Abstract
Memory enables us to change our behavioral patterns based on past experiences. There are multiple memory systems in the human brain. One of those, declarative memory, is our “everyday-language memory” and enables us to describe the things that we remember. Other collections of memory are referred to as non-declarative memory. Both of these memory systems involve a form of association memory that connects one thing to another. However, while declarative association brings us sensory or declarative information when we recollect, non-declarative association couples a cue stimulus directly to a behavioral or autonomic response. On this account, declarative associations offer more flexibility than non-declarative because we are able to choose future actions based on the retrieved information. Declarative associations can be divided into two subcategories: episodic and semantic. Episodic associations accompany a particular spatiotemporal context in which a subject experienced an event, while semantic associations represent facts or knowledge extracted from individual experiences. Both are supported by the medial temporal lobe areas. In episodic associations, the hippocampus receives converging inputs from various association cortices via other medial temporal lobe areas, where several association processes occur before the signal reaches the hippocampus. The hippocampus does the final part of constructing associations among contents whose details are represented in other areas. Through repetition, the representations of content are directly linked as semantic associations in the temporal lobe, particularly in the perirhinal cortex. Perirhinal neurons represent between-domain associations as well as within-domain associations and spread the memory-retrieval signal back to the neocortex, where neuronal representations are coupled to mental imagery. The memory retrieval signal in the perirhinal cortex is also transmitted forward to the hippocampus in which the memory signal is combined with the other memory signals to reconstruct past events or future plans (“mental time travel”). The flexibility of declarative memory depends on its constructive process as well as its declarative components to be retrieved.
References
Chen H, Naya Y (2020a) Automatic encoding of a view-centered background image in the macaque temporal lobe. Cereb Cortex 30(12):6270–6283
Chen H, Naya Y (2020b) Forward processing of object-location association from the ventral stream to medial temporal lobe in nonhuman primates. Cereb Cortex 30:1260–1271
Connor CE, Knierim JJ (2017) Integration of objects and space in perception and memory. Nat Neurosci 20:1493–1503
Davachi L (2006) Item, context and relational episodic encoding in humans. Curr Opin Neurobiol 16:693–700
Lavenex P, Amaral DG (2000) Hippocampal-neocortical interaction: a hierarchy of associativity. Hippocampus 10:420–430
MacDonald CJ, Lepage KQ, Eden UT, Eichenbaum H (2011) Hippocampal “time cells” bridge the gap in memory for discontiguous events. Neuron 71:737–749
Mayes A, Montaldi D, Migo E (2007) Associative memory and the medial temporal lobes. Trends Cogn Sci 11:126–135
Naya Y (2013) Two types of memory time in the brain. Japanese Psychological Review 56:201–215
Naya Y, Suzuki WA (2010) Associative memory in the medial temporal lobe. In: Ghazanfar A, Platt M (eds) Primate neuroethology. Oxford University Press, New York, pp 337–358
Naya Y, Suzuki WA (2011) Integrating what and when across the primate medial temporal lobe. Science 333:773–776
Naya Y, Yoshida M, Miyashita Y (2001) Backward spreading of memory-retrieval signal in the primate temporal cortex. Science 291:661–664
Naya Y, Yoshida M, Miyashita Y (2003a) Forward processing of long-term associative memory in monkey inferotemporal cortex. J Neurosci: The Official Journal of the Society for Neuroscience 23:2861–2871
Naya Y, Yoshida M, Takeda M, Fujimichi R, Miyashita Y (2003b) Delay-period activities in two subdivisions of monkey inferotemporal cortex during pair association memory task. Eur J Neurosci 18:2915–2918
Pastalkova E, Itskov V, Amarasingham A, Buzsaki G (2008) Internally generated cell assembly sequences in the rat hippocampus. Science 321:1322–1327
Ranganath C, Ritchey M (2012) Two cortical systems for memory-guided behaviour. Nat Rev Neurosci 13:713–726
Rolls ET (2013) The mechanisms for pattern completion and pattern separation in the hippocampus. Front Syst Neurosci 7:74
Schacter DL, Addis DR, Hassabis D, Martin VC, Spreng RN, Szpunar KK (2012) The future of memory: remembering, imagining, and the brain. Neuron 76:677–694
Sheinberg DL, Logothetis NK (1997) The role of temporal cortical areas in perceptual organization. Proc Natl Acad Sci U S A 94:3408–3413
Squire LR, Wixted JT (2011) The cognitive neuroscience of human memory since H.M. Annu Rev Neurosci 34:259–288
Suzuki WA, Naya Y (2014) The perirhinal cortex. Annual review of neuroscience 37:39–53
Teyler TJ, Rudy JW (2007) The hippocampal indexing theory and episodic memory: updating the index. Hippocampus 17:1158–1169
Wood ER, Dudchenko PA, Robitsek RJ, Eichenbaum H (2000) Hippocampal neurons encode information about different types of memory episodes occurring in the same location. Neuron 27:623–633
Yang C, Naya Y (2020) Hippocampal cells integrate past memory and present perception for the future. PLoS Biol 18:e3000876
Yanike M, Wirth S, Smith AC, Brown EN, Suzuki WA (2009) Comparison of associative learning-related signals in the macaque perirhinal cortex and hippocampus. Cereb Cortex 19:1064–1078
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Naya, Y. (2021). Declarative Association Memory. In: Pfaff, D.W., Volkow, N.D., Rubenstein, J. (eds) Neuroscience in the 21st Century. Springer, New York, NY. https://doi.org/10.1007/978-1-4614-6434-1_162-2
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DOI: https://doi.org/10.1007/978-1-4614-6434-1_162-2
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Declarative Association Memory- Published:
- 10 May 2022
DOI: https://doi.org/10.1007/978-1-4614-6434-1_162-2
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Declarative Associative Memory- Published:
- 27 February 2016
DOI: https://doi.org/10.1007/978-1-4614-6434-1_162-1