188, 111–121.
Gross, A. L., Parisi, J. M., Spira, A. P., Kueider, A. M., Ko, J. Y., Saczynski, J. S.,... & Rebok, G. W. (2012). Memory training interventions for older adults: A meta-analysis. Aging & Mental Health, 16, 722–734.
Jennings, J. M., & Jacoby, L. L. (2003). Improving memory in older adults. Neuropsychological Rehabilitation, 13, 417–440.
Jennings, J. M., Webster, L. M., Kleykamp, B. A., & Dagenbach, D. (2005). Recollection training and transfer effects in older adults: Successful use of a repetition-lag procedure. Aging, Neuropsychology, and Cognition, 12, 278–298.
Kempermann, G., Fabel, K., Ehninger, D., Babu, H., Leal-Galicia, P., Garthe, A., & Wolf, S. (2010). Why and how physical activity promotes experience-induced brain plasticity. Frontiers in Neuroscience, 4, 189.
Kirchhoff, B. A., Anderson, B. A., Barch, D. M., & Jacoby, L. L. (2012). Cognitive and neural effects of semantic encoding strategy training in older adults. Cerebral Cortex, 22, 788–799.
Kondo, Y., Suzuki, M., Mugikura, S., Abe, N., Takahashi, S., Iijima, T., & Fujii, T. (2005). Changes in brain activation associated with use of a memory strategy: A functional MRI study. NeuroImage, 24, 1154–1163.
Kühn, S., & Lindenberger, U. (2016). Research on human plasticity in adulthood: A lifespan agenda. In K. W. Schaie & S. L. Willis (Eds.), Handbook on the psychology of aging (8th ed., pp. 105–123). Amsterdam: Academic Press. https://doi.org/10.1016/B978-0-12-411469-2.00006-6.
Lövdén, M., Bäckman, L., Lindenberger, U., Schaefer, S., & Schmiedek, F. (2010). A theoretical framework for the study of adult cognitive plasticity. Psychological Bulletin, 136, 659–676.
Lövdén, M., Brehmer, Y., Li, S. C., & Lindenberger, U. (2012). Training-induced compensation versus magnification of individual differences in memory performance. Frontiers in Human Neuroscience, 6, 141.
Lövdén, M., Wenger, E., Mårtensson, J., Lindenberger, U., & Bäckman, L. (2013). Structural brain plasticity in adult learning and development. Neuroscience & Biobehavioral Reviews, 37, 2296–2310.
Lustig, C., Shah, P., Seidler, R., & Reuter-Lorenz, P. A. (2009). Aging, training, and the brain: A review and future directions. Neuropsychology Review, 19, 504–522.
Maguire, E. A., Valentine, E. R., Wilding, J. M., & Kapur, N. (2003). Routes to remembering: The brains behind superior memory. Nature Neuroscience, 6, 90–95.
Mahncke, H. W., Connor, B. B., Appelman, J., Ahsanuddin, O. N., Hardy, J. L., Wood, R. A.,... & Merzenich, M. M. (2006). Memory enhancement in healthy older adults using a brain plasticity-based training program: A randomized, controlled study. Proceedings of the National Academy of Sciences, 103, 12523–12528.
Mårtensson, J., Eriksson, J., Bodammer, N. C., Lindgren, M., Johansson, M., Nyberg, L., & Lövdén, M. (2012). Growth of language-related brain areas after foreign language learning. NeuroImage, 63, 240–244.
McGaugh, J. L. (2000). Memory: A century of consolidation. Science, 287, 248–251.
Moscovitch, M. (1992). Memory and working-with-memory: A component process model based on modules and central systems. Journal of Cognitive Neuroscience, 4, 257–267.
Muehlroth, B. E., Sander, M. C., Fandakova, Y., Grandy, T. H., Rasch, B., Shing, Y. L., & Werkle-Bergner, M. (2019). Precise slow oscillation–Spindle coupling promotes memory consolidation in Younger and older adults. Scientific Reports, 9, 1–15.
Noack, H., Lövdén, M., & Schmiedek, F. (2014). On the validity and generality of transfer effects in cognitive training research. Psychological Research, 78, 773–789.
Nyberg, L., Habib, R., McIntosh, A. R., & Tulving, E. (2000). Reactivation of encoding-related brain activity during memory retrieval. Proceedings of the National Academy of Sciences, 97, 11120–11124.
Nyberg, L., Sandblom, J., Jones, S., Neely, A. S., Petersson, K. M., Ingvar, M., & Bäckman, L. (2003). Neural correlates of training-related memory improvement in adulthood and aging. Proceedings of the National Academy of Sciences, 100, 13728–13733.
Nyberg, L., Lövdén, M., Riklund, K., Lindenberger, U., & Bäckman, L. (2012). Memory aging and brain maintenance. Trends in Cognitive Sciences, 16, 292–305.
Paller, K. A., & Wagner, A. D. (2002). Observing the transformation of experience into memory. Trends in Cognitive Sciences, 6, 93–102.
Pereira, A. C., Huddleston, D. E., Brickman, A. M., Sosunov, A. A., Hen, R., McKhann, G. M.,... & Small, S. A. (2007). An in vivo correlate of exercise-induced neurogenesis in the adult dentate gyrus. Proceedings of the National Academy of Sciences, 104, 5638–5643.
Ranganath, C., Flegal, K. E., & Kelly, L. L. (2011). Can cognitive training improve episodic memory? Neuron, 72, 688–691.
Sheikh, J. I., Hill, R. D., & Yesavage, J. A. (1986). Long-term efficacy of cognitive training for age-associated memory impairment: A six-month follow-up study. Developmental Neuropsychology, 2, 413–421.
Shing, Y. L., Werkle-Bergner, M., Brehmer, Y., Müller, V., Li, S. C., & Lindenberger, U. (2010). Episodic memory across the lifespan: The contributions of associative and strategic components. Neuroscience & Biobehavioral Reviews, 34, 1080–1091.
Simons, J. S., & Spiers, H. J. (2003). Prefrontal and medial temporal lobe interactions in long-term memory. Nature Reviews Neuroscience, 4, 637–648.
Stamenova, V., Jennings, J. M., Cook, S. P., Walker, L. A., Smith, A. M., & Davidson, P. S. (2014). Training recollection in healthy older adults: Clear improvements on the training task, but little evidence of transfer. Frontiers in Human Neuroscience, 8, 898.
Stigsdotter Neely, A., & Bäckman, L. (1993). Long-term maintenance of gains from memory training in older adults: Two 3 1/2-year follow-up studies. Journal of Gerontology, 48, P233–P237.
Tulving, E. (2002). Episodic memory: From mind to brain. Annual Review of Psychology, 53, 1–25.
Verhaeghen, P., & Marcoen, A. (1996). On the mechanisms of plasticity in young and older adults after instruction in the method of loci: Evidence for an amplification model. Psychology and Aging, 11, 164–178.
Verhaeghen, P., Marcoen, A., & Goossens, L. (1992). Improving memory performance in the aged through mnemonic training: A meta-analytic study. Psychology and Aging, 7, 242–251.
Willis, S. L., Tennstedt, S. L., Marsiske, M., Ball, K., Elias, J., Koepke, K. M.,... & Wright, E. (2006). Long-term effects of cognitive training on everyday functional outcomes in older adults. JAMA, 296, 2805–2814.
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Wenger, E., Fandakova, Y., Shing, Y.L. (2021). Episodic Memory Training. In: Strobach, T., Karbach, J. (eds) Cognitive Training. Springer, Cham. https://doi.org/10.1007/978-3-030-39292-5_12
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