Separate Neural Correlates for the Mnemonic Components of Successive Discrimination and Working Memory Tasks

doi:10.1093/cercor/11.1.59

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Cerebral Cortex, Vol. 11, No. 1, 59-72, January 2001
© 2001 Oxford University Press

Separate Neural Correlates for the Mnemonic Components of Successive Discrimination and Working Memory Tasks

L. Cornette¹, P. Dupont¹^,2, G. Bormans², L. Mortelmans² and G.A. Orban¹

¹ Laboratorium voor Neuro- en Psychofysiologie, KU Leuven, Medical School, Campus Gasthuisberg, Herestraat 49, B-3000 Leuven and , ² Centrum voor Positron Emissie Tomografie, Departement Nucleaire Geneeskunde, UZ Gasthuisberg, B-3000 Leuven, Belgium

We have used positron emission tomography to map the mnemoniccomponents of two tasks at the extremes of the visual short-term/working memory spectrum. The successive discrimination taskrequires only storage of a single item for very short time (ultra-short-term memory), while the 2back task requires both maintenance(i.e. storage and rehearsal) and manipulation of several items(working memory). We tested whether or not the storage component,common to the two tasks, engaged the same cerebral regions.To remove unnecessary confounds, we reduced the cues availableto the subjects to a single elementary attribute, the orientationof a grating presented in central vision. This prevented subjectsfrom using verbal strategies or vestibular cues and allowedequating of difficulty among tasks. Ultra-short-term memoryfor orientation engaged a large expanse of occipito-temporalcortex with a rate-dependent antero-posterior gradient: a fasttrial rate engaged posterior regions, a slow trial rate anteriorregions. On the other hand, working memory for orientation involvedthe left inferior parietal cortex, left dorsolateral prefrontalcortex and a left superior frontal sulcus region, and to a lesserdegree the symmetrical right superior frontal region and a leftsuperior parietal region. Direct comparison of the two orientationmemory networks confirmed their functional segregation. We concludethat at least the storage of orientation information engagesdistinct regions depending on whether or not short-term memory/workingmemory involves rehearsal and/or manipulative processes.

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