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Holmes NP, Christensen LOD, Miall RC (2002) Reaching to a target is disrupted by repetitive transcranial magnetic stimulation (rTMS) over the cerebellum: Empirical support for state-estimation by feed-forward internal models. MSc Thesis, Wolfson College, University of Oxford, 31pp.    
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1. Desmurget M, Grafton ST (2000) Forward modeling allows feedback control for fast reaching movements. Trends in Cognitive Sciences, 4(11):423-431
  [NBArticle #3546] [Cites 1] [CitedBy 10] [Delete citation]
2. Desmurget M, Gréa H, Grethe JS, Prablanc C, Alexander GE, Grafton ST (2001) Functional anatomy of nonvisual feedback loops during reaching: A positron emission tomography study. Journal of Neuroscience, 21(8):2919-2928
  [NBArticle #3717] [CitedBy 6] [Delete citation]
3. Eccles JC, Ito M, Szentágothai J (1967) The Cerebellum as a Neuronal Machine. –327
  [NBArticle #1185] [CitedBy 2] [Delete citation]
4. Grafton ST, Mazziotta JC, Woods RP, Phelps ME (1992) Human functional anatomy of visually guided finger movements. Brain, 115(2):565-587
    [NBArticle #2190] [CitedBy 3] [Delete citation]
5. Harris CM, Wolpert DM (1998) Signal-dependent noise determines motor planning. Nature, 397:780-784
  [NBArticle #3613] [CitedBy 1] [Delete citation]
6. Hashimoto M, Ohtsuka KJ (1995) Transcranial magnetic stimulation over the posterior cerebellum during visually guided saccades in man. Brain, 118(5):1185-1193
    [NBArticle #2196] [CitedBy 1] [Delete citation]
7. Inoue K, Kawashima RE, Satoh K, Kinomura S, Goto R, Koyama M, Sugiura M, Ito M, Fukuda H (1998) PET study of pointing with visual feedback of moving hands. Journal of Neurophysiology, 79:117-125
  [NBArticle #3594] [CitedBy 1] [Delete citation]
8. Krakauer JW, Ghilardi MF, Ghez C (1999) Independent learning of internal models for kinematic and dynamic control of reaching. Nature Neuroscience, 2(11):1026-1031
    [NBArticle #3642] [CitedBy 1] [Delete citation]
9. Müllbacher W, Ziemann U, Boroojerdi B, Hallett M (2000) Effects of low frequency transcranial magnetic stimulation on motor excitability and basic motor behaviour. Clinical Neurophysiology, 111:1002-1007
  [NBArticle #2346] [CitedBy 3] [Delete citation]
10. Miall RC, Weir DJ, Wolpert DM, Stein JF (1993) Is the cerebellum a Smith Predictor? Journal of Motor Behaviour, 25(3):203-216
      [NBArticle #2623] [CitedBy 4] [Delete citation]
11. Miall RC, Reckess GZ, Imamizu H (2001) The cerebellum coordinates eye and hand tracking movements. Nature Neuroscience, 4(6):638-644
      [NBArticle #2927] [CitedBy 2] [Delete citation] [CommentsIn 1]
12. Miall RC, Wolpert DM (1996) Forward models for physiological motor control. Neural Networks, 9(8):1265-1279
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13. Modugno N, Nakamara Y, MacKinnon CD, Filopovic SR, Bestmann S, Berardelli A, Rothwell JC (2001) Motor cortex excitability following short trains of repetitive magnetic stimuli. Experimental Brain Research, 140:453-459
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14. Ohtsuka KJ, Enoki T (1998) Transcranial magnetic stimulation over the posterior cerebellum during smooth pursuit eye movements in man. Brain, 121:429-435
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15. Pascual-Leone A, Valls-Solé J, Wassermann EM, Hallett M (1994b) Responses to rapid-rate transcranial magnetic stimulation of the human motor cortex. Brain, 117(4):847-858
      [NBArticle #2193] [CitedBy 2] [Delete citation]
16. Pascual-Leone A, Bartrez-Faz D, Keenan JP (1999) Transcranial magnetic stimulation: Studying the brain-behaviour relationship by induction of 'virtual lesions'. Philosophical Transactions of the Royal Society of London, B: Biological Sciences, 354(1387):1229-1238
      [NBArticle #3110] [CitedBy 1] [Delete citation]
17. Pascual-Leone A, Walsh VZ, Rothwell JC (2000) Transcranial magnetic stimulation in cognitive neuroscience - virtual lesion, chronometry, and functional connectivity. Current Opinion in Neurobiology, 10:232-237
  [NBArticle #2398] [CitedBy 6] [Delete citation]
18. Pinto AD, Chen R (2001) Suppression of the motor cortex by magnetic stimulation of the cerebellum. Experimental Brain Research, 140(4):505-510
      [NBArticle #2527] [CitedBy 1] [Delete citation]
19. Saito Y, Yokota T, Yuasa T (1995) Suppression of motor cortical excitability by magnetic stimulation of the cerebellum. Brain Research, 694:200-206
  [NBArticle #2245] [CitedBy 1] [Delete citation]
20. Sereno MI, Pitzalis S, Martínez A (2001) Mapping of contralateral space in retinotopic coordinates by a parietal cortical area in humans. Science, 294(5545):1350-1354
  [NBArticle #3771] [CitedBy 1] [Delete citation]
21. Touge T, Gerschlager W, Brown P, Rothwell JC (2001) Are the after-effects of low-frequency rTMS on motor cortex excitability due to changes in the efficacy of cortical synapses? Clinical Neurophysiology, 112:2138-2145
  [NBArticle #2349] [CitedBy 2] [Delete citation]
22. Ugawa Y, Day BL, Rothwell JC, Thompson PD, Merton PA, Marsden CD (1991) Modulation of motor cortical excitability by electrical stimulation over the cerebellum in man. Journal of Physiology, 441:57-72
  [NBArticle #2778] [CitedBy 2] [Delete citation]
23. Walsh VZ, Cowey A (2000) Transcranial magnetic stimulation and cognitive neuroscience. Nature Reviews Neuroscience, 1(1):73-79
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24. Wassermann EM (1998) Risk and safety of repetitive transcranial magnetic stimulation: Report and suggested guidelines from the International Workshop on the Safety of Repetitive Transcranial Magnetic Stimulation, June 5-7, 1996. Electroencephalography and Clinical Neurophysiology, 108(1):1-16
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25. Werhahn KJ, Taylor JL, Ridding MC, Meyer B, Rothwell JC (1996) Effect of transcranial magnetic stimulation over the cerebellum on the excitability of motor cortex. Electroencephalography and Clinical Neurophysiology, 101:58-66
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26. Wolpert DM, Miall RC, Kawato MI (1998b) Internal models in the cerebellum. Trends in Cognitive Sciences, 2(9):338-347
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27. Wolpert DM, Ghahramani Z (2000) Computational principles of movement neuroscience. Nature Neuroscience, 3:Suppl1212-1217
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