Abstract
A body of work has accumulated to show that the cognitive process of binding information from different mnemonic and sensory sources as well as in different linguistic modalities can be fractionated from general executive functions in working memory both functionally and neurally. This process has been defined in terms of the episodic buffer (Baddeley in Trends Cogn Sci 4(11):417–423, 2000). This paper considers behavioural, neuropsychological and neuroimaging data that elucidate the role of the episodic buffer in language processing. We argue that the episodic buffer seems to be truly multimodal in function and that while formation of unitary multidimensional representations in the episodic buffer seems to engage posterior neural networks, maintenance of such representations is supported by frontal networks. Although, the episodic buffer is not necessarily supported by executive processes and seems to be supported by different neural networks, it may operate in tandem with the central executive during effortful language processing. There is also evidence to suggest engagement of the phonological loop during buffer processing. The hippocampus seems to play a role in formation but not maintenance of representations in the episodic buffer of working memory.
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References
Allen RJ, Baddeley AD, Hitch GJ (2006) Is the binding of visual features in working memory resource-demanding? J Exp Psychol Gen 135:298–313
Alloway TP, Gathercole SE, Willis C, Adams AM (2004) A structural analysis of working memory and related cognitive skills in young children. J Exp Child Psychol 87:85–106
Andersson U, Lidestam B (2005) Bottom-up driven speechreading in a speechreading expert: the case of AA (JK023). Ear Hear 26(29):214–224
Baddeley A (1986) Working memory. Clarendon Press, Oxford
Baddeley A (1992) Working memory. Science 255:556–559
Baddeley A (1996) Exploring the central executive. Q J Exp Psychol A 49:5–28
Baddeley A (2000) The episodic buffer: a new component of working memory? Trends Cogn Sci 4(11):417–423
Baddeley A, Hitch G (1974) Working memory. In: Bower GA (ed) Recent advances in learning and motivation, Vol 8. Academic, New York, pp 47–90
Baddeley A, Wilson BA (2002) Prose recall and amnesia: implications for the structure of working memory. Neuropsychologia 40(10):1737–1743
Bayliss DM, Jarrold C, Baddeley AD, Gunn DM (2005) The relationship between short-term memory and working memory: Complex span made simple? Memory 13(3/4):414–421
Bor D, Owen AM (2007) A common prefrontal-parietal network for mnemonic and mathematical recodning strategies within working memory. Cereb Cortex 17(4):778–786
Boutla M, Supalla T, Newport EL, Bavelier D (2004) Short-term memory span: insights from sign language. Nat Neurosci 7(9):997–1002
Braver TS, Cohen JD, Nystrom LE, Jonides J, Smith EE, Noll DC (1997) A parametric study of prefrontal cortex involvement in human working memory. Neuroimage 5:49–62
Buchsbaum B, Pickell B, Love T, Hatrak M, Bellugi U, Hickok G (2005) Neural substrates for verbal working memory in deaf signers: fMRI study and lesion case report. Brain Lang 95(2):265–272
Cave CB, Squire LR (1992) Intact verbal and nonverbal short-term memory following damage to the human hippocampus. Hippocampus 2:151–163
Chalfonte BL, Johnson MK (1996) Feature memory and binding in young and older adults. Mem Cogn 24(4):403–416
Daneman M, Carpenter PA (1980) Individual differences in working memory and reading. J Verbal Learn Verbal Behav 19:450–466
Davachi L, Wagner AD (2002) Hippocampal contributions to episodic encoding: insights from relational and item-based learning. J Neurophysiol 88:982–990
Ericsson KA, Kintsch W (1995) Long-term working memory. Psychol Rev 102:211–245
Foo C, Rudner M, Rönnberg J, Lunner T (2007) Recognition of speech in noise with new hearing instrument compression release settings requires explicit cognitive storage and processing capacity. J Am Acad Audiol 18:553–566
Ganis G, Thompson WL, Kosslyn SM (2004) Brain areas underlying visual mental imagery and visual perception: an fMRI study. Cogn Brain Res 20(2):226–241
Gathercole SE, Pickering SJ, Knight C, Stegmann Z (2004) Working memory skills and educational attainment: Evidence from national curriculum assessments at 7 and 14 years of age. Appl Cogn Psychol 18(1):1–16
Gooding PA, Isaac CL, Mayes AR (2005) Prose recall and amnesia: more implications for the episodic buffer. Neuropsychologia 43:583–587
Jeffries E, Lambon Ralph MA, Baddeley AD (2004) Automatic and controlled processing in sentence recall: the role of long-term and working memory. J Memory Lang 51:623–643
Just MA, Carpenter PA (1992) A capacity theory of comprehension: individual differences in working memory. Psychol Rev 99(1):122–149
Klauer KC, Zhao Z (2004) Double dissociations in visual and spatial short-term memory. J Exp Psychol Gen 133(3):355–381
Lehnert G, Zimmer HD (2006) Auditory and visual spatial working memory. Mem Cogn 34(5):1080–1090
Logie RH, Della Sala S, Wynn V, Baddeley AD (2000) Visual similarity effects in immediate verbal serial recall. Q J Exp Psychol A 53(3):626–646
Lunner T (2003) Cognitive function in relation to hearing aid use. Int J Audiol 42(Suppl 1):S49–S58
Lyxell B, Arlinger S, Andersson J, Bredberg G, Harder H (1998) Phonological representation and speech understanding with cochlear implants in deafened adults. Scand J Psychol 39:175–179
Mitchell KJ, Johnson MK, Raye CL, D’Esposito M (2000) fMRI evidence of age-related hippocampal dysfunction in feature binding in working memory. Cogn Brain Res 10:197–206
Moscovitch M (1992) Memory and working-with-memory: A component process model based on modules and central systems. J Cogn Neurosci 4(3):257–267
Olson IR, Page K, Moore KS, Chatterjee A, Verfaellie M (2006) Working memory for conjunctions relies on the medial temporal lobe. J Neurosci 26(17):4596–4601
Osaka N, Osaka M, Kondo H, Morishita M, Fukuyama H, Shibasaki H (2004) The neural basis of executuive function in working memory: an fMRI study based on individual differences. Neuroimage 21:623–631
Petersson KM, Gisselgård J, Gretzer M, Ingvar M (2006) Interaction between a verbal working memory network and the medial temporal lobe. Neuroimage 33:1207–1217
Prabhakaran V, Narayanan K, Zhao Z, Gabrielli JDE (2000) Integration of diverse information in working memory in the frontal lobe. Nat Neurosci 3:85–90
Quinette P, Guillery B, Desgranges B, de la Sayette V, Viader F, Eustache F (2003) Working memory and executive functions in transient global amnesia. Brain 126:1917–1934
Quinette P, Guillery B, Noël A, de la Sayette V, Viader F, Desgranges B, Eustache F (2006) The relationship between working memory and episodic memory disorders in transient global amnesia. Neuropsychologia 44:2508–2519
Ranganath C, Blumenfeld RS (2005) Doubts about double dissociations between short- and long-term memory. Trends Cogn Sci 9(8):374–380
Repovs G, Baddeley A (2006) The multi-component model of working memory: explorations in experimental cognitive psychology. Neuroscience 139(1):5–21
Rönnberg J (1993) Cognitive characteristics of skilled tactiling: the case of GS. Eur J Cogn Psychol 5:19–33
Rönnberg J (2003a) Cognition in the hearing impaired and deaf as a bridge between signal and dialogue: a framework and a model. Int J Audiol 42:S68–S76
Rönnberg J (2003b) Working memory, neuroscience and language: evidence from deaf and hard of hearing individuals. In: Marschark M, Spencer P (eds) The handbook of deaf studies, language, and education. Oxford University Press, Oxford
Rönnberg J, Rudner M, Ingvar M (2004) Neural correlates of working memory for sign language. Cogn Brain Res 20:165–182
Rönnberg J, Rudner M, Foo C (2007) The cognitive neuroscience of signed language: applications to a working memory system for sign and speech. In: Bäckman L, Nyberg L (eds) Memory, aging and the brain: a Festschrift in honour of Lars-Göran Nilsson. Psychology Press, London
Rossi-Arnaud C, Pieroni L, Baddeley A (2006) Symmetry and binding in visuo-spatial working memory. Neuroscience 139:393–400
Rudner M, Rönnberg J (2006) Towards a functional ontology for working memory for sign and speech. Cogn Process 7(5):183–186
Rudner M, Rönnberg J, Hugdahl K (2005) Reversing spoken items: mind twisting not tongue twisting. Brain Lang 92(1):78–90
Rudner M, Fransson P, Ingvar M, Nyberg L, Rönnberg J (2007a) Neural representation of binding lexical signs and words in the episodic buffer of working memory. Neuropsychologia 45(10):2258–2276
Rudner M, Foo C, Rönnberg J, Lunner T (2007b) Phonological mismatch makes aided speech recognition in noise cognitively taxing. Ear Hear (in press)
Tulving E (1983) Elements of episodic memory. Oxford University Press, Oxford
Vallar G, Baddeley AD (1987) Phonological short-term store and sentence processing. Cogn Neuropsychol 4:417–438
Vass M, Ibertsson T, Lyxell B, Sahlén B, Hällgren M, Larsby B (2006) Cognitive development in children with cochlear implants (CI) ASHA Convention, Miami Beach, November 16–18
Wilson M, Emmorey K (1997) A visuospatial “phonological loop” in working memory: evidence from American sign language. Memory Cogn 25:313–320
Wilson M, Emmorey K (1998) A “word length effect” for sign language: further evidence for the role of language in structuring working memory. Memory Cogn 26(3):584–590
Wilson M, Emmorey K (2003) The effect of irrelevant visual input on working memory for sign language. J Deaf Stud Deaf Educ 8:97–103
Zhang D, Zhang X, Sun X, Li Z, Wang Z, He S, Hu X (2004) Cross-modal temporal order memory for auditory digits and visual locations: an fMRI study. Hum Brain Mapp 22(4):280–289
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Rudner, M., Rönnberg, J. The role of the episodic buffer in working memory for language processing. Cogn Process 9, 19–28 (2008). https://doi.org/10.1007/s10339-007-0183-x
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DOI: https://doi.org/10.1007/s10339-007-0183-x