Functional organization of spatial and nonspatial working memory processing within the human lateral frontal cortex.

The present study used functional magnetic resonance imaging to demonstrate that performance of visual spatial and visual nonspatial working memory tasks involve the same regions of the lateral prefrontal cortex when all factors unrelated to the type of stimulus material are appropriately controlled. These results provide evidence that spatial and nonspatial working memory may not be mediated, respectively, by mid-dorsolateral and mid-ventrolateral regions of the frontal lobe, as widely assumed, and support the alternative notion that specific regions of the lateral prefrontal cortex make identical executive functional contributions to both spatial and nonspatial working memory.

[1]  R. Sepponen,et al.  A Method for Chemical Shift Imaging: Demonstration of Bone Marrow Involvement with Proton Chemical Shift Imaging , 1984, Journal of computer assisted tomography.

[2]  Alan C. Evans,et al.  Dissociation of human mid-dorsolateral from posterior dorsolateral frontal cortex in memory processing. , 1993, Proceedings of the National Academy of Sciences of the United States of America.

[3]  P. Goldman-Rakic,et al.  Dissociation of object and spatial processing domains in primate prefrontal cortex. , 1993, Science.

[4]  Sabrina S Wilson Radiology , 1938, Glasgow Medical Journal.

[5]  M. Torrens Co-Planar Stereotaxic Atlas of the Human Brain—3-Dimensional Proportional System: An Approach to Cerebral Imaging, J. Talairach, P. Tournoux. Georg Thieme Verlag, New York (1988), 122 pp., 130 figs. DM 268 , 1990 .

[6]  P. Goldman-Rakic,et al.  Functional magnetic resonance imaging of human prefrontal cortex activation during a spatial working memory task. , 1994, Proceedings of the National Academy of Sciences of the United States of America.

[7]  A. W. Kemp,et al.  Kendall's Advanced Theory of Statistics. , 1994 .

[8]  Leslie G. Ungerleider,et al.  Object and spatial visual working memory activate separate neural systems in human cortex. , 1996, Cerebral cortex.

[9]  R. Turner,et al.  Dynamic magnetic resonance imaging of human brain activity during primary sensory stimulation. , 1992, Proceedings of the National Academy of Sciences of the United States of America.

[10]  Alan C. Evans,et al.  Functional activation of the human frontal cortex during the performance of verbal working memory tasks. , 1993, Proceedings of the National Academy of Sciences of the United States of America.

[11]  M. Metz-Lutz Handbook of neuropsychology, Vol 6 et 7, Rapin I, Segalowitz SJ (Eds.). Elsevier (1992) , 1993 .

[12]  Edward E. Smith,et al.  Spatial versus Object Working Memory: PET Investigations , 1995, Journal of Cognitive Neuroscience.

[13]  Alan C. Evans,et al.  Evidence for a two-stage model of spatial working memory processing within the lateral frontal cortex: a positron emission tomography study. , 1996, Cerebral cortex.

[14]  M Petrides,et al.  Impairments on nonspatial self-ordered and externally ordered working memory tasks after lesions of the mid-dorsal part of the lateral frontal cortex in the monkey , 1995, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[15]  Bruce R. Rosen,et al.  Motion detection and correction in functional MR imaging , 1995 .

[16]  P. Goldman-Rakic Architecture of the Prefrontal Cortex and the Central Executive , 1995, Annals of the New York Academy of Sciences.

[17]  M. Kendall,et al.  Kendall's advanced theory of statistics , 1995 .

[18]  Edward E. Smith,et al.  Spatial working memory in humans as revealed by PET , 1993, Nature.

[19]  B. J. Casey,et al.  Activation of the prefrontal cortex in a nonspatial working memory task with functional MRI , 1994, Human brain mapping.

[20]  S C Rao,et al.  Integration of what and where in the primate prefrontal cortex. , 1997, Science.

[21]  R B Buxton,et al.  Susceptibility induced MR line broadening: applications to brain iron mapping. , 1988, Journal of computer assisted tomography.

[22]  Ravi S. Menon,et al.  Intrinsic signal changes accompanying sensory stimulation: functional brain mapping with magnetic resonance imaging. , 1992, Proceedings of the National Academy of Sciences of the United States of America.

[23]  M. Petrides,et al.  Specialized systems for the processing of mnemonic information within the primate frontal cortex. , 1996, Philosophical transactions of the Royal Society of London. Series B, Biological sciences.

[24]  W. T. Dixon Simple proton spectroscopic imaging. , 1984, Radiology.