Cortex
Volume 46, Issue 7 , Pages 880-895 , July 2010

The contributions of cerebro-cerebellar circuitry to executive verbal working memory

  • Cherie L. Marvel

      Affiliations

    • Corresponding Author InformationCorresponding author. Johns Hopkins Medicine, Department of Neurology, Division of Cognitive Neuroscience, 1620 McElderry Street, Reed Hall East-2, Baltimore, MD 21205, USA.
    • ,
  • John E. Desmond

Received 31 October 2008 ,Revised 9 March 2009 ,Accepted 12 August 2009.

References 

  1. Akkal D, Dum RP, Strick PL. Supplementary motor area and presupplementary motor area: Targets of basal ganglia and cerebellar output. The Journal of Neuroscience: The Official Journal of the Society for Neuroscience. 2007;27:10659–10673
  2. Baddeley A. Working memory. Science. 1992;255:556–559
  3. Baddeley A, Gathercole S, Papagno C. The phonological loop as a language learning device. Psychological Review. 1998;105:158–173
  4. Bates JF, Goldman-Rakic PS. Prefrontal connections of medial motor areas in the rhesus monkey. The Journal of Comparative Neurology. 1993;336:211–228
  5. Becker JT, MacAndrew DK, Fiez JA. A comment on the functional localization of the phonological storage subsystem of working memory. Brain and Cognition. 1999;41:27–38
  6. Ben-Yehudah G, Guediche S, Fiez JA. Cerebellar contributions to verbal working memory: Beyond cognitive theory. Cerebellum. 2007;6:193–201
  7. Borowsky R, Cummine J, Owen WJ, Friesen CK, Shih F, Sarty GE. FMRI of ventral and dorsal processing streams in basic reading processes: Insular sensitivity to phonology. Brain Topography. 2006;18:233–239
  8. Chang C, Crottaz-Herbette S, Menon V. Temporal dynamics of basal ganglia response and connectivity during verbal working memory. NeuroImage. 2007;34:1253–1269
  9. Chen SH, Desmond JE. Cerebrocerebellar networks during articulatory rehearsal and verbal working memory tasks. NeuroImage. 2005;24:332–338
  10. Chen SH, Desmond JE. Temporal dynamics of cerebro-cerebellar network recruitment during a cognitive task. Neuropsychologia. 2005;43:1227–1237
  11. Chikazoe J, Jimura K, Asari T, Yamashita K, Morimoto H, Hirose S, et al. Functional dissociation in right inferior frontal cortex during performance of go/no-go task. Cerebral Cortex. 2009;19:146–152
  12. Desmond JE, Chen SH, DeRosa E, Pryor MR, Pfefferbaum A, Sullivan EV. Increased frontocerebellar activation in alcoholics during verbal working memory: An fMRI study. NeuroImage. 2003;19:1510–1520
  13. Desmond JE, Fiez JA. Neuroimaging studies of the cerebellum: Language, learning, and memory. Trends in Neuroscience. 1998;2:355–362
  14. Desmond JE, Gabrieli JD, Wagner AD, Ginier BL, Glover GH. Lobular patterns of cerebellar activation in verbal working-memory and finger-tapping tasks as revealed by functional MRI. The Journal of Neuroscience: The Official Journal of the Society for Neuroscience. 1997;17:9675–9685
  15. Desmond JE, Marvel CL. Cognition: Cerebellum role. In:  Squire LR editors. Encyclopedia of Neuroscience. Oxford: Academic Press; 2009;p. 1079–1085
  16. D'Esposito M, Detre JA, Alsop DC, Shin RK, Atlas S, Grossman M. The neural basis of the central executive system of working memory. Nature. 1995;378:279–281
  17. Dimitrova A, Zeljko D, Schwarze F, Maschke M, Gerwig M, Frings M, et al. Probabilistic 3DMRI atlas of the human cerebellar dentate/interposed nuclei. NeuroImage. 2006;30:12–25
  18. Dosenbach NU, Visscher KM, Palmer ED, Miezin FM, Wenger KK, Kang HC, et al. A core system for the implementation of task sets. Neuron. 2006;50:799–812
  19. Dum RP, Strick PL. An unfolded map of the cerebellar dentate nucleus and its projections to the cerebral cortex. Journal of Neurophysiology. 2003;89:634–639
  20. Fiez JA, Balota DA, Raichle ME, Petersen SE. Effects of lexicality, frequency, and spelling-to-sound consistency on the functional anatomy of reading. Neuron. 1999;24:205–218
  21. Fiez JA, Petersen SE, Cheney MK, Raichle ME. Impaired non-motor learning and error detection associated with cerebellar damage. A single case study. Brain. 1992;115:155–178
  22. Fiez JA, Raichle ME. Linguistic processing. International Review of Neurobiology. 1997;41:233–254
  23. Fiez JA, Raife EA, Balota DA, Schwarz JP, Raichle ME, Petersen SE. A positron emission tomography study of the short-term maintenance of verbal information. The Journal of Neuroscience: The Official Journal of the Society for Neuroscience. 1996;16:808–822
  24. Friston KJ, Holmes AP, Worsley KJ, Poline JP, Frith CD, Frackowiak RSJ. Statistical parametric maps in functional imaging: A general linear approach. Human Brain Mapping. 1995;2:189–510
  25. Habas C, Kamdar N, Nguyen D, Prater K, Beckmann CF, Menon V, et al. Distinct cerebellar contributions to intrinsic connectivity networks. The Journal of Neuroscience: The Official Journal of the Society for Neuroscience. 2009;29:8586–8594
  26. Hoover JE, Strick PL. The organization of cerebellar and basal ganglia outputs to primary motor cortex as revealed by retrograde transneuronal transport of herpes simplex virus type 1. The Journal of Neuroscience: The Official Journal of the Society for Neuroscience. 1999;19:1446–1463
  27. Hoshi E, Tanji J. Differential roles of neuronal activity in the supplementary and presupplementary motor areas: From information retrieval to motor planning and execution. Journal of Neurophysiology. 2004;92:3482–3499
  28. Jonides J, Schumacher EH, Smith EE, Koeppe RA, Awh E, Reuter-Lorenz PA, et al. The role of parietal cortex in verbal working memory. The Journal of Neuroscience: The Official Journal of the Society for Neuroscience. 1998;18:5026–5034
  29. Kelly AM, Uddin LQ, Biswal BB, Castellanos FX, Milham MP. Competition between functional brain networks mediates behavioral variability. NeuroImage. 2008;39:527–537
  30. Kirschen MP, Chen SH, Schraedley-Desmond P, Desmond JE. Load- and practice-dependent increases in cerebro-cerebellar activation in verbal working memory: An fMRI study. NeuroImage. 2005;24:462–472
  31. Kirschen MP, Davis-Ratner MS, Milner MW, Chen SH, Schraedley-Desmond P, Fisher PG, et al. Verbal memory impairments in children after cerebellar tumor resection. Behavioural Neurology. 2008;20:39–53
  32. Lancaster JL, Rainey LH, Summerlin JL, Freitas CS, Fox PT, Evans AC, et al. Automated labeling of the human brain: A preliminary report on the development and evaluation of a forward-transform method. Human Brain Mapping. 1997;5:238–242
  33. Leggio MG, Silveri MC, Petrosini L, Molinari M. Phonological grouping is specifically affected in cerebellar patients: A verbal fluency study. Journal of Neurology, Neurosurgery, and Psychiatry. 2000;69:102–106
  34. Marvel CL, Schwartz BL, Isaacs KL. Word production deficits in schizophrenia. Brain and Language. 2004;89:182–191
  35. Middleton FA, Strick PL. Basal ganglia and cerebellar loops: Motor and cognitive circuits. Brain Research. Brain Research Reviews. 2000;31:236–250
  36. Middleton FA, Strick PL. Cerebellar projections to the prefrontal cortex of the primate. The Journal of Neuroscience: The Official Journal of the Society for Neuroscience. 2001;21:700–712
  37. Nicolson RI, Fawcett AJ. Developmental dyslexia, learning and the cerebellum. Journal of Neural Transmission Supplementum. 2005;19–36
  38. O'Hare ED, Kan E, Yoshii J, Mattson SN, Riley EP, Thompson PM, et al. Mapping cerebellar vermal morphology and cognitive correlates in prenatal alcohol exposure. NeuroReport. 2005;16:1285–1290
  39. Parent A, Hazrati LN. Functional anatomy of the basal ganglia. I. The cortico-basal ganglia-thalamo-cortical loop. Brain Research. Brain Research Reviews. 1995;20:91–127
  40. Pascual-Leone A, Grafman J, Clark K, Stewart M, Massaquoi S, Lou JS, et al. Procedural learning in Parkinson's disease and cerebellar degeneration. Annals of Neurology. 1993;34:594–602
  41. Paulesu E, Frith CD, Frackowiak RS. The neural correlates of the verbal component of working memory. Nature. 1993;362:342–345
  42. Pessoa L, Gutierrez E, Bandettini P, Ungerleider L. Neural correlates of visual working memory: FMRI amplitude predicts task performance. Neuron. 2002;35:975–987
  43. Psychology Software Tools I. E-prime v1.1. Pittsburgh, 2002.
  44. Ravizza SM, Delgado MR, Chein JM, Becker JT, Fiez JA. Functional dissociations within the inferior parietal cortex in verbal working memory. NeuroImage. 2004;22:562–573
  45. Ravizza SM, McCormick CA, Schlerf JE, Justus T, Ivry RB, Fiez JA. Cerebellar damage produces selective deficits in verbal working memory. Brain. 2006;129:306–320
  46. Schmahmann JD, Doyon J, Petrides M, Evans AC, Toga AW. MRI Atlas of the Human Cerebellum. San Diego: Academic Press; 2000;
  47. Schmahmann JD, Sherman JC. Cerebellar cognitive affective syndrome. International Review of Neurobiology. 1997;41:433–440
  48. Smith EE, Jonides J. Neuroimaging analyses of human working memory. Proceedings of the National Academy of Sciences of the United States of America. 1998;95:12061–12068
  49. Smith EE, Jonides J. Storage and executive processes in the frontal lobes. Science. 1999;283:1657–1661
  50. Smith EE, Jonides J, Marshuetz C, Koeppe RA. Components of verbal working memory: Evidence from neuroimaging. Proceedings of the National Academy of Sciences of the United States of America. 1998;95:876–882
  51. Sternberg S. High-speed scanning in human memory. Science. 1966;153:652–654
  52. Talairach J, Tournoux P. Co-planar Stereotaxic Atlas of the Human Brain 3-D Proportional System, An Approach to Cerebral Imaging. New York: Thieme Medical Publishers, Inc.; 1988;
  53. Valera EM, Faraone SV, Biederman J, Poldrack RA, Seidman LJ. Functional neuroanatomy of working memory in adults with attention-deficit/hyperactivity disorder. Biological Psychiatry. 2005;57:439–447
  54. Wager TD, Sylvester CY, Lacey SC, Nee DE, Franklin M, Jonides J. Common and unique components of response inhibition revealed by fMRI. NeuroImage. 2005;27:323–340

PII: S0010-9452(09)00262-7

doi: 10.1016/j.cortex.2009.08.017

Cortex
Volume 46, Issue 7 , Pages 880-895 , July 2010

Article Tools

* Image Usage & Resolution