fMRI Investigation of Cortical and Subcortical Networks in the Learning of Abstract and Effector-Specific Representations of Motor Sequences



References

Alexander, G.E., DeLong, M.R., Strick, P.L., 1986. Parallel organization of
functionally segregated circuits linking basal ganglia and cortex.
Ann. Rev.
Neurosci. 9,
357-381.

Bapi, R.S., Doya, K., Harner, A.M., 2000. Evidence for effector independent and
effector dependent representations and their differential time course of acquisition
during motor sequence learning.
Exp. Brain Res. 132, 149-162.

Bland, J.M., Altman, D.G., 1994. Correlation, regression, and repeated data. BMJ
308
, 896.

Bower, J., 1995. The cerebellum as a sensory acquisition controller. Hum. Brain
Mapp.
2, 255-256.

Brett, M., Christoff, K., Cusack, R., Lancaster, J., 2001. Using the Talairach atlas with
the MNI template.
NeuroImage, 13, S85.

Caminiti, R., Ferraina, S., Mayer, A.B., 1998. Visuomotor transformations: Early
cortical mechanisms of reaching.
Curr. Opin. Neurobiol. 8, 753-761.

Doyon, J., Penhune, V., Ungerleider, L.G., 2003. Distinct contribution of the cortico-
striatal and cortico-cerebellar systems to motor skill learning.
Neuropsychologia
41(3)
, 252-262.

Fitts, P.M., (1964). Perceptual-motor skill learning. In A.W. Melton (ed), Categories
of human learning
. Academic Press, New York, pp 243--285.

Friston, K.J., Ashburner, J., Frith, C.D., Poline, J-B., Heather, J.D., Frackowiak, R.S.
J., 1995a. Spatial registration and normalisation of images.
Hum. Brain Mapp. 2,
165-189.

Friston, K.J., Holmes, A.P., Worsley, K.J., Poline, J-B., Frith, C.D., Frackowiak, R.S.
J., 1995b. Statistical parametric maps in functional imaging: A general linear
approach.
Hum. Brain Mapp. 2, 189-210.

Grafton, S.T., Hazeltine, E., Ivry, R., 1995. Functional mapping of sequence learning
in normal humans.
J. Cog. Neurosci. 7, 497-510.

Grafton, S.T., Hazeltine, E., Ivry, R.B., 1998. Abstract and effector-specific
representations of motor sequences identified with PET.
J. Neurosci. 18, 9420-
9428.

Harrington, D.L., Rao, S.M., Haaland, K.Y., Bobholz, J.A., Mayer, A.R., Binder, J.R.,
Cox, R.W., 2000. Specialized neural systems underlying representations of
sequential movements.
J. Cog. Neurosci. 12, 56-77.

Hikosaka, O., Rand, M.K., Miyachi, S., Miyashita, K., 1995. Learning of sequential
movements in the monkey: Process of learning and retention of memory.
J.
Neurophysiol. 74
, 1652-1661.

Hikosaka, O., Sakai, K., Miyauchi, S., Takino, R., Sasaki, Y., Putz, B., 1996.
Activation of human presupplementary motor area in learning of sequential
procedures: a functional MRI study.
J. Neurophysiol. 76, 617-621.

Hikosaka, O., Nakahara, H., Rand, M.K., Sakai, K., Lu, X., Nakamura, K., Miyachi,
S., Doya, K., 1999. Parallel neural networks for learning sequential procedures.
Trends Neurosci. 22, 464-471.

Hikosaka, O., Nakamura, K., Sakai, K., & Nakahara, H., 2002. Central mechanisms
of motor skill learning.
Curr. Opin. Neurobiol. 12, 217-222.

26



More intriguing information

1. The name is absent
2. The name is absent
3. FASTER TRAINING IN NONLINEAR ICA USING MISEP
4. The name is absent
5. Constructing the Phylomemetic Tree Case of Study: Indonesian Tradition-Inspired Buildings
6. The effect of classroom diversity on tolerance and participation in England, Sweden and Germany
7. Spousal Labor Market Effects from Government Health Insurance: Evidence from a Veterans Affairs Expansion
8. Studying How E-Markets Evaluation Can Enhance Trust in Virtual Business Communities
9. Regional differentiation in the Russian federation: A cluster-based typification
10. The name is absent