NEUROSCIENCE

Online Resources (Page 1)

Science Articles -- General Neuroscience

• Amazon.com: Books: The Neuroscience of Human Movement, Leonard

• Amazon.com: Books: Mind Wide Open: Your Brain, Johnson

• Amazon.com: Books: Neurophysiological Basis of Movement, Latash

• Amazon.com: Books: The Mind and the Brain, Schwartz

• Amazon.com: Books: Synaptic Self: How Our Brains Become Who We Are, Ledoux

• Amazon.com: Books: Mapping the Mind, Carter

• Electroencephalography and Clinical Neurophysiology/Evoked Potentials Section

Science Articles -- Motor Learning & Movement

• Marc Jeannerod. (2006). Motor cognition: What action tells the self. Oxford: Oxford University Press.

• Aaron McKee takes a putting lesson -- acquisition, retention, transfer

• Enhancing the learning of sport skills through external-focus feedback.
  Wulf G, McConnel N, Gärtner M, Schwarz A, J Mot Behav. 2002 Jun;34(2):171-82

• On the specific role of the cerebellum in movement learning and cognition: Clues from PET activation and lesion studies in man, W. T. Thach.

• Memletics, Adapting your learning with learning styles

• Researchers find way to improve musical performance using biofeedback,
  Accelerated-learning-online.com, Wednesday 23 July 2003

• Brain anticipates events to learn routines,
  Accelerated-learning-online.com, October 10, 2002

• Scientists find the root of learning in the brain's hippocampus,
  Accelerated-learning-online.com, June 10, 2003

• Effects of focus of attention depend on golfers' skill.
  Perkins-Ceccato N, Passmore SR, Lee TD, J Sports Sci. 2003 Aug;21(8):593-600

• Sleep and the time course of motor skill learning.
  Walker MP, Brakefield T, Seidman J, Morgan A, Hobson JA, Stickgold R, Learn Mem. 2003 Jul-Aug;10(4):275-84

• Cholinergic modulation of skill learning and plasticity.
  Kilgard M, Neuron. 2003 Jun;38(5):678-80

• Qualitative and quantitative knowledge of results: effects on motor learning.
  Kilduski NC, Rice MS, Am J Occup Ther. 2003 May-Jun;57(3):329-36

• Task-dependent modulation of excitatory and inhibitory functions within the human primary motor cortex.
  Tinazzi M, Farina S, Tamburin S, Facchini S, Fiaschi A, Restivo D, Berardelli A, Exp Brain Res. 2003 May;150(2):222-9

• Basic physiologic notions with regard to the musician's hand.
  Malek R, Hand Clin. 2003 May;19(2):215-21, v

• From head orientation to hand control: evidence of both neck and vestibular involvement in hand drawing.
  Guerraz M, Blouin J, Vercher JL, Exp Brain Res. 2003 May;150(1):40-9

• A motor learning strategy reflects neural circuitry for limb control.
  Singh K, Scott SH, Nat Neurosci. 2003 Apr;6(4):399-403

• Spatial representation of predictive motor learning.
  Witney AG, Wolpert DM, J Neurophysiol. 2003 Apr;89(4):1837-43

• The aging hand.
  Carmeli E, Patish H, Coleman R, J Gerontol A Biol Sci Med Sci. 2003 Feb;58(2):146-52

• Increasing the distance of an external focus of attention enhances learning.
  McNevin NH, Shea CH, Wulf G, Psychol Res. 2003 Feb;67(1):22-9

• Prediction precedes control in motor learning.
  Flanagan JR, Vetter P, Johansson RS, Wolpert DM, Curr Biol. 2003 Jan;13(2):146-50

• From 'acting on' to 'acting with': the functional anatomy of object-oriented action schemata.
  Johnson SH, Grafton ST, Prog Brain Res. 2003;142():127-39

• Distinct contribution of the cortico-striatal and cortico-cerebellar systems to motor skill learning.
  Doyon J, Penhune V, Ungerleider LG, Neuropsychologia. 2003;41(3):252-62

• Historical review of the significance of the cerebellum and the role of Purkinje cells in motor learning.
  Ito M, Ann N Y Acad Sci. 2002 Dec;978():273-88

• Freezing degrees of freedom under stress: kinematic evidence of constrained movement strategies.
  Higuchi T, Imanaka K, Hatayama T, Hum Mov Sci. 2002 Dec;21(5-6):831-46

• MEG study of long-term cortical reorganization of sensorimotor areas with respect to using chopsticks.
  Ishii R, Schulz M, Xiang J, Takeda M, Shinosaki K, Stuss DT, Pantev C, Neuroreport. 2002Nov;13(16):2155-9

• Imaging brain plasticity during motor skill learning.
  Ungerleider LG, Doyon J, Karni A, Neurobiol Learn Mem. 2002 Nov;78(3):553-64

• Technique analysis in sports: a critical review.
  Lees A, J Sports Sci. 2002 Oct;20(10):813-28

• Modelling coaching practice: the role of instruction and demonstration.
  Hodges NJ, Franks IM, J Sports Sci. 2002 Oct;20(10):793-811

• Linking actions and their perceivable consequences in the human brain.
  Elsner B, Hommel B, Mentschel C, Drzezga A, Prinz W, Conrad B, Siebner H, Neuroimage. 2002 Sep;17(1):364-72

• Cerebellar structure and function: making sense of parallel fibers.
  Heck D, Sultan F, Hum Mov Sci. 2002 Sep;21(3):411-21

• Direct comparison of neural systems mediating conscious and unconscious skill learning.
  Willingham DB, Salidis J, Gabrieli JD, J Neurophysiol. 2002 Sep;88(3):1451-60

• Visual spatial perception and surgical competence.
  Risucci DA, Am J Surg. 2002 Sep;184(3):291-5

• Functional MRI of motor sequence acquisition: effects of learning stage and performance.
  Müller RA, Kleinhans N, Pierce K, Kemmotsu N, Courchesne E, Brain Res Cogn Brain Res. 2002 Aug;14(2):277-93

• Functional MRI for neurofeedback: feasibility study on a hand motor task.
  Yoo SS, Jolesz FA, Neuroreport. 2002 Aug;13(11):1377-81

• Interactions between human explicit and implicit perceptual motor learning shown by kinematic variables.
  Lagarde J, Li L, Thon B, Magill R, Erbani E, Neurosci Lett. 2002 Jul;327(1):66-70

• Practice with sleep makes perfect: sleep-dependent motor skill learning.
  Walker MP, Brakefield T, Morgan A, Hobson JA, Stickgold R, Neuron. 2002 Jul;35(1):205-11

• Principles derived from the study of simple skills do not generalize to complex skill learning.
  Wulf G, Shea CH, Psychon Bull Rev. 2002 Jun;9(2):185-211

• The musician's brain as a model of neuroplasticity.
  Münte TF, Altenmüller E, Jäncke L, Nat Rev Neurosci. 2002 Jun;3(6):473-8

• Cerebellum activation associated with performance change but not motor learning.
  Seidler RD, Purushotham A, Kim SG, Ugurbil K, Willingham D, Ashe J, Science. 2002 Jun;296(5575):2043-6

• Quiet eye duration, expertise, and task complexity in near and far aiming tasks.
  Williams AM, Singer RN, Frehlich SG, J Mot Behav. 2002 Jun;34(2):197-207

• Human Kinetics - Attention and Motor Skill Learning, by Gabriele Wulf Available in April 2007

• Human Kinetics - Perception, Cognition, and Decision Training - Quiet Eye in Action, The, by Joan Vickers Available in May 2007

• Modification of a functional motor task by non-consciously perceived sensory stimuli.
  Fellows S, Tabaza R, Heumann M, Klotz W, Neumann O, Schwarz M, Noth J, Töpper R, Neuroreport. 2002 Apr;13(5):637-40

• Is human imitation based on a mirror-neurone system? Some behavioural evidence.
  Wohlschläger A, Bekkering H, Exp Brain Res. 2002 Apr;143(3):335-41

• Central mechanisms of motor skill learning.
  Hikosaka O, Nakamura K, Sakai K, Nakahara H, Curr Opin Neurobiol. 2002 Apr;12(2):217-22

• Visuomotor rotations of varying size and direction compete for a single internal model in motor working memory.
  Wigmore V, Tong C, Flanagan JR, J Exp Psychol Hum Percept Perform. 2002 Apr;28(2):447-57

• Differences in white matter architecture between musicians and non-musicians: a diffusion tensor imaging study.
  Schmithorst VJ, Wilke M, Neurosci Lett. 2002 Mar;321(1-2):57-60

• Implicit motor learning through observational training in adults and children.
  Vinter A, Perruchet P, Mem Cognit. 2002 Mar;30(2):256-61

• When paying attention becomes counterproductive: impact of divided versus skill-focused attention on novice and experienced performance of sensorimotor skills.
  Beilock SL, Carr TH, MacMahon C, Starkes JL, J Exp Psychol Appl. 2002 Mar;8(1):6-16

• Dynamic cortical and subcortical networks in learning and delayed recall of timed motor sequences.
  Penhune VB, Doyon J, J Neurosci. 2002 Feb;22(4):1397-406

• Early consolidation in human primary motor cortex.
  Muellbacher W, Ziemann U, Wissel J, Dang N, Kofler M, Facchini S, Boroojerdi B, Poewe W, Hallett M, Nature. 2002 Feb;415(6872):640-4

• Optimization-based models of muscle coordination.
  Prilutsky BI, Zatsiorsky VM, Exerc Sport Sci Rev. 2002 Jan;30(1):32-8

• A single dose of the serotonin neurotransmission agonist paroxetine enhances motor output: double-blind, placebo-controlled, fMRI study in healthy subjects.
  Loubinoux I, Pariente J, Boulanouar K, Carel C, Manelfe C, Rascol, Neuroimage. 2002 Jan;15(1):26-36

• Experience-dependent changes in cerebellar contributions to motor sequence learning.
  Doyon J, Song AW, Karni A, Lalonde F, Adams MM, Ungerleider LG, Proc Natl Acad Sci U S A. 2002 Jan;99(2):1017-22

• Accelerated Learning & Memory Improvement at Memletics

• Selective serotonin reuptake inhibitor paroxetine modulates motor behavior through practice. A double-blind, placebo-controlled, multi-dose study in healthy subjects.
  Loubinoux I, Pariente J, Rascol O, Celsis P, Chol, Neuropsychologia. 2002 ;40(11):1815-21

• Effects of proprioceptive neuromuscular facilitation on the initiation of voluntary movement and motor evoked potentials in upper limb muscles.
  Shimura K, Kasai T, Hum Mov Sci. 2002ÊApr;21(1):101-113

• Effect of putting grip on eye and head movements during the golf putting stroke.,
  Hung (Shoane) GK., Dept of Biomedical Engineering, Rutgers U., shoane@rci.rutgers.edu,
  ScientificWorldJournal. 2003 Mar 24;3:122-37. Print 2003 Mar 24.

• Timothy Lee, et al., McMasters U., Cognitive effort and motor learning, Acrobat file, 103 KB

• Timing of brain development

Science Articles -- Perception and Movement Timing -- See also MUSIC below

• Amazon.com: Benjamin Libet, Mind Time

• Amazon.com: Christof Koch, The Quest for Consciousness

• Brain timing processes, Duke University

• The Human Brain Seen as Master of Time

• Smooth move

• The Scientist :: Timing the path to perception

• Gravity in the Brain

• The Brain and Time

• Amazon.com: Warren Meck, Functional and Neural Mechanisms of Interval Timing

• Psychological and Brain Sciences - Faculty -- Warren Meck

• Basal ganglia and supplementary motor area subtend duration perception: an fMRI study.
  Ferrandez AM, Hugueville L, Lehéricy S, Poline JB, Marsault C, Pouthas V, Neuroimage. 2003 Aug;19(4):1532-44

• Timing goals in bimanual coordination.
  Semjen A, Summers JJ, Q J Exp Psychol A. 2002 Jan;55(1):155-71

• Assessment of fine motor skill in musicians and nonmusicians: differences in timing versus sequence accuracy in a bimanual fingering task.,
  Kincaid AE, Duncan S, Scott SA, Percept Mot Skills. 2002 Aug;95(1):245-57

• Coordination between breathing and mental grouping of pianistic finger movements.
  Ebert D, Hefter H, Binkofski F, Freund HJ, Percept Mot Skills. 2002 Oct;95(2):339-53

• Disorders in timing and force of finger opening in overarm throws made by cerebellar subjects.
  Hore J, Timmann D, Watts S, Ann N Y Acad Sci. 2002 Dec;978():1-15

• Biological clock more influenced by temperature than light,
  Accelerated-learning-online.com, July 15, 2003

• The "ticktock" of our internal clock: direct brain evidence of subjective accents in isochronous sequences.
  Brochard R, Abecasis D, Potter D, Ragot R, Drake C, Psychol Sci. 2003 Jul;14(4):362-6

• Circadian fluctuation of time perception in healthy human subjects.
  Kuriyama K, Uchiyama M, Suzuki H, Tagaya H, Ozaki A, Aritake S, Kamei Y, Nishikawa T, Takahashi K, Neurosci Res. 2003 May;46(1):23-31

• The relative efficacy of different forms of knowledge of results for the learning of a new relative timing pattern.
  De Jaeger D, Proteau L, QJ Exp Psychol A. 2003 May;56(4):621-40

• Distinct systems for automatic and cognitively controlled time measurement: evidence from neuroimaging.
  Lewis PA, Miall RC, Curr Opin Neurobiol. 2003 Apr;13(2):250-5

• Temporal precision of interceptive action: differential effects of target size and speed.
  Tresilian R, Oliver J, Carroll J, Exp Brain Res. 2003 Feb;148(4):425-38

• Human temporal impulse response speeds up with increased stimulus contrast.
  Stromeyer CF, Martini P, Vision Res. 2003 Feb;43(3):285-98

• Auditory influences on visual temporal rate perception.
  Recanzone GH, J Neurophysiol. 2003 Feb;89(2):1078-93

• Distributed neural systems for temporal production: a functional MRI study.
  Basso G, Nichelli P, Wharton CM, Peterson M, Grafman J, Brain Res Bull. 2003 Jan;59(5):405-11

• Processing of temporal information and the basal ganglia: new evidence from fMRI.
  Nenadic I, Gaser C, Volz HP, Rammsayer T, Häger F, Sauer H, Exp Brain Res. 2003 Jan;148(2):238-46

• Processes involved in tempo perception: a CNV analysis.
  Pfeuty M, Ragot R, Pouthas V, Psychophysiology. 2003 Jan;40(1):69-76

• Time, space and hippocampal functions.
  Hölscher C, Rev Neurosci. 2003;14(3):253-84

• Cortical and subcortical contributions to the representation of temporal information.
  Handy TC, Gazzaniga MS, Ivry RB, Neuropsychologia. 2003;41(11):1461-73

• Imitation without awareness.
  Tessari A, Rumiati RI, Haggard P, Neuroreport. 2002 Dec;13(18):2531-5

• Auditory dominance in temporal processing: new evidence from synchronization with simultaneous visual and auditory sequences.
  Repp BH, Penel A, J Exp Psychol Hum Percept Perform. 2002 Oct;28(5):1085-99

• The roles of the cerebellum and basal ganglia in timing and error prediction.
  Dreher JC, Grafman J, Eur J Neurosci. 2002 Oct;16(8):1609-19

• Evidence for a relationship between daily caffeine consumption and accuracy of time estimation.
  Stine MM, O'Connor RJ, Yatko BR, Grunberg NE, Klein LC, Hum Psychopharmacol. 2002 Oct;17(7):361-7

• Learning and performance effects of accurate and erroneous knowledge of results on time perception.
  Ryan LJ, Robey TB, Acta Psychol (Amst). 2002 Jul;111(1):83-100

• Cortical movement preparation before and after a conscious decision to move.
  Trevena JA, Miller J, Conscious Cogn. 2002 Jun;11(2):162-90; discussion 314-25

• When timing the mind one should also mind the timing: biases in the measurement of voluntary actions.
  Joordens S, van Duijn M, Spalek TM, Conscious Cogn. 2002 Jun;11(2):231-40; discussion 308-13

• Libet's temporal anomalies: a reassessment of the data.
  Klein SA, Conscious Cogn. 2002 Jun;11(2):198-214; discussion 314-25

• Limits of rhythm perception.
  Demany L, Semal C, Q J Exp Psychol A. 2002 Apr;55(2):643-57

• The coupling between point-of-gaze and ball movements in three-ball cascade juggling: the effects of expertise, pattern and tempo.
  Huys R, Beek PJ, J Sports Sci. 2002 Mar;20(3):171-86

• Finding downbeats with a relaxation oscillator.
  Eck D, Psychol Res. 2002 Feb;66(1):18-25

• Dissecting the brain's internal clock: how frontal-striatal circuitry keeps time and shifts attention.
  Meck WH, Benson AM, Brain Cogn. 2002 Feb;48(1):195-211

• A sensorimotor theory of temporal tracking and beat induction.
  Todd NP, Lee CS, O'Boyle DJ, Psychol Res. 2002 Feb;66(1):26-39

• The cerebellum and the timing of coordinated eye and hand tracking.
  Miall RC, Reckess GZ, Brain Cogn. 2002 Feb;48(1):212-26

• How do we tell time?
  Buonomano DV, Karmarkar UR, Neuroscientist. 2002 Feb;8(1):42-51

• Anxiety and the prediction of task duration: a preliminary analysis.
  Kelly WE, J Psychol. 2002 Jan;136(1):53-8

• Intercepting a moving target: effects of temporal precision constraints and movement amplitude.
  Tresilian JR, Lonergan A, Exp Brain Res. 2002 Jan;142(2):193-207

• The neuroanatomical substrate of sound duration discrimination.
  Belin P, McAdams S, Thivard L, Smith B, Savel S, Zilbovicius M, Samson S, Samson Y, Neuropsychologia. 2002 ;40(12):1956-64

• Cortical involvement in temporal reproduction: evidence for differential roles of the hemispheres.
  Kagerer FA, Wittmann M, Szelag E, Steinbüchel N, Neuropsychologia. 2002 ;40(3):357-66

• Global and local contributions to the optical specification of time to contact: observer sensitivity to composite tau.
  Bootsma RJ, Craig CM, Perception. 2002 ;31(8):901-24

• Ingenta: Article Summary -- Synchronizing Movement

• Brain and Cognition, vol 48(1) (Feb 2002) -- Special issue on timing

• Synchronizing Movements with the Metronome: Nonlinear Error Correction and Unstable Periodic Orbits,
  Ralf Engbert, Ralf Th. Krampe, Jürgen Kurths and Reinhold Kliegl, Brain and Cognition, vol 48(1) (Feb 2002), pp 107-116

• Interactivemetronome.com...Paper.htm

• D Sternad, PSU Action Lab -- Movement Timing Research Details

• Coaches' Information Service: Using Timing Cues

• Reduced timing variability during bimanual coordination

• Neural Timing Scientific Research

• The evolution of brain activation during temporal processing,
  Stephen M. Rao, Andrew R, Mayer & Deborah L. Harrington, Nature: Neuroscience, ( Mar 2001) Volume 4 Number 3 pp 317 - 323

• Science, 30 May 2003 Smooth move -- [Disrupted Timing of Discontinuous But Not Continuous Movements by Cerebellar Lesions, R. M. C. Spencer et al,] David Tenenbaum.

• Purdue HK Faculty: Howard N. Zelaznik

• Exp Brain Res, (2005) 161: 383-396, Role of cerebellum in movements: control of timing or movement transitions?, Rebecca M.C. Spencer, Richard B. Ivry, & Howard N. Zelaznik.

• Brain and Cognition 58 (2005): 84-93, Comparison of patients with Parkinson's disease or cerebellar lesions in the production of periodic movements involving event-based or emergent timing, Rebecca M.C. Spencer & Richard B. Ivry.

• Exp Brain Res (2004) 159: 129-134, Keeping with the beat: movement trajectories contribute to movement timings, Ramesh Balasubramaniam, Alan M. Wing & Andreas Daffertshofer.

• Science. 2003 May;300(5624):1437-9, Disrupted timing of discontinuous but not continuous movements by cerebellar lesions. Spencer RM, Zelaznik HN, Diedrichsen J, Ivry RB.

• Cerebellum. 2003 ;2(2):114-22, The role of the cerebellum in preparing responses to predictable sensory events. Nixon PD.

• Eur J Neurosci. 2002 Oct;16(8):1609-19, The roles of the cerebellum and basal ganglia in timing and error prediction. Dreher JC, Grafman J.

• Motor Control. 2003 Jan;7(1):71-81, A role of the basal ganglia in movement: the effect of precues on discrete bi-directional movements in Parkinson's disease. Johnson AM, Vernon PA, Almeida QJ, Grantier LL, Jog MS.

• J Int Neuropsychol Soc. 2003 Jan;9(1):103-27, Frontal-striatal circuit functions: context, sequence, and consequence. Saint-Cyr JA

• Child Care Health Dev. 2003 Sep;29(5):395-409, Sequencing, co-ordination and rhythm ability in young children. Haines C.

• Brain Cogn. 2002 Feb;48(1):195-211, Dissecting the brain's internal clock: how frontal-striatal circuitry keeps time and shifts attention. Meck WH, Benson AM.

• Clin Neurophysiol. 2003 Jan;114(1):107-19, Basic mechanisms of central rhythms reactivity to preparation and execution of a voluntary movement: a stereoelectroencephalographic study. Szurhaj W, Derambure P, Labyt E, Cassim F, Bourriez JL, Isnard J, Guieu JD, Maugui�re F.

• Brain Cogn. 2002 Feb;48(1):179-94, The effects of expertise and age on rhythm production: adaptations to timing and sequencing constraints. Krampe RT, Engbert R, Kliegl R.

• Brain Cogn. 2002 Feb;48(1):66-79, Temporal control of movements in sensorimotor synchronization. Aschersleben G.

• Brain Res Brain Res Rev. 2003 Jun;42(3):265-72, Is synchronized neuronal gamma activity relevant for selective attention? Fell J, Fernández G, Klaver P, Elger CE, Fries P.

• Neurosci Lett. 2002 Nov;332(3):205-9, Practice-dependent modulation of neural activity during human sensorimotor coordination: a functional Magnetic Resonance Imaging study. Jantzen KJ, Steinberg FL, Kelso JA.

• Int J Psychophysiol. 2002 May;44(2):143-63, Phase-coupling of theta-gamma EEG rhythms during short-term memory processing. Schack B, Vath N, Petsche H, Geissler HG, Möller E.

• J Neurosci. 2002 Oct;22(20):9024-34, Differential involvement of parietal and precentral regions in movement preparation and motor intention. Thoenissen D, Zilles K, Toni I.

• J Neurosci. 2003 Jul;23(15):6209-14, Gaze-centered updating of visual space in human parietal cortex. Medendorp WP, Goltz HC, Vilis T, Crawford JD.

• Neuroreport. 2002 Apr;13(5):633-6, Visuospatial updating of reaching targets in near and far space. Medendorp WP, Crawford JD.

• Neuroreport. 2002 Aug;13(12):1563-6, On-line versus off-line vestibular-evoked control of goal-directed arm movements. Bresciani JP, Blouin J, Sarlegna F, Bourdin C, Vercher JL, Gauthier GM.

• Hum Mov Sci. 2003 Feb;22(1):13-36, On-line trajectory modifications of planar, goal-directed arm movements. Nijhof EJ.

• Neurosci Res. 2002 Aug;43(4):289-94, Optimization of goal-directed movements in the cerebellum: a random walk hypothesis. Kitazawa S.

• Neurosci Res. 2002 May;43(1):9-22, Neuronal activity representing visuospatial mnemonic processes associated with target selection in the monkey dorsolateral prefrontal cortex. Iba M, Sawaguchi T.

• Neuron. 2002 Jul;35(1):195-204, Tracking the mind's image in the brain II: transcranial magnetic stimulation reveals parietal asymmetry in visuospatial imagery. Sack AT, Sperling JM, Prvulovic D, Formisano E, Goebel R, Di Salle F, Dierks T, Linden DE.

• J Neurosci. 2003 Sep;23(22):8135-42, Motion parallax is computed in the updating of human spatial memory. Medendorp WP, Tweed DB, Crawford JD.

• Eur J Neurosci. 2002 Oct;16(7):1361-76, The cerebellum in action: a simulation and robotics study. Hofstštter C, Mintz M, Verschure PF.

• Brain Cogn. 2002 Feb;48(1):212-26 The cerebellum and the timing of coordinated eye and hand tracking. Miall RC, Reckess GZ.

• Brain Res Cogn Brain Res. 2003 Feb;15(3):250-60, Cortical and cerebellar activity of the human brain during imagined and executed unimanual and bimanual action sequences: a functional MRI study. Nair DG, Purcott KL, Fuchs A, Steinberg F, Kelso JA.

• Neuron. 2002 Aug;35(3):575-87, Delayed striate cortical activation during spatial attention. Noesselt T, Hillyard SA, Woldorff MG, Schoenfeld A, Hagner T, Jäncke L, Tempelmann C, Hinrichs H, Heinze HJ.

• Exp Brain Res. 2002 Feb;142(3):301-7, Human cortical activities during Go/NoGo tasks with opposite motor control paradigms. Yamanaka K, Kimura T, Miyazaki M, Kawashima N, Nozaki D, Nakazawa K, Yano H, Yamamoto Y.

• Trends Neurosci. 2003 Apr;26(4):222-7, What the cerebellum computes. Ohyama T, Nores WL, Murphy M, Mauk MD.

• Ann N Y Acad Sci. 2002 Dec;978():302-17, The cerebellum and event timing. Ivry RB, Spencer RM, Zelaznik HN, Diedrichsen J.

• Brain Cogn. 2002 Feb;48(1):117-32, Temporal control and coordination: the multiple timer model. Ivry RB, Richardson TC.

• Q J Exp Psychol A. 2002 Jan;55(1):155-71, Timing goals in bimanual coordination. Semjen A, Summers JJ.

• Prog Brain Res. 2002 ;140():365-73, Commentary: coordination of eye and hand in time and space. Bekkering H, Sailer U.

• Exp Brain Res. 2002 May;144(2):268-74, Throwing darts: timing is not the limiting factor. Smeets JB, Frens MA, Brenner E.

• Ann N Y Acad Sci. 2002 Dec;978():1-15, Disorders in timing and force of finger opening in overarm throws made by cerebellar subjects. Hore J, Timmann D, Watts S.

• Exp Brain Res. 2002 Aug;145(3):275-85, Temporal capacity of short-term visuomotor memory in continuous force production. Vaillancourt DE, Russell DM.

• Acta Psychol (Amst). 2003 Sep;114(1):41-65, Spatio-temporal working-memory and short-term object-location tasks use different memory mechanisms. Zimmer HD, Speiser HR, Seidler B.

• Psychol Sci. 2002 Jul;13(4):342-9, Practicing perfection: piano performance as expert memory. Chaffin R, Imreh G.

• J Neurophysiol. 2003 Feb;89(2):1126-35, Neural networks for the coordination of the hands in time. UllŽn F, Forssberg H, Ehrsson HH.

• Hum Mov Sci. 2002 Sep;21(3):411-21, Cerebellar structure and function: making sense of parallel fibers. Heck D, Sultan F.

• Ann N Y Acad Sci. 2002 Dec;978():334-53, Role of the cerebellum in motor cognition. Van Mier HI, Petersen SE.

• Brain Res Brain Res Rev. 2003 Jun;42(3):252-64 Watch how to do it! New advances in learning by observation. Petrosini L, Graziano A, Mandolesi L, Neri P, Molinari M, Leggio MG.

• Neuroscience. 2002 ;111(4):863-70, Neuronal plasticity of interrelated cerebellar and cortical networks. Molinari M, Filippini V, Leggio MG.

• Ann N Y Acad Sci. 2002 Dec;978():273-88, Historical review of the significance of the cerebellum and the role of Purkinje cells in motor learning. Ito M.

• Nat Rev Neurosci. 2002 Feb;3(2):122-31, Parallels between cerebellum- and amygdala-dependent conditioning. Medina JF, Christopher Repa J, Mauk MD, LeDoux JE.

• Brain Cogn. 2002 Feb;48(1):133-48, On the timing basis of bimanual coordination in discrete and continuous tasks. Semjen A.

• Q J Exp Psychol A. 2003 Feb;56(2):329-50, Reduced timing variability during bimanual coupling: a role for sensory information. Drewing K, Aschersleben G.

• Percept Psychophys. 2002 Jul;64(5):703-16, Perception of timing is more context sensitive than sensorimotor synchronization. Repp BH.

• Brain Cogn. 2002 Feb;48(1):31-51, Timing, clocks, and dynamical systems. Schöner G.

• J Mot Behav. 2002 Dec;34(4):402-12, Does handedness determine which hand leads in a bimanual task? Franz EA, Rowse A, Ballantine B.

• NeuroScript, Submovement Analysis in Learning Cursive Handwriting or Block Print, Hans-Leo Teulings & Diana Romero.

• Somatics Library: Tai Chi, A Somatic Movement Art, Bradford C. Bennett.

• Richard B. Ivry Lab, UCLA Berkeley, Cognition Action Lab--- Publications

• Spencer, R., Zelaznick, H.N., Diedrichsen, J., & Ivry, R.B. (2003). Disrupted timing of discontinuous but not continuous movements by cerebellar lesions. Science, 300, 1437-1439.

• Aparicio, P., Diedrichsen, J. & Ivry, R.B. (2005). Effects of focal basal ganglia lesions on timing and force control. Brain and Cognition, 58, 62-74. (pdf)

• Stuart T. Klapp, Janek M. Nelson, and Richard J. Jagacinski, Can People Tap Concurrent Bimanual Rhthyms Independently?, Journal of Motor Behavior (1998) 30(4): 301-322. (pdf)

• Diedrichsen, J., Hazeltine, E., Nurss, W.K., & Ivry, R.B. (2003). The role of the corpus callosum in the coupling of bimanual isometric force pulses. Journal of Neurophysiology, 90, 2409-2418. (pdf)

• Diedrichsen, J., Verstynen, T., Lehman, S. L., & Ivry, R.B. (in press). Cerebellar involvement in anticipating the consequences of self-produced actions during bimanual movement. Journal of Neurophysiology. (pdf)

• Diedrichsen, J., Ivry, R.B., & Pressing, J. (2003). Cerebellar and basal ganglia contributions to interval timing. In W.H. Meck (Ed.), Functional and Neural Mechanisms of Interval Timing. Boca Raton, FL: CRC Press. (pp. 457-481). (pdf)

• Grafton, S.T., Hazeltine, E., and Ivry, R.B. (2002). Motor sequence learning with the non-dominant hand: A PET functional imaging study. Experimental Brain Research, 146, 369-378. (pdf)

• Handy, T., Gazzaniga, M., and Ivry, R.B. (2003). Cortical and subcortical contributions to the representation of temporal information. Neuropsychologia, 41, 1461-1473. (pdf)

• Ivry, R.B., Diedrichsen, J., Spencer, R.C.M., Hazeltine, E., and Semjen, A. (2004). A cognitive neuroscience perspective on bimanual coordination. In S. Swinnen and J. Duysens (Eds.), Neuro-behavioral Determinants of Interlimb Coordination. Boston: Kluwer Academic Publishing. (pp. 259-295). (pdf)

• Ivry, R.B. & Richardson, T. (2002). Temporal control and coordination: The multiple timer model. Brain and Cognition, 48, 117-132. ( pd)f

• Ivry, R.B. & Spencer, R.(2004). The neural representation of time. Current Opinion in Neurobiology, 14, 225-232. (pdf)

• Ivry, R.B., Richardson, T.C., & Helmuth, L. L. (2002). Improved temporal stability in multi-effector movements. Journal of Experimental Psychology: Human Perception and Performance, 28, 72-92. (pdf)

• Ivry, R.B., Spencer, R.M., Zelaznik, H.N., & Diedrichsen, J. (2002). The cerebellum and event timing. In S.M. Highstein and W.T. Thach (Eds.), The Cerebellum: Recent Developments in Cerebellar Research. Annals of the New York Academy of Sciences, Vol. 978. New York: New York Academy of Sciences (pp 302-317). (pdf)

• Justus T.C. & Ivry R.B. (2001). The cognitive neuropsychology of the cerebellum. International Review of Psychiatry, 13, 276-282. (pdf)

• Keele, S.W., Ivry, R., Mayr, U., Hazeltine, E., & Heuer, H. (2003). The cognitive and neural architecture of sequence representation. Psychological Review, 110, 316-339.(pdf)

• Ravizza, S. & Ivry, R.B. (2001). Comparison of the basal ganglia and cerebellum in attention shifting. Journal of Cognitive Neuroscience, 13, 285-297.(pdf)

• Spencer, R. & Ivry, R.B. (2005). Comparisons of patients with Parkinson's disease or cerebellar lesions in the production of periodic movements involving event-based or emergent timing. Brain and Cognition, 58, 84-93. (pdf)

• Spencer, R., Ivry, R.B., & Zelaznick, H.N. (2005). Role of the cerebellum in movements: control of timing or movement transitions? Experimental Brain Research, 161, 383-396. (pdf)

• Zelaznik H.N., Spencer R.M., & Ivry, R.B. (2002). Dissociation of explicit and implicit timing in repetitive tapping and drawing movements. Journal of Experimental Psychology: Human Perception and Performance, 28, 575-588. (pdf)

• Visual Science II -- Monocular Sensory Aspects of Vision: Lecture 23: Temporal Vision Phenomena. (pdf)

• Visual Science II -- Monocular Sensory Aspects of Vision: Lecture 16: Temporal summation, Stiles-Crawford Effect. (pdf)

• Visual Science II -- Monocular Sensory Aspects of Vision: Lecture 22: Temporal vision. (pdf)

• Journal of Motor Behavior (2001) 33(2): 127-134, Effects of an Auditroy Model on the Learning of Relative and Absolute Timing, Charles H. Shea, Gabrielle Wulf, and Kin-Hoon Park. (pdf)

• Journal of Motor behavior (2001) 33(1): 3-8, Origins of Timing Errors in Human Sensorimotor Coordination, Yanqing Chin, Mingzhou Ding, and JA Scott Kelso. (pdf)

• Journal of Motor Behavior (2001) 33(2): 139-152, Consistent and Variable Practice Conditions: Effects of Absolute and Relative Timing, Charles H. Shea, Qin Lai, David L. Wright, Maarten Immink, and Chales Black. (pdf)

• Journal of Motor Behavior (2001) 33(3): 273-285, Planning and Executing Simple Movements: Contributions of Relative-Time and Overall-Duration Specifications, David L. Wright, Charles Black, Jin-Hoon Park, and Charles H. Shea. (pdf)

• Movement Disorders -- Cerebellar Lesions and Syndromes.

• Robert B. Graham, Lecture 1.6: Structures of the CNS.

• Scott Thierl, Functional Restoration: Chiropractic Neurology, Dystonia and Secondary Symptoms (May 2004).

• Samara Miles-Prystowsky, Biological Basis of Behavior -- Introduction to Cerebellar Lesions, March 2005.

• NEST -- New England Sequencing and Timing, 13th Annual Meeting, Yale University, Mar 15, 2005.

• Journal of Neurophysiology (2003) 89: 1223-1237, Neuronal Activity Related to the Visual Representation of Arm Movements in the Lateral Cerebellar Cortex, Xuguang Liu, Edwin Robertson, and R. Christopher Miall. (pdf)

• European Journal of Neuroscience (May 2004) 19(9): 2591, Dissociating brain regions controlling the temporal and ordinal structure of learned movement sequences, Sara L. Bengtsson, H. Henrik Ehrsson, Hans Forssberg and Fredrik Ullén.

• Brain and Cognition (2005) 58: 84-93, Comparison of patients with Parkinson's disease or cerebellar lesions in the production of periodic movements involving event-based or emerging timing, Rebecca M.C. Spencer and Richard B. Ivry.

• The Role of Population Coding in the Control of Movement, David L. Sparks, William B. Kristan Jr., and Brian K. Shaw.

• The Psychology of Time, Psychology 220, Haverford College, Marilyn Boltz

• Human Brain Mapping (17 Apr 2001) 13(2): 55-73, Sensorimotor mapping of the human cerebellum: fMRI evidence of somatotopic organization, Wolfgang Grodd, Ernst Hülsmann, Martin Lotze, Dirk Wildgruber, Michael Erb.

• Science (30 May 2003) 300: 1337 & 1399, Movement, timing and the cerebellum.

• Annals of the NY Academy of Science (2003) 999: 364-373, Neural Basis of Rhythmic Timing Networks in the Human Brain, Thaut.

• Journal of Neurophysiology (2003) 90: 3725-3735, Independent Processing of the Temporal and Ordinal Structure of Movement Sequences Fredrik UllŽn and Sara L. Bengtsson.

• Journal of Neuroscience (1 Jun 1996) 16(11): 3737-3744, Specific Involvement of Human Parietal Systems and the Amygdala in the Perception of Biological Motion, Eva Bonda, Michael Petrides, David Ostry, and Alan Evans.

• Universty of Colorado, Dept of Psychology, Interval Timing: A Cerebellar Model and Investigation of Temporal Production, Amy Santamaria (Master's Thesis, 2002).

• Current Opinion in Neurobiology (2004) 14: 225-232, The neural representation of time, Richard B. Ivry and Rebecca M.C. Spencer. (pdf)

• Brain (March 2004) 127(3): 561-574, Does the representation of time depend on the cerebellum? -- Effect of cerebellar stroke, Deborah L. Harrington, Roland R. Lee, Lara A. Boyd, Steven Z. Rapcsak and Robert T. Knight.

• PubMed citations, Richard B. Ivry.

• Human Kinetics - Movement System Variability, ed. Keith Davids, Simon Bennett, Karl M. Newell Copyright 2006

MUSIC AND MOVEMENT TIMING

• The Musical Brain Lectures, The Royal Institution of Great Britain.

• Tour Tempo - Using music to learn tempo in sports.

• VCU School of the Arts, Bassoon Treatise - Chapter 4: General Approaches to Practicing.

• VCU School of the Arts, Bassoon Treatise - Chapter 1: Introduction.

• VCU School of the Arts, Bassoon Treatise - Chapter 2: General Considerations.

• VCU School of the Arts, Bassoon Treatise - Chapter 3" Structuring the Prcatice Session.

• Timedoc's Neural Network, Timing in Music & Dance.

• Timedoc's Neural Network, Timing Related Bibliography and Recommended Reading.

• Timedoc's neural Network, Neural Timing Scientific Research.

• Wilbur's Music Tutorial #3 -- Rhythm & Tempo: How to count the beat.

• Nature Neuroscience (2003) 6: 688-691, Modularity of music processing, Isabelle Peretz andÊMax Coltheart.

• MuSICA Research Notes -- Subject Index.

• MuSICA (Spring 1995) II(1), The Musician's Brain.

• MuSICA (Spring 1995) II(1), The Neurobiology of Musical Learning and Memory.

• MuSICA (Spring 1995) II(1), Brain Anatomy and Music.

• MuSICA (Spring 1995) II(1), What the Brain Tells Us About Music: Amazing Facts and Astounding Implications Revealed.

• MuSICA (Spring 1995) II(1), Music, Development, Aging and the Brain: It's Never too Late for Music.

• MuSICA (Spring 1995) II(1), Understanding Music's Emotional Powe.r

• MuSICA (Spring 1995) II(1), The Coloring of Life: Music and Mood.

• MuSICA (Spring 1995) II(1), Physiological Response to Music Stimuli.

• MuSICA (Spring 1995) II(1), Brain.

• MuSICA (Spring 1995) II(1), Brain Coherence, Musicianship and Gender.

• MuSICA (Spring 1995) II(1), Brain Cooperation.

• MuSICA (Spring 1995) II(1), More Brain Better Fingering?

• MuSICA (Spring 1995) II(1), Mozart and Spatial Reasoning.

• MuSICA (Spring 1995) II(1), Music Alters Children's Brainwaves.

• MuSICA (Spring 1995) II(1), Music, Neuroscience, Physiology and Medicine.

• MuSICA (Spring 1995) II(1), The Neurobiology of Musical Learning and Memory.

• MuSICA (Spring 1995) II(1), The Neurobiology of the Benefits of Music.

• MuSICA (Spring 1995) II(1), The Unconscious Musical Brain.

• Harvard Institute for Music and Brain Science, Psychology 987b: Music, Mind and Brain -- Selected Readings.

• Ohio State University, School of Music, Motor Behavior and Music.

• Ohio State University, School of Music, Cognitive Ethnomusicology: A Partially Annotated Bibliography.

• Journal of Motor Behavior (1999) 31(2): 145-164, Control of Expressive and Metronomic Timing in Pianists, runo H. Repp. (pdf)

• Cognitive Brain Research (2005) 23(2-3): 436-443, Coordination of bowing and fingering in volin playing, Andreas P. Baader, Oleg Kazennikov and Mario Wiesendanger.

• Nature Neuroscience (2003) Ê6: 682 - 687, Swinging in the brain: shared neural substrates for behaviors related to sequencing and music, Petr Janata and Scott T Grafton.

• Music Perception (Winter 2002) 20(2): 151-171, Effects of Musical Tempo and Mode on Arousal, Mood, and Spatial Abilities, Gabriela Husain, William Forde Thompson, E. Glenn Schellenberg.

• Cerebrum: The Dana Forum on Brain Science (Fall 2000) 2(4), In search of the musical mind, Daniel J. Levitin. (pdf)

• Annual Review of Psychology (Feb 2005) 56: 89-114, Brain Organization for Musical Processing, Isabelle Peretz -Robert J. Zatorre.

• Absolute memory for musical tempo: Additional evidence that auditory memory is absolute

• Cogprints - Memory for musical tempo

• Daniel J. Levitin, Brain and music research, Magill University

• Dan Levitin Podcast -- This is your brain on music

• Michael Thaut, Rhythm, Music, and the Brain: Scientific Foundations and Clinical Applications

• Musical tempo and time perception in a gymnasium

• University of California Press - Music Perception

• eMusicTheory.com -- Learning Music Theory.

Science Articles -- Vision & Perception

• Object vision and spatial vision citations

• Perception-in-action publications

• Gestalt Laws of Perception

• Vision Research : Attention shifts to salient targets

• Vision Research : Perceived distance, shape and size

• Vision Research : Perception of head orientation

• Vision Research : Judging distance from ocular convergence.

• Vision Research : Human smooth pursuit direction discrimination

• Vision Research : Saccades to Remembered Targets: The Effects of Saccades and Illusory Stimulus Motion

• Vision Research : Orientation Discrimination in Cyclopean Vision

• Vision Research : Perceptual consequences of ocular lens overshoot during saccadic eye movements

• Vision Research : Stereopsis, spatial frequency and retinal eccentricity

• Vision Research : Dmax for stereopsis depends on size, not spatial frequency content

• Vision Research : Measurement and Modeling of Depth Cue Combination: in Defense of Weak Fusion

• Vision Research : Positional uncertainty in peripheral and amblyopic vision

• Vision Research : Visually perceived eye level and perceived elevation of objects: Linearly additive influences from visual field pitch and from gravity

• Vision Research : The coding of spatial position by the human visual system: Effects of spatial scale and retinal eccentricity

• Vision Research : Position and spatial frequency in large-scale localization judgments

• Vision Research : The coding of spatial position by the human visual system: Effects of spatial scale and contrast

• Vision Research : Computational anatomy and functional architecture of striate cortex: A spatial mapping approach to perceptual coding

• Trends in Neurosciences : Separate visual pathways for perception and action

• Temporaral characteristics of binocular rivalry: visual field assymetries, Xiangchuan Chen & Sheng He, Vision Research 43 (2003): 2307-2212 (pdf)

• Does visual perception of object afford action? Evidence from a neuroimaging study.
  Grèzes J, Decety J, Neuropsychologia. 2002Ê;40(2):212-22

• Eye-hand coordination to visual versus remembered targets,
  Paul van Donkelaar and Julie Straub, Exp Brain Res (Jun 2000): 133: 414-418

• The suppression of cervico-ocular response by the haptokinetic information about the contact with a rigid, immobile object.
  Gurfinkel VS, Levik YuS., Institute of Information Transmission Problems Russian Academy of Sciences,