On the mechanism of cerebellar contributions to cognition (original) (raw)
Ivry RB, Keele SW, Diener HC. Dissociation of the lateral and medial cerebellum in movement timing and movement execution. Exp Brain Res. 1988;73:167–80. ArticlePubMedCAS Google Scholar
Fiez JA, Petersen SE, Cheney MK, Raichle ME. Impaired non-motor learning and error detection associated with cerebellar damage. Brain. 1992;115:155–78. ArticlePubMed Google Scholar
Decety J, Sjoholm H, Ryding E, Stenberg G, Ingvar DH. The cerebellum participates in mental activity: Tomographie measurements of regional cerebral blood flow. Brain Res. 1990;535:313–17. ArticlePubMedCAS Google Scholar
Ryding E, Decety J, Sjoholm H, Stenberg G, Ingvar DH. Motor imagery activates the cerebellum regionally. A SPECT rCBRF study with 99m Tc-HMPAO. Cog. Brain Res. 1993;l:94–9. Article Google Scholar
Gebhart AG, Petersen SE, Thach WT. The role of the cerebellum in language. In: Highstein SM, Thach WT, editors. Recent developments in cerebellar research. New York: New York Academy of Sciences, 2002. pp 318–33. Google Scholar
Maschke M, Drepper J, Burgerhoff K, Calabrese S, Kolb FP, Daum I, Diener HC, Timmann D. Differences in trace and delay visuomotor associative learning incerebellarpatients. Exp Brain Res. 2002;147:538–48. ArticlePubMed Google Scholar
Timmann D, Drepper J, Calabrese S, Burgerhoff K, Maschke M, Kolb FP, Daum I, Diener HC. Use of sequence information in associative learning in control subjects and cerebellar patients. Cerebellum. 2004;3:75–82. ArticlePubMedCAS Google Scholar
Ravizza SM, McCormick CA, Schlerf JE, Justus T, Ivry RB, Fiez JA. Cerebellar damage produces selective deficits in verbal working memory. Brain. 2006;l29:306–20. Google Scholar
Schmahmann JD, Sherman JC. The cerebellar cognitive affective syndrome. Brain. 1998;121:561–79. ArticlePubMed Google Scholar
Thach WT. On the specific role of the cerebellum in motor learning and cognition: clues from pet activation and lesion studies in humans. Behav Brain Sci. 1996;19:411–31. Google Scholar
Kelly RM, Strick PL. Cerebellar loops with motor cortex and prefrontal cortex of a nonhuman primate. J Neurosci. 2003;23:8432–44. PubMedCAS Google Scholar
Dum RP, Strick PL. An unfolded map of the cerebellar dentate nucleus and its projections to the cerebral cortex. J Neurophysiol. 2003;89:634–9. ArticlePubMed Google Scholar
Hore J, Watts S. Timing finger opening in overarm throwing based on a spatial representation of hand path. J Neurophysiol. 2005;93:3189. ArticlePubMed Google Scholar
Eccles JC, Ito M, Szentagothai J. The cerebellum as a neuronal machine. New York: Springer-Verlag, Inc, 1967. Google Scholar
Ito M. The cerebellum and neural control. New York: Appleton-Century-Crofts, 1984. Google Scholar
Mugnaini E. The length of cerebellar parallel fibers in chicken and rhesus monkey. J.Comp.Neurol. 1983;220:7–15. ArticlePubMedCAS Google Scholar
Thach WT, Jones EG. The cerebellar dentatothalamic connection. Terminal field, lamellae, rods and somatotopy. Brain Res. 1979;169:168–72. ArticlePubMedCAS Google Scholar
Asanuma C, Thach WT, Jones EG. Anatomical evidence for segregated focal groupings of efferent cells and their terminal ramifications in the cerebellothalamic pathway of the monkey. Brain Res Rev. 1983;5:267–99. Article Google Scholar
Asanuma C, Thach WT, Jones EG. Distribution of cerebellar terminations and their relation to other afferent terminations in the ventral lateral thalamic region of the monkey. Brain Res Rev. 1983;5:237–65. Article Google Scholar
Thach WT, Perry JG, Kane SA, Goodkin HP. Cerebellar nuclei: Rapid alternating movement, motor somatotopy, and a mechanism for the control of muscle synergy. Rev Neurologique. 1993;149:607–28. CAS Google Scholar
Thach WT, Goodkin HP, Keating JG. The cerebellum and the adaptive coordination of movement. Annu Rev Neurosci. 1992;15:403–42. ArticlePubMedCAS Google Scholar
Bastian AJ, Mink JW, Kaufman BA, Thach WT. Posterior vermal split syndrome. Ann Neurol. 1998;44:601–10. ArticlePubMedCAS Google Scholar
Heck DH, Thach WT, Keating JG. On-beam synchrony in the cerebellum as the mechanism for the timing and coordination of movement. Proc Natl Acad Sci USA. 2007 May l;104(18):7658–63. Epub 2007 Apr. 23. ArticlePubMedCAS Google Scholar
Gilbert PFC, Thach WT. Purkinje cell activity during motor learning. Brain Res. 1977;128:309–28. ArticlePubMedCAS Google Scholar
Baizer JS, Glickstein M. Role of cerebellum in prism adaptation. J Physiol. 1974;23:34–5. Google Scholar
Martin TA, Keating JG, Goodkin HP, Bastian AJ, Thach WT. Throwing while looking through prisms I. Focal olivocerebellar lesions impair adaptation. Brain. 1996;119:1183–98. ArticlePubMed Google Scholar
Kenyon GT, Medina JF, Mauk MD. A mathematical model of the cerebellar-olivary system I: Self-regulating equilibrium of climbing fiber activity. J Comput Neurosci. 1998a;5:17–33. ArticlePubMedCAS Google Scholar
Thach WT. Discharge of Purkinje and cerebellar nuclear neurons during rapidly alternating arm movements in the monkey. J Neurophysiol. 1968;31:785–97. PubMedCAS Google Scholar
Lang CE, Schieber MH. Human finger independence: Limitations due to passive mechanical coupling versus active neuromuscular control. J Neurophysiol. 2004;92:2802–10. ArticlePubMed Google Scholar
Goodkin HP, Thach WT. Cerebellar control of constrained and unconstrained movements. I. Nuclear inactivation. J Neurophysiol. 2003;89:884–95. ArticlePubMedCAS Google Scholar
Bastian AJ, Martin TA, Keating JG, Thach WT. Cerebellar ataxia: Abnormal control of interaction torques across multiple joints. J Neurophysiol. 1996;76:492–509. PubMedCAS Google Scholar
Connor LT, DeShazo Braby T, Snyder AZ, Lewis C, Blasi V, Corbetta M. Cerebellar activity switches hemispheres with cerebral recovery in aphasia. Neuropsychologia. 2006;44:171–7. ArticlePubMed Google Scholar
Bellugi U, Bihrle A, Jernigan T, Trauner D, Doherty S. Neuropsychological, neurological, and neuroanatomical profile of Williams Syndrome. Am.J Med Gen, 115–25.