Associative memory (psychology)
Definition
In psychology, associative memory is defined as the ability to learn and remember the relationship between unrelated items. For example, this would be remembering concepts such as the name of someone or the aroma of a particular perfume.[1] This type of memory deals specifically with the relationship between these different objects or concepts. A normal associative memory task involves testing subjects on their recall of pairs of unrelated items, such as face-name pairs.[2] Associative memory is a declarative memory structure and episodically based.[3]
Overview
- Learning
- Operant Conditioning
- Type of learning where behavior is controlled by environmental factors that influence the behavior of the subject in subsequent instances of the stimuli.
- Classical Conditioning
- A response is conditioned to an unrelated stimulus.
- Operant Conditioning
Location and Circuitry
- The neuroanatomical structures that govern associative memory are found in the medial temporal lobe. The main locations are the hippocampus and its surrounding structures of the entorhinal, perirhinal, and parahippocampal cortex. Humans with large medial temporal lobe lesions have shown to have impairments in recognition memory for different types of stimuli .[4]
- Hippocampus has shown to be the main location for memory consolidation, especially related to episodic memory. The inputs from these unrelated stimuli are collected in this location and the actual synaptic connections are made and strengthened.[5]
- Additionally, involvement from the prefrontal cortex,[6][7] frontal motor areas,[8] and the striatum has been shown in the formation of associative memories.
- Associative memory is not considered to be localized to a single circuit, with different types of subsets of associative memory utilizing different circuitry.[9]
Biological Basis
- The associations made in the learning process has biological basis that has been studied by neuroscientists for the last few decades.
- The convergence of the biologically important information drives the neural plasticity that is the basis of associative memory formation.9
Research and Future Work
- Associative memory becomes poorer in humans as they age. Additionally, it is shown to be non-correlational with single item ( non-associative ) memory function [10]
- Transcranial direct current stimulation has shown to improve performance on associative memory tasks.2
- Patients with Alzheimer’s Disease have shown to be poorer in multiple forms of associative memory.[11]
References
References
- ↑ http://www.apa.org/science/about/psa/2005/02/suzuki.aspx
- ↑ Matzen, Laura E., Michael C. Trumbo, Ryan C. Leach, and Eric D. Leshikar. "Effects of Non-invasive Brain Stimulation on Associative Memory." Brain Research 1624 (2015): 286-96. Web.
- ↑ Dennis, Nancy A., Indira C. Turney, Christina E. Webb, and Amy A. Overman. "The Effects of Item Familiarity on the Neural Correlates of Successful Associative Memory Encoding." Cogn Affect Behav Neurosci Cognitive, Affective, & Behavioral Neuroscience 15.4 (2015): 889-900. Web.
- ↑ Ranganath, Charan, and Maureen Ritchey. "Two Cortical Systems for Memory-guided Behaviour." Nature Reviews Neuroscience Nat Rev Neurosci 13.10 (2012): 713-26. Web.
- ↑ Cohen, Neal J., Jennifer Ryan, Caroline Hunt, Lorene Romine, Tracey Wszalek, and Courtney Nash. "Hippocampal System and Declarative (relational) Memory: Summarizing the Data from Functional Neuroimaging Studies." Hippocampus 9.1 (1999): 83-98. Web.
- ↑ Fanselow, Michael S., and Andrew M. Poulos. "The Neuroscience of Mammalian Associative
- ↑ Becker, Nina, Erika J. Laukka, Grégoria Kalpouzos, Moshe Naveh-Benjamin, Lars Bäckman, and Yvonne Brehmer. "Structural Brain Correlates of Associative Memory in Older Adults." NeuroImage 118 (2015): 146-53. Web.
- ↑ Brasted P. J., Bussey TJ, Murray EA, Wise SP (2002) Fornix transection impairs conditional visuomotor learning in tasks involving nonspatially differentiated responses. J Neurophysiol 87: 631-633.
- ↑ Fanselow, Michael S., and Andrew M. Poulos. "The Neuroscience of Mammalian Associative Learning." Annual Review of Psychology Annu. Rev. Psychol. 56.1 (2005): 207-34. Web.
- ↑ Becker, Nina, Erika J. Laukka, Grégoria Kalpouzos, Moshe Naveh-Benjamin, Lars Bäckman, and Yvonne Brehmer. "Structural Brain Correlates of Associative Memory in Older Adults." NeuroImage 118 (2015): 146-53. Web.
- ↑ Bastin, Christine, Mohamed Ali Bahri, Frédéric Miévis, Christian Lemaire, Fabienne Collette, Sarah Genon, Jessica Simon, Bénédicte Guillaume, Rachel A. Diana, Andrew P. Yonelinas, and Eric Salmon. "Associative Memory and Its Cerebral Correlates in Alzheimer׳s Disease: Evidence for Distinct Deficits of Relational and Conjunctive Memory."Neuropsychologia 63 (2014): 99-106. Web.
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