Skip to main content Accessibility help

We use cookies to distinguish you from other users and to provide you with a better experience on our websites. Close this message to accept cookies or find out how to manage your cookie settings.

Close cookie message
×
Home
  • Home
Hostname: page-component-559fc8cf4f-s65px Total loading time: 1.243 Render date: 2021-02-26T21:50:54.715Z Has data issue: true Feature Flags: { "shouldUseShareProductTool": true, "shouldUseHypothesis": true, "isUnsiloEnabled": true, "metricsAbstractViews": false, "figures": false, "newCiteModal": false, "newCitedByModal": true }
EnglishFrançais
Behavioral and Brain Sciences Behavioral and Brain Sciences

Article contents

Abnormal movements can be identified in “atypical” populations

Published online by Cambridge University Press:  04 February 2010

J. G. Phillips ,
J. L. Bradshaw ,
M. J. Slavin  and
C. Pantelis
J. G. Phillips
Affiliation:
Neuropsychology Research Unit, Psychology Department, Monash University, Clayton, Victoria 3168, Australia
J. L. Bradshaw
Affiliation:
Neuropsychology Research Unit, Psychology Department, Monash University, Clayton, Victoria 3168, Australia
M. J. Slavin
Affiliation:
Neuropsychology Research Unit, Psychology Department, Monash University, Clayton, Victoria 3168, Australia
C. Pantelis
Affiliation:
Mental Health Research Institute of Victoria, Parkville, Victoria 3052, Australia. psy193g@alpha1.cc.monash.edu.au
Corresponding
E-mail address:
psy193g@alpha1.cc.monash.edu.au
Get access
Rights & Permissions[Opens in a new window]

Abstract

Latash & Anson's discussion of movements of “atypical” populations is potentially topical but unhelpful. Abnormal movements can be distinguished from any compensatory adjustments in Parkinson's, Huntington's, and Alzheimer's diseases and schizophrenia. To suggest otherwise may do “atypical” populations and their caregivers a disservice. It would be more meaningful to discuss the relative modularity and separability of cognitive and motor processes.

Type
Open Peer Commentary
Information
Behavioral and Brain Sciences , Volume 19 , Issue 1 , March 1996 , pp. 84 - 85
Copyright
Copyright © Cambridge University Press 1996

Access options

Get access to the full version of this content by using one of the access options below.
If you should have access and can't see this content please contact technical support.

References

Ada, L., Canning, C. G., Carr, J. H.. Kilbreath, S. L. & Shepherd, R. B. (1994) Task-specific training of reaching and manipulation. In: Insights into the reach to grasp movement, ed. Bennett, K. M. B. & Castiello, U.. Elsevier. [JHC]Google Scholar
Agid, Y., Cervera, P., Hirsch, E., Javoy-Agid, F., Lehericy, S., Raisman, R. & Rugerg, M. (1989) Biochemistry of Parkinson's disease 28 years later: A critical review. Movement Disorders 4:S126S144. [JMG]CrossRefGoogle ScholarPubMed
Agostino, R., Berardelli, A., Formica, A., Accomero, N. & Manfredi, M. (1992) Sequential arm movements in patients with Parkinson’ s disease, Huntington’ s disease and dystonia. Brain 115:1481–95. [AB, DMC]CrossRefGoogle Scholar
Alexander, G. E. & Crutcher, M. D. (1990) Functional architecture of basal ganglia circuits: Neural substrates of parallel processing. Trends in Neurosciences 13:266–71. [JMG]CrossRefGoogle ScholarPubMed
Alexander, R. M. (1991) How dinosaurs ran. Scientific American 264(4):130136. [AWB]CrossRefGoogle Scholar
Alexander, R. M. (1993) Optimization of structure and movement of the legs of animals. Journal of Biomechanics 26 Supplement 1:16. [AWB]CrossRefGoogle Scholar
Alexander, R. M. & Jayes, A. S. (1983) A dynamic similarity hypothesis for the gaits of quadrupedal mammals. Journal of Zoology 222:471–78. [AWB]CrossRefGoogle Scholar
Alexandrov, A., Frolov, A. & Massion, J. (1994) Voluntary forward bending movement in humans: A principal component analysis of axial synergies. In: Vestibular and neural fronts, ed. Taguthi, K., Igarashi, M. & Mozi, S.. Elsevier. [EVB]Google Scholar
Almeida, G. L., Aruin, A. S. & Latash, M. L. (1994a) Organization of a simple two-joint synergy in individuals with Down syndrome. Brazilian International Journal of Adapted Physical Education Research 1:141–42. [aMLL]Google Scholar
Almeida, G. L., Aruin, A. S. & Latash, M. L. (1994b) Organization of a simple, two-joint synergy in individuals with Down's syndrome. In: Motor control in Down's syndrome: Proceedings of the second international conference (11 19–20, 1994), ed. Latash, M. L.. Chicago, IL. [MGW]Google Scholar
Almeida, G. L., Corcos, D. M. & Latash, M. L. (1994) Practice and transfer effects during fast single joint elbow movements in individuals with Down syndrome. Physical Therapy 74:1000–16. [arMLL]CrossRefGoogle ScholarPubMed
American Alliance for Health, Physical Education and Recreation (1952) Guiding principles for adapted physical education. Journal of Health, Physical Education, and Recreation 23:15. [CBW]Google Scholar
Andrews, C. J., Burke, D. & Lance, J. W. (1972) The response to muscle stretch and shortening in Parkinsonian rigidity. Brain 95:795812. [aMLL]CrossRefGoogle ScholarPubMed
Angulo-Kinzler, R., Chapman, D., Ulrich, B. D. & Thelen, E. (1995) Context effects on the muscle activation patterns of newly walking infants. Paper presented at the annual meeting of die North American Society for the Psychology of Sport and Physical Activity, Asilomar, CA (06, 1995). [ET]Google Scholar
Anson, J. G. (1989) Down syndrome: Neuromotor programming and fractionated reaction time. In: Motor control in Down syndrome, ed. Latash, M. L.. Chicago: Rush Medical Center. [aMLL]Google Scholar
Anson, J. G. (1992) Neuromotor control and Down syndrome. In: Approaches to the study of motor control and learning, ed. Summers, J. J.. North-Holland. [aMLL]Google Scholar
Anson, J. G., Lockie, R. M. & Mawston, G. A. (1994) Downs syndrome: Persistence of distal-to-proximal sequencing. In: Motor control in Down's syndrome: Proceedings of the second international conference (11 19–20, 1994), ed. Latash, M. L.. Chicago, IL. [MGW]Google Scholar
Arbib, M. A. (1981) Perceptual structures and distributed motor control. In: Handbook of physiology, section 1: The nervous system, vol. 2, part 2, ed. Bethesda, MD: American Physiological Society. [aMLL]Google Scholar
Aruin, A. S., Almeida, G. L. & Latash, M. L. (1994) Anticipatory postural adjustments during predictable and self-inflicted perturbations in Down syndrome. In: Motor control in Down syndrome 2, ed. Latash, M. L.. Chicago: Rush University. [rMLL]Google Scholar
Ayres, A. J. (1972) Improving academic scores through sensory integration. Journal of Learning Disabilities 2:23. [MFL]Google Scholar
Balan, C. M. & Davis, W. E. (1992) Optimizing the involvement and performance of children with physical impairments in movement activities. Pediatric Exercise Science 4:236–48. [AWB]Google Scholar
Baldissera, F., Cavallari, P. & Tesio, L. (1994) Coordination of cyclic coupled movements of hand and foot in normal subjects and on the healthy side of hemiplegic patients. In: Interlimb coordination: Neural, dynamical, and cognitive constraints, ed. Swinnen, S. P., Massion, J., Heuer, H. & Casaer, P.. Academic Press. [SPS]Google Scholar
Barrett, J. (1986) 100 Wimbledon championships. Willow Books. [RSWM]Google Scholar
Bazalgette, D., Zattara, M., Bathien, N., Bouisset, S. & Rondot, P. (1986) Postural adjustments associated with rapid voluntary arm movements in patients with Parkinson's disease. Advances in Neurology 45:371–74. [aMLL]Google Scholar
Beek, P. J. (1989) Juggling dynamics. Amsterdam: Free University Press. [KMN]Google Scholar
Belenkii, V. Y., Gurfinkel, V. S. & Paltsev, Y. I. (1967) Elements of control of voluntary movements. Biophysics 12:135–41. [aMLL]Google Scholar
Benabid, A., Pollack, P., Gervason, C., Hoffman, D., Gao, D., Hommel, M., Perret, J. & DeRougemont, J. (1991) Long-term suppression of tremor by chronic stimulation of the ventral intermediate thalamic nucleus. Lancet 337:403–6. [CJW]CrossRefGoogle ScholarPubMed
Benecke, R., Rothwell, J. C., Day, B. L., Dick, J. P.R. & Marsden, C. D. (1986) Performance of simultaneous movements in patients with Parkinson's disease. Brain 109:739–57. [AB]CrossRefGoogle ScholarPubMed
Benecke, R., Rothwell, J. C., Day, B. L. & Mardsen, C. D. (1987a) Disturbance of sequential movements in patients with Parkinson's disease. Brain 110:361–79. [AB]CrossRefGoogle ScholarPubMed
Berardelli, A., Dick, J. P. R., Rothwell, J. C., Day, B. L. & Marsden, C. D. (1986) Scaling of the size of the first agonist EMG burst during rapid wrist movements in patients with Parkinson's disease. Journal of Neurology, Neurosurgery and Psychiatry 49:1273–79. [aMLL, AB]CrossRefGoogle ScholarPubMed
Berardelli, A. & Hallett, M. (1984) Shortening reaction of human tibialis anterior. Neurology 34:242–46. [aMLL]CrossRefGoogle ScholarPubMed
Berardelli, A., Rothwell, J. C., Day, B. L. & Marsden, C. D. (1984) Movements not involved in posture are abnormal in Parkinson's disease. Neuroscience Letters 47:4750. [aMLL, AB, DMC]CrossRefGoogle Scholar
Berardelli, A., Sabra, A. F., Hallett, M., Berenberg, W. & Simon, S. R. (1983) Stretch reflexes of triceps surae in patients with upper motor neuron syndromes. Journal of Neurology, Neurosurgery, and Psychiatry 46:5460. [aMLL]CrossRefGoogle ScholarPubMed
Bernstein, N. A. (1935) The problem of interrelation between correlation and localization. Archives of Biological Sciences 38:135. [aMLL]Google Scholar
Bernstein, N. A. (1967) The co-ordination and regulation of movements. Pergamon. [rMLL]Google Scholar
Bernstein, N. A. (1990) Physiology of movements and of activity. (Classics of Science series). Moscow: Nauka (in Russian). [rMLL]Google Scholar
Bernstein, N. A. (1991) On dexterity and its development. Moscow: Physical Culture and Sport Press (in Russian). [rMLL]Google Scholar
Biryukova, E. V., Roschin, V. Y., Frolov, A. A., Ioffe, M. E., Massion, J. & Dufosse, M. (1995b) Elbow joint stiffness dynamics during learning of posture maintenance in the process of arm unloading. The Fifteenth Congress of the ISB: Abstracts, ed. Hakkinen, K., Keskinen, K. L., Komi, P. V. & Mero, A.. Jyvaskyla, Finland: Gummerus Kirjapaino. [EVB]Google Scholar
Bobath, B. (1981) Abnormal postural of preflex activity caused by brain lesions. Heinemann. [JPS]Google Scholar
Bobath, B. (1990) Adult hemiplegia. Evaluation and treatment. 3d ed.Heinemann. [MFL]Google Scholar
Bohannon, R. W. (1993) Physical rehabilitation in neurologic diseases. Current Opinion in Neurology 6:765–72. [MM]CrossRefGoogle ScholarPubMed
Bouisset, S. & Zattara, M. (1981) A sequence of postural movements precedes voluntary movements. Neuroscience Letters 22:263–70. [AB, SB]CrossRefGoogle Scholar
Bouisset, S. & Zattara, M. (1983) Anticipatory postural movements related to a voluntary movement. In: Space Physiology. Toulouse: Cepadues Editions. [aMLL, SB]Google Scholar
Bouisset, S. & Zattara, M. (1990) Segmental movement as a perturbation to balance? Facts and concepts. In: Multiple muscle systems: Biomechanics and movement organization, ed. Winters, J. M. & Woo, S. L.-Y.. Springer-Verlag. [aMLL]Google Scholar
Bouisset, S., Do, M. C. & Zattara, M. (1992) Posturo-kinetic capacity assessed in paraplegics and Parkinsonians [from the Eleventh International Symposium of the Society for Postural and Gait Research, Portland, Oregon.] In: Posture and Gait: Control mechanics, vol. 2., ed. Woollacott, M. & Horak, F.. University of Oregon Books. [SB]Google Scholar
Brion, J.-P., Demeurisse, G. & Capon, A. (1989) Evidence of cortical reorganization in hemiparetic patients. Stroke 20:1079–84. [MFL]CrossRefGoogle ScholarPubMed
Brown, J. E. & Frank, F. S. (1987) Influence of event anticipation of postural actions accompanying voluntary movement. Experimental Brain Research 67:645–50. [aMLL]CrossRefGoogle ScholarPubMed
Brown, R. G. & Marsden, C. D. (1991) Dual task performance and processing resources in normal subjects and patients with Parkinson's disease. Brain 114:215–31. [aMLL]Google ScholarPubMed
Brunnstrom, S. (1970) Movement therapy in hemiplegia: A neurophysiological approach. Harper & Row. [MFL]Google Scholar
Buchanan, T. S., Almdale, D. P. J., Lewis, J. L. & Rymer, W. Z. (1986) Characteristics of synergetic relations during isometric contractions of human elbow muscles. Journal of Neurophysiology 56:1225–41. [aMLL]CrossRefGoogle Scholar
Buchanan, T. S., Rovai, G. P. & Rymer, W. Z. (1989) Strategies for muscle activation during isometric torque generation at the human elbow, journal of Neurophysiology 39:925–35. [aMLL]Google Scholar
Buchman, A. S., Leurgans, S., Gottlieb, G. L., Chen, C.-H. & Corcos, D. M. (in preparation). The effect of aging on single joint flexion movements. [DMC]Google Scholar
Burleigh, A., Horak, F., Burchiel, K. & Nutt, J. (1993) Effects of thalamic stimulation on tremor, balance, and step initiation: A single subject study. Movement Disorders 8(4):519–24. [CJW]CrossRefGoogle ScholarPubMed
Burton, A. W. & Davis, W. E. (1992) Optimizing the involvement and performance of children with physical impairments in movement activities. Pediatric Exercise Science 4:236–48. [AWB]CrossRefGoogle Scholar
Burton, A. W., Greer, N. L. & Wiese-Bjornstal, D. M. (1993) Variations in grasping and throwing patterns as a function of ball size. Pediatric Exercise Science 5:2541. [AWB]CrossRefGoogle Scholar
Butler, P., Thompson, N. & Major, R. (1992) Improvement in walking performance of children with cerebral palsy: Preliminary results. Developmental Medicine and Child Neurology 34:567–76. [CJW]CrossRefGoogle ScholarPubMed
Capady, C. & Stein, R. B. (1986) Amplitude modulation of the soleus H-reflex in the human during walking and standing. Journal of Neurosdence 6:1308–13. [TK]Google Scholar
Capady, C. & Stein, R. B. (1987) Difference in the amplitude of the human soleus H-reflex during walking and running. Journal of Physiology 392:513–22. [TK]CrossRefGoogle Scholar
Carr, J. H. & Shepherd, R. B. (1987a) A motor relearning programme for stroke. Butterworth-Heinemann. [JHC]Google Scholar
Carr, J. H. & Shepherd, R. B. (1987b) A motor learning model for rehabilitation. In: Movement science: Foundations for physical therapy in rehabilitation, ed. Carr, J. H., Shepherd, R. B., Gordon, J., Gentile, A. A.. & Held, J. M.. Heinemann. [JHC, MM]Google Scholar
Carr, J. H. & Shepherd, R. B. (1990) A motor learning model for the rehabilitation of the movement-disabled. In: Key issues in neurological physiotherapy, ed. Ada, A. & Canning, C. G.. Butterworth-Heinemann. [JHC]Google Scholar
Chan, C. W. Y. & Kearney, R. E. (1982) Is the functional stretch reflex servo controlled or preprogrammed? Electroencephalography and Clinical Neurophysiology 53:310–24. [aMLL]CrossRefGoogle ScholarPubMed
Cody, F. W. J., MacDermott, N., Matthews, P. B. C. & Richardson, H. C. (1986) Observations on the genesis of the stretch reflex in Parkinson's disease. Brain 109:229–49. [aMLL]CrossRefGoogle ScholarPubMed
Cohen, L. G., Bandinelli, S., Findley, T. W. & Hallett, M. (1991) Motor reorganization after upper limb amputation in humans: A study with focal magnetic stimulation. Brain 114:615–27. [aMLL]CrossRefGoogle ScholarPubMed
Cole, K. J., Abbs, J. H. & Turner, G. S. (1988) Deficits in the production of grip force in Down Syndrome. Developmental Medicine and Child Neurology 30:752–58. [aMLL]CrossRefGoogle Scholar
Corcos, D. M., Gottlieb, G. L., Latash, M. L., Almeida, G. L. & Agarwal, G. C. (1992) Electromechanical delay: An experimental artifact. Journal of Electromyography and Kinesiology 2:5968. [aMLL]CrossRefGoogle Scholar
Cordo, P. J. & Nashner, L. M. (1982) Properties of postural adjustments associated with rapid arm movements. Journal of Neurophysiology 47:287302. [aMLL]CrossRefGoogle ScholarPubMed
Crenna, P. & Frigo, C. (1987) Excitability of the soleus H-reflex are during walking and stepping in man. Experimental Brain Research 66:538–48. [TK]CrossRefGoogle ScholarPubMed
Crenna, P., Frigo, C., Massion, J. & Pedotti, A. (1987) Forward and backward axial synergies in man. Experimenal Brain Research 65:538–48. [aMLL]Google ScholarPubMed
Curra, A., Modugno, N., Agostino, R., Manfredi, G. W., Accornero, N. & Manfredi, M. (1995) Sequential arm movements in normal subjects and patients with Parkinson's disease: The role of advance information. Journal of Neurology (Suppl. 2) 242(6):878. [AB]Google Scholar
Czerniecki, J. M., Gitter, A. & Munro, C. (1991) Joint moment and muscle power output characteristics of below knee amputees during running: The influence of energy storing prosthetic feet. Journal of Biomechanics 24:6375. [aMLL]CrossRefGoogle ScholarPubMed
Davis, W. E. & Burton, A. W. (1991) Ecological task analysis: Translating movement behavior theory into practice. Adapted Physical Activity Quarterly 8:154–77. [[AWB]CrossRefGoogle Scholar
Davis, W. E. & Van Emmerik, R. E. A. (1995) An ecological task analysis approach for understanding motor development in mental retardation: Research questions and strategies. In: Physical and motor development in persons with mental retardation, ed. Vermeer, A. & Davis, W. E.. Karger. [REAVE]Google Scholar
DeGuzman, G. C. & Kelso, J. A. S. (1991) Multifrequency behavioral patterns and the phase attractive circle map. Biological Cybernetics 64:485–95. [PJT]CrossRefGoogle ScholarPubMed
Dick, J. P. R., Rothwell, J. C., Berardelli, A., Thompson, P. D., Gioux, M., Benecke, R., Day, B. L. & Marsden, C. D. (1986) Associated postural adjustments in Parkinson's disease. Journal of Neurology, Neurosurgery and Psychiatry 49:1378–85. [aMLL]CrossRefGoogle ScholarPubMed
Diener, H. C., Diehgans, J., Gusehlbauer, B., Bacher, M. & Langenbach, P. (1989) Disturbances of motor preparation in basal ganglia and cerebellar disorders. Progress in Brain Research 80:481–88. [aMLL]CrossRefGoogle ScholarPubMed
Dietz, V. (1987) Role of peripheral afferents and spinal reflexes in normal and impaired human locomotion. Review of Neurology (Paris) 143:241–54. [JPS]Google Scholar
Draper, I. T. & Johns, R. S. (1964) The disorders of movement in Parkinsonism and the effect of drug treatment. Johns Hopkins Hospital Bulletin 115:465–80. [aMLL]Google ScholarPubMed
Dufosse, M., Hugon, M. & Massion, J. (1985) Postural forearm changes induced by predictable in time or voluntary triggered unloading in man. Experimental Brain Research 60:330–34. [aMLL]CrossRefGoogle ScholarPubMed
Elliott, D. & Weeks, D. J. (1990) Cerebral specialization and the control of oral and limb movements for individuals with Down's syndrome. Journal of Motor Behavior 22:618. [aMLL]CrossRefGoogle ScholarPubMed
Elliott, D., Weeks, D. J. & Jones, R. (1986) Lateral asymmetries in finger-tapping by adolescents and young adults widi Down's syndrome. American Journal of Mental Deficiency 90:472–75. [aMLL]Google Scholar
Epstein, C. J. (1987) Down syndrome. In: Encyclopedia of neurosdence, ed. Adelman, G.. Boston: Birkhauser. [aMLL]Google Scholar
Evarts, E. V., Teravainen, H. & Calne, D. B. (1981) Reaction time in Parkinson's disease. Brain 104:167–86. [aMLL]CrossRefGoogle ScholarPubMed
Faglie Low, J. (1995) Historical and social foundations of practice. In: Occupational therapy for physical dysfunction, ed. Trombly, C.. Williams and Wilkins. [CBW]Google Scholar
Fahn, S. (1988) Concept and classification of dystonia. In: Dystonia 2: Advances in Neurology, vol. 50, ed. Fahn, S., Marsden, C. D. & Calne, D. B.. Raven. [arMLL]Google Scholar
Fahn, S. (1990) Akinesia. In: Motor disturbances II, ed. Beradelli, A., Benecke, R., Manfredi, M. & Marsdem, C. D.Pergamon. [aMLL]Google Scholar
Feldman, A. G. (1979) Central and peripheral mechanisms of motor control. Moscow: Nauka (in Russian). [EVB]Google Scholar
Feldman, A. G. (1980) Superposition of motor programs: 1. Rhythmic forearm movements in man. Neurosdence 5:8190. [EVB]CrossRefGoogle ScholarPubMed
Feldman, A. G. (1986) Once more on the equilibrium-point hypothesis (model) for motor control. Journal of Motor Behavior 18:1754. [aMLL. rMLL]CrossRefGoogle ScholarPubMed
Fikes, T. G., Klatzky, R. L. & Lederman, S. J. (1994) Effects of object texture on precontact movement time in human prehension. Journal of Motor Behavior 26:325–32. [RLK]CrossRefGoogle ScholarPubMed
Fisk, J. D. & Goodale, M. A. (1988) The effects of unilateral brain damage on visually guided reaching: Hemispheric differences in the nature of the deficit. Experimental Brain Research 72:425–35. [MFL]CrossRefGoogle Scholar
Fitts, P. M. (1954) The information capacity of the human motor system in controlling the amplitude of movements. Journal of Experimental Psychology 47:381391. [aMLL]CrossRefGoogle Scholar
Flanagan, J. R., Feldman, A. G. & Ostry, D. J. (1993) Control of trajectory modifications in target-directed reaching. Journal of Motor Behavior 25:140–52. [rMLL]CrossRefGoogle ScholarPubMed
Flanders, M. & Soeehting, J. F. (1990) Arm muscle activation for static forces in three-dimensional space. Journal of Neurophysiology 64:1818–37. [aMLL]CrossRefGoogle ScholarPubMed
Flash, T. (1987) The control of hand equilibrium trajectories in multi-joint arm movements. Biological Cybernetics 57:257–74. [aMLL]CrossRefGoogle ScholarPubMed
Flash, T. & Hogan, N. (1985) The coordination of arm movements: An experimentally confirmed mathematical model. Journal of Neuroscience 5:16881703. [arMLL]CrossRefGoogle ScholarPubMed
Forssberg, H. (1985) Ontogeny of human loeomotor control: I. Infant stepping, supported locomotion, and transition to independent locomotion. Experimental Brain Besearch 57:480–93. [ET]Google ScholarPubMed
Forssberg, H., Johnels, B. & Steg, G. (1984) Is Parkinsonian gait caused by a regression to an immature walking pattern? Advances in Neurology 40:375–79. [ET]Google Scholar
Franck, J. I. (1980) Functional reorganization of cat somatic sensory-motor cortex (SmI) after selective dorsal root rhisotomies. Brain Research 186:458–62. [aMLL]CrossRefGoogle Scholar
Frith, U. & Frith, C. D. (1974) Specific motor disabilities in Down's syndrome. Journal of Child Psychology and Psychiatry 15:293301. [aMLL]CrossRefGoogle ScholarPubMed
Fuchs, S., Roby-Brami, A., Mokhtari, M. & Bussel, B., (1994) 3D method of recording reaching movements in normal and hemiplegic humans. European Journal of Neuroscience Supl. 7:14. [EVB]Google Scholar
Fuhr, P., Cohen, L. G., Dang, N., Findley, T. W., Haghighi, S., Oro, J. & Hallett, M. (1992) Physiological analysis of motor reorganization following lower limb amputation. Electroencephalography and Clinical Neurophysiology 85:5360. [aMLL]CrossRefGoogle ScholarPubMed
Fukson, O. I., Berkinblit, M. B. & Feldman, A. G. (1980) The spinal frog takes into account the scheme of its body during the wiping reflex. Science 209:1261–63. [aMLL]CrossRefGoogle ScholarPubMed
Geurts, A. & Mulder, T. (1992) Reorganization of postural control following lower limb amputation: Theoretical considerations and implications for rehabilitation. Physiotherapy Theory and Practice 8:145–57. [ASA]CrossRefGoogle Scholar
Geurts, A. C. H. & Mulder, T. W. (1994) Attention demands in balance recovery following lower limb amputation. Journal of Motor Behavior 26:162–70. [JJS]CrossRefGoogle ScholarPubMed
Ghez, C., Gordon, J. & Hening, W. (1988) Trajectory control in dystonia. In: Dystonia 2: Advances in neurology, vol. 50, ed. Fahn, S., Marsden, C. D. & Calne, D. B.. Raven. [aMLL]Google Scholar
Gielen, C. C. A. M. & van Ingen Schenau, G. J. (1992) The constrained control of force and position by multi-link manipulators. IEEE Transactions on Systems, Man and Cybernetics 22:1214–19. [CCAMG]CrossRefGoogle Scholar
Gielen, S., van Ingen Schenau, G. J., Tax, T. & Theeuwen, M. (1990) The activation of mono- and bi-articular muscles in multi-joint movements. In: Multiple muscle systems. Biomechanics and movement organization, ed. Winters, J. M. & Woo, S. L.-Y.. Springer-Verlag. [aMLL]Google Scholar
Glass, L. & Mackey, M. C. (1988) From clocks to chaos: The rhythms of life. Princeton University Press. [PJT, REAVE]Google Scholar
Glendinning, D. S. & Enoka, R. M. (1994) Motor unit behavior in Parkinson's disease. Physical Therapy 74:6170. [aMLL]CrossRefGoogle ScholarPubMed
Glickstein, M. & Stein, J. (1991) Paradoxical movements in Parkinson's disease. Trends in Neuroscience 14:480. [AB]CrossRefGoogle ScholarPubMed
Gordon, J. (1987) Assumptions underlying physical therapy intervention: Theoretical and historical perspectives. In: Movement science: Foundations for physical therapy in rehabilitation, ed. Carr, J. & Sheppard, R.. Aspen. [JPS]Google Scholar
Gottlieb, G. L., Corcos, D. M. & Agarwal, G. C. (1989) Strategies for the control of voluntary movements with one mechanical degree of freedom. Behavioral and Brain Sciences 12:189250. [aMLL]CrossRefGoogle Scholar
Gottlieb, G. L., Corcos, D. M., Agarwal, G. C. & Latash, M. L. (1990) Organizing principles for single joint movements: 3. The speed-insensitive strategy as default. Journal of Neurophysiology 63(3):625–36. [DMC]CrossRefGoogle ScholarPubMed
Gurd, J. M. (1993) Studies of verbal fluency deficits in patients with Parkinson's disease. Unpublished thesis, University of Oxford. [JMG]Google Scholar
Gurd, J. M. & Marshall, J. C. (1995) Mechanisms of word-retrieval: Neuropsychological investigations of patients with Parkinson's disease. In: Speech and reading: Comparative approaches, ed. de Gelder, B. & Morais, H.. Erlbaum. [JMG]Google Scholar
Gutman, S. R., Gottlieb, G. L. & Corcos, D. M. (1992) Exponential model of a reaching movement trajectory with non-linear time. Comments in Theoretical Biology 2:357–84. [aMLL]Google Scholar
Haken, H., Kelso, J. A. S. & Bunz, H. (1985) A theoretical model of phase transitions in human hand movements. Biological Cybernetics 51:347–56. [PJT]CrossRefGoogle ScholarPubMed
Hallett, M. (1993) Physiology of basal ganglia disorders: an overview. Canadian Journal of Neurological Science 20:177–83. [aMLL]CrossRefGoogle ScholarPubMed
Hallett, M. & Khoshbin, S. (1980) A physiological mechanism of bradykinesia. Brain 103:301–14. [aMLL]CrossRefGoogle ScholarPubMed
Halsband, U., Homberg, V. & Lange, H. J. (1990) Slowing of different types of voluntary movement in extrapyramidal disease: Fitts' law and idiographic writing. In: Motor disturbances 2, ed. Berardelli, A., Benecke, R., Manfredi, M. & Marsden, C. D.. Academic Press. [aMLL]Google Scholar
Hayashi, A., Kagamihara, Y., Nakajima, Y., Narabayashi, H., Okuma, Y. & Tanaka, R. (1988) Disorder in reciprocal innervation upon initiation of voluntary movement in patients with Parkinson's disease. Experimental Brain Research 70:437–40. [aMLL]CrossRefGoogle ScholarPubMed
Heilman, K. M., Bowers, D., Watson, R. T. & Greer, M. (1976) Reaction time in Parkinson disease. Archives of Neurology 33:139–40. [aMLL]CrossRefGoogle ScholarPubMed
Henderson, S. E. (1985) Motor skill development. In: Current approaches to Down syndrome, ed. Lane, D. & Stratford, B.. London: Holt. [aMLL]Google Scholar
Henderson, S. E., Morris, J. & Frith, V. (1981) The motor deficit in Down's syndrome children: A problem of timing? Journal of Child Psychology and Psychiatry 22:233–45. [aMLL]CrossRefGoogle ScholarPubMed
Henneman, E., Somjen, G. & Carpenter, D. O. (1965) Excitability and inhibitibility of motoneurones of different sizes. Journal of Neurophysiology 28:599620. [arMLL]CrossRefGoogle Scholar
Herz, E. (1944) Dystonia: 1. Historical review, analysis of dystonic symptoms and physiologic mechanisms involved. Archives of Neurology and Psychiatry (Chicago) 51:305–18. [aMLL]Google Scholar
Hoefer, P. F. A. & Putnam, T. J. (1940) Action potentials of muscles in athetosis and Syndenham chorea. Archives of Neurology and Psychiatry (Chicago) 44:417–31. [aMLL]Google Scholar
Hogan, N., (1984) An organizational principle for a class of voluntary movements. Journal of Neuroscience 4:2745–54. [aMLL]CrossRefGoogle Scholar
Holt, K. G. (1993) Toward general principles for research and rehabilitation of disabled populations. Physical Therapy Practice 2(4):118. [KGH]Google Scholar
Holt, K. G., Jeng, S. F., Ratcliffe, R. & Hamill, J. (in press) Energetic cost and stability in preferred human walking. Journal of Motor Behavior. [KGH]Google Scholar
Horak, F. B., Nashner, L. M. & Diener, H. C. (1990) Postural strategies associated with somatosensory and vestibular loss. Experimental Brain Research 82:167–77. [aMLL]CrossRefGoogle ScholarPubMed
Houk, J. C. (1976) An assessment of stretch reflex function. Progress in Brain Research 44:303–14. [aMLL]CrossRefGoogle ScholarPubMed
Houk, J. C. (1979) Regulation of stiffness by skeletomotor reflexes. Annual Review of Physiology 41:99114. [aM LL]CrossRefGoogle ScholarPubMed
Hughes, M. & McLellan, D. L. (1985) Increased co-activation of the upper limb muscles in writer's cramp. Journal of Neurology, Neurosurgery, and Psychiatry 48:782–87. [aMLL]CrossRefGoogle ScholarPubMed
Hunter, J. P., Ashby, P. & Lang, A. E. (1988) Afferents contributing to the exaggerated long latency reflex response to electrical stimulation in Parkinson's disease. Journal of Neurology, Neurosurgery, and Psychiatry 51:1405–10. [aMLL]CrossRefGoogle ScholarPubMed
Inzelberg, R., Flash, T. & Korczyn, A. D. (1990) Kinematic properties of upperlimb trajectories in Parkinson's disease and idiopathic torsion dystonia. Advances in Neurology 53:183–89. [aMLL]Google Scholar
Isacov, E., Mizrahi, J., Ring, H., Susak, Z. & Hakim, N. (1992) Standing sway and weight-bearing distribution in people with below-knee amputations. Archives of Physical Medicine and Rehabilitation 73:174–78. [ASA]Google Scholar
Isenberg, C. & Conrad, B. (1994) Kinematic properties of slow arm movements in Parkinson's disease. Journal of Neurology 241:323–30. [aMLL]CrossRefGoogle ScholarPubMed
Jeka, J. J. & Kelso, J. A. S. (1995) Manipulating symmetry in the coordination dynamics of human movement. Journal of Experimental Psychology: Human Perception and Performance 21:360–74. [PJT]Google ScholarPubMed
Jenkins, W. M. & Merzenich, M. M. (1987) Reorganization of neocortical representations after brain injury: A neurophysiological model of the bases of recovery from stroke. In: Progress in brain research, ed. Seil, F. J., Herbert, E. & Carlson, B. M.. Elsevier. [aMLL]Google Scholar
Jenkins, W. M., Merzenich, M. M. & Recanzone, G. (1990) Neocortical representation dynamics in adult primates: Implications for neuropsychology. Neuropsychologia 28:573–84. [aMLL]CrossRefGoogle ScholarPubMed
Johansson, R. S. & Westling, G. (1984) Roles of glabrous skin receptors and sensorimotor memory in automatic control of precision grip when lifting rougher or more slippery objects. Experimental Brain Research 56:550–64. [RLK]CrossRefGoogle ScholarPubMed
Johnson, M. T. V., Kipnis, A. N., Lee, M. C., Loewenson, R. B. & Ebner, T. J. (1991) Modulation of the stretch reflex during volitional sinusoidal tracking in Parkinson's disease. Brain 114:443–60. [aMLL]CrossRefGoogle ScholarPubMed
Joris, H. J. J., Edwards van Muyen, A. J., van Ingen Schenau, G. J. & Kemper, H. C. G. (1985) Force, velocity, and energy flow during the overarm throw in female handball players. Journal of Biomechanics 18:409–14. [aMLL]CrossRefGoogle ScholarPubMed
Kalaska, J. & Pomeranz, B. (1979) Chronic paw denervation causes an agedependent appearance of novel responses from forearm in “paw cortex” of kittens and adult cats. Journal of Neurophysiology 42:618–33. [aMLL]CrossRefGoogle Scholar
Kaminski, T. & Gentile, A. M. (1986) Joint control strategies and hand trajectories in multijoint pointing movements. Journal of Motors Behavior 18:261–78. [aMLL]CrossRefGoogle ScholarPubMed
Kasai, T. & Komiyama, T. (1988) The timing and the amount of agonist facilitation and antagonist inhibition of varying ankle dorsiflexion force in man. Brain Research 447:389–92. [TK]CrossRefGoogle ScholarPubMed
Kasai, T. & Komiyama, T. (1991) Antagonist inhibition during rest and precontraction. Electroencephalography and Clinical Neurophysiology 81:427–32. [TK]CrossRefGoogle ScholarPubMed
Kasai, T. & Taga, T. (1992) Effects of varying load conditions on the organization of postural adjustments during voluntary arm flexion. Journal of Motor Belwvior 24:359–65. [TK]CrossRefGoogle ScholarPubMed
Kelso, J. A. S. (1984) Phase transitions and critical behavior in human bimanual coordination. American Journal of Physiology 246:R1000R1004. [rMLL]Google ScholarPubMed
Kelso, J. A. S. (1989) Phase transitions: Foundations of behavior. In: Synergetics of cognition, ed. Haken, H.. [JPS]Google Scholar
Kelso, J. A. S. (1994) The informational character of self-organized coordination dynamics. Human Movement Science 13:393413. [PJT]CrossRefGoogle Scholar
Kelso, J. A. S. (1995) Dynamic patterns: The self-organization of brain and behavior. MIT Press. [PJT]Google Scholar
Kelso, J. A. S., Buchanan, J. J., DeGuzman, G. C. & Ding, M. (1993) Spontaneous recruitment and annihilation of degrees of freedom in biological coordination. Physics letters A179:364–71. [PJT]CrossRefGoogle Scholar
Kelso, J. A. S., DelColle, J. D. & Schöner, G. (1990) Action-perception as a pattern formation process. In: Attention and performance 13, ed. Jeannerod, M.. Erlbaum. [PJT]Google Scholar
Kelso, J. A. S., Ding, M. & Schoner, G. (1993) Dynamic pattern formation: A primer. In: A dynamic systems approach to development, ed. Smith, L. B. & Thelen, E.. MIT Press. [KMN]Google Scholar
Kelso, J. A. S. & Joka, J. J. (1992) Symmetry braking dynamics of human inultilimb coordination. Journal of Experimental Psychology: Human Perception and Performance 18:645668. [SPS]Google Scholar
Kelso, J. A. S., Scholz, J. P. & Schöner, G. (1988) Dynamics governs switching among patterns of coordination in biological movement. Physics Letters A134:812. [PJT]CrossRefGoogle Scholar
Kelso, J. A. S. & Schöner, G. (1988) Self-organization of coordinative movement patterns. Human Movement Science 7:2746. [rMLL]CrossRefGoogle Scholar
Kerr, G., Miall, R. & Stein, J. (1992) Visuo-motor adaptation during inactivation of the cerebellar nuclei: A preliminary report. Human Movement Science 12:7183. [CJW]CrossRefGoogle Scholar
Kerr, R. & Blais, C. (1985) Motor skill acquisition by individuals with Down syndrome. American Journal of Mental Deficiency 90:313–18. [aMLL]Google ScholarPubMed
Keshner, E. A. (1994) Vertebral orientation and muscle activation patterns during controlled head movements in cats. Experimental Brain Research 98:546–50. [aMLL]CrossRefGoogle Scholar
Kew, J. J. M., Ridding, M. C., Rothwell, J. C., Passingham, R. E., Leigh, P. N., Sooriakumaran, S., Frackowiak, R. S. J. & Brook, D. J. (1994) Reorganization of cortical blood flow and transcranial magnetic stimulation maps in human subjects after upper limb amputation. Journal of Neuroiphysiology 72:2517–24. [aMLL]CrossRefGoogle ScholarPubMed
Klatzky, R. L. & Lederman, S. J. (1993) Toward a computational model of constraint-driven exploration and haptic object identification. Perception 22:597621. [RLK]CrossRefGoogle Scholar
Knott M. & Voss, D. E. (1956) Proprioccptive neuromuscularfacilitation. Harper & Row. [MFL]Google Scholar
Knutsson, E. & Mrtensson, A. (1986) Posture and gait in parkinsonian patients. In: Disorders of posture and gait, ed. Bles, I. W. & Brandt, T.. Elsevier. [JK]Google Scholar
Kugler, P. N., Kelso, J. A. S. & Turvey, M. T. (1980) On the concept of coordinative structures as dissipative structures: 1. Theoretical lines of convergence. In: Tutorials in motor behavior, ed. Stehnach, G. E. & Requin, J.. North-Holland. [KMN]Google Scholar
Kugler, P. N. & Turvey, M. T. (1987) Information, natural law, and the selfasscmlily of rhythmic movement. Erlbaum. [REAVE]Google Scholar
Larkin, D. & Hoare, D. (1992) The movement approach: A window to understanding the clumsy child. In: Approaches to the Study of Motor Control and Learning, ed. Summers, J. J.. Amsterdam: North-Holland. [aMLL]Google Scholar
Lashley, K. S. (1933) Integrative functions of the cerebral cortex. Physiological Reviews, 13:142. [aMLL]CrossRefGoogle Scholar
Latash, M. L. (1992) Motor control in Down syndrome: The role of adaptation and practice. Journal of Developmental and Physical Disability 4:227–61. [aMLL]CrossRefGoogle Scholar
Latash, M. L. (1993) Control of human movement. Urbana, IL: Human Kinetics. [arMLL]Google Scholar
Latash, M. L. (1996) How does our brain make its choices? In: Dexterity and its development, ed. Latash, M. L. & Turvey, M.. Erlbaum. [rMLL]Google Scholar
Latash, M. L., Almeida, G. L. & Corcos, D. M. (1993) Pre-programmed reactions in individuals with Down syndrome: The effects of instruction and predictability of the perturbation. Archives of Physical Medicine and Rehabilitation 73:391–99. [arMLL]Google Scholar
Latash, M. L., Aruin, A. S., Neyman, I. & Nicholas, J. J. (1995) Anticipatory postural adjustments during self-inflicted and predictable perturbations in Parkinson's Disease. Journal of Neurology, Neurosurgery, and Psychiatry. 58:326–34. [ASA, DMC, aMLL]CrossRefGoogle ScholarPubMed
Latash, M. L., Aruin, A. S., Neyman, I., Nicholas, J. J. & Shapiro, M. B. (1995) Feedforward postural adjustments in a simple two-joint synergy in patients with Parkinsons disease. Electroencephalography and Clinical Neurophysiology 97:7789. [DMC]CrossRefGoogle Scholar
Latash, M. L. & Corcos, D. M. (1991) Kinematic and electromyographic characteristics of single-joint movements of individuals with Down syndrome. American Journal of Mental Retardation 96:189201. [arMLL]Google ScholarPubMed
Latash, M. L. & Gutman, S. R. (1994) Abnormal motor patterns in the framework of the equilibrium-point hypothesis: A cause for dystonic movements? Biological Cybernetics 71:8794. [arMLL, EVB]CrossRefGoogle ScholarPubMed
Latash, M. L. & Turvey, M., Eds. (1996) Dexterity and its development. Erlbaum. [rMLL]Google Scholar
Lederman, S. J. & Klatzky, R. L. (1987) Hand movements: A window into haptic object recognition. Cognitive Psychology 19:342–68. [RLK]CrossRefGoogle ScholarPubMed
Lee, R. G., Murphy, J. T. & Tatton, W. G. (1983) Long-latency myotatic reflexes in man: Mechanisms, functional significance, and changes in patients with Parkinson's disease or hemiplegia. Advances in Neurology 39:489508. [aMLL]Google ScholarPubMed
Lee, R. G. & Stein, R. B. (1981) Resetting of tremor by mechanical perturbations: A comparison of essential tremor and Parkinsonian tremor. Annals of Neurology 10:523–31. [aMLL]CrossRefGoogle ScholarPubMed
Lee, R. G. & Tatton, W. G. (1975) Motor responses to sudden limb displacements in primates with specific CNS lesions and in human patients with motor system disorders. Canadian Journal of Neurological Science 2:285–93. [aMLL]CrossRefGoogle ScholarPubMed
Lee, W. A. (1980) Anticipatory control of posture and task muscles during rapid arm flexion. Journal of Motor Behavior 12:185–96. [aMLL]CrossRefGoogle Scholar
Leonard, C. T., Hischfeld, H. & Forssberg, H. (1991) The development of independent walking in children widi cerebral palsy. Developmental Medicine and Child Neurology 33:567–77. [ET]CrossRefGoogle Scholar
Levin, M. F. & Feldman, A. G. (1994) The role of stretch reflex threshold regulation in normal and impaired motor control. Brain Research 657:2330. [MFL]CrossRefGoogle ScholarPubMed
Levin, M. F., Horowitz, M. R., Jurrius, J., Lamoth, C., Meijer, O. & Feldman, A. G. (1994) Interjoint coordination of reaching movements in spastic hemiparetic subjects. Physical Therapy 74(SuppI.5):S110. [MFL]Google Scholar
Lieber, R. L. & Bodine-Fowler, S. C. (1993). Skeletal muscle mechanics: Implications for rehabilitation. Physical Therapy 73:844–56. [aMLL]CrossRefGoogle ScholarPubMed
Lincoln, A. J., Courchesne, E., Kilman, B. A. & Galambos, R. (1985) Neuropsychological correlates of information-processing by children with Down syndrome. American Journal of Mental Deficiency 89:403–14. [aMLL]Google ScholarPubMed
Lockman, J. J. & Thelen, E. (1993) Developmental biodynamics: Brain, body, behavior connections. Child Development 64:953–59. [aMLL]CrossRefGoogle ScholarPubMed
Lockwood, R. (1987). Rehabilitation. In: Physical education and disability, ed. Lockwood, R.. The Australian Council for Health, Physical Education and Recreation. [aMLL]Google Scholar
Luria, A. R. (1963) Restoration of function after brain injury. Oxford University Press. [AMW]Google Scholar
Luria, A. R. (1973) The working brain: An introduction to neuropsychology. Basic Books. [aMLL]Google Scholar
Marsden, C. D. (1988) Investigation of dystonia. In: Dystonia 2: Advances in neurology, vol. 50, ed. Fahn, S., Marsden, C. D. & Calne, D. B.. Raven. [aMLL]Google Scholar
Marsden, C. D., Merton, R. A. & Morton, H. B. (1972) Servo action in human voluntary movement. Nature 238:140–43. [aMLL]CrossRefGoogle ScholarPubMed
Marsden, C. D., Merton, R. A., Morton, H. B., Adam, J. E. R. & Hallett, M. (1978) Automatic and voluntary responses to muscle stretch in man. Progress in Clinical Neurophysiology 4:167–77. [aMLL]Google Scholar
Marsden, C. D., Merton, R. A., Morton, H. B., Rothwell, J. C. & Traub, M. M. (1981) Reliability and efficacy of the long-latency stretch reflex in the human thumb. Journal of Physiology 316:4760. [aMLL]CrossRefGoogle ScholarPubMed
Marsden, C. D., Rothwell, J. C. & Traub, M. (1979) Long latency stretch reflex of the human thumb can be reversed if the task is changed. Journal of Physiology 293:41P42P. [aMLL]Google ScholarPubMed
Massion, J. (1992) Movement, posture and equilibrium: Interaction and coordination. Progress in Neurobiology 38:3556. [aMLL]CrossRefGoogle ScholarPubMed
Masters, R. W. W. (1992) Knowledge, nerves and know-how: The role of explicit versus implicit knowledge in the breakdown of a complex motor skill under pressure. British Journal of Psychology 83:343–58. [RSWM]CrossRefGoogle Scholar
Matthews, P. B. C., Cody, F. W. J., Richardson, H. C. & MacDermott, N. (1990) Observations on the reflex effects seen in Parkinson's disease on terminating a period of tendon vibration. Journal of Neurology, Neurosurgery, and Psychiatry 53:215–19. [aMLL]CrossRefGoogle ScholarPubMed
Mauerberg, E., Schuller, J. & Fantucci, I. (1994) Phase portrait description of walking pattern of severely mentally retarded subjects. Brazilian International Journal of Adapted Physical Education Research 1:1950. [aMLL]Google Scholar
Mawston, G. A. & Anson, J. G. (1994). Down syndrome: Attention and neuromotor reaction time [abstracts of the 11th Annual Australasian Winter Conference on Brain Research]. International Journal of Neuroscience. 74:158 [aMLL]Google Scholar
McMahon, T. A. & Bonner, J. T. (1983) On size and life. Scientific American Books. [AWB]Google Scholar
Merzenich, M. M., Nelson, R. J., Stryker, M. S., Cynader, M. S., Schoppman, A. & Zook, J. M. (1984) Somatosensory cortical map changes following digit amputation in adult monkeys. Journal of comparative Neurology 224:591605. [aMLL]CrossRefGoogle ScholarPubMed
Metzler, J. & Marks, P. S. (1979) Functional changes in eat somatic sensorymotor cortex during short-term reversible epidural blocks. Brain Research 177:379–83. [aMLL]CrossRefGoogle Scholar
Morgan, M., Phillips, J. G., Bradshaw, J. L., Mattingley, J. B., Iansek, R. & Bradshaw, J. A. (1994) Age-related motor slowness: Simply strategic? Journal of Gerontology: Medical Sciences 49:M133M139. [JEP]CrossRefGoogle ScholarPubMed
Morris, A. F., Vaughan, S. E. & Vaccaro, P. (1982) Measurements of neuromuscular tone and strength in Down's syndrome children. Journal of Mental Deficiency Research 26:4146. [aMLL]Google ScholarPubMed
Morris, M. E., Iansek, R., Matyas, T. A. & Summers, J. J. (1994) The pathogenesis of gait hypokinesia in Parkinson's disease. Brain 117:1169–81. [aMML, JJS]CrossRefGoogle ScholarPubMed
Morris, M. E., Iansek, R., Matyas, T. A. & Summers, J. J. (1995) Motor considerations for the rehabilitation of gait in Parkinsons disease. In: Motor control and sensory motor integration, ed. Glencross, D. & Piek, J.. North Holland. [JJS]Google Scholar
Morris, M. E., Iansek, R., Matyas, T. A. & Summers, J. J. (in press) Motor control of gait in Parkinson's disease [abstracts of the 12th International Australasian Winter Conference on Brain Research]. International Journal of Neuroscience. [aMLL]Google Scholar
Morris, M. E., Matyas, T. A., Bach, T. G. & Goldie, P. A. (1992) Electrogoniometric feedback: Its effect on genu recurvatum in stroke. Archives of Physical Medicine and Rehabilitation 73:1147–58. [MM]Google ScholarPubMed
Mortimer, J. A. & Webster, D. D. (1979) Evidence for a quantitative association between EMG stretch responses and Parkinsonian rigidity. Brain Research 162:169–73. [aMLL]CrossRefGoogle ScholarPubMed
Mulder, T. & Guerts, S. (1991) The assessment of motor dysfunctions: Preliminaries to a disability-oriented approach. Human Movement Science 10:565–74. [JJS]CrossRefGoogle Scholar
Muller, F. & Abbs, J. H. (1990) Precision grip in Parkinsonian patients. Advances in Neurology 53:191–95. [aMLL]Google ScholarPubMed
Nakashima, K., Rothwell, J. C., Day, B. L., Thompson, P. D., Shannon, K. & Marsden, C. D. (1989) Reciprocal inhibition between forearm muscles in patients with writer's cramp and other occupational cramps, symptomatic hemidystonia and hemiparesis due to stroke. Brain 112:681–97. [aMLL]CrossRefGoogle Scholar
Nashner, L. M., Shumway-Cook, A. & Marin, O. (1983). Stance posture control in select groups of children with cerebral palsy: Deficits in sensory organization and muscular control. Experimental Brain Research 49:393409. [JPS]CrossRefGoogle Scholar
Nativ, J. & Abbs, J. H. (1989) Goal-directed arm movements in Down syndrome. In: Motor control in Down syndrome, ed. Latash, M. L.. Chicago: Rush Medical Center. [aMLL]Google Scholar
Nelson, W. (1983) Physical principles for economies of skilled movements. Biological Cybernetics 46:135–47. [arMLL]CrossRefGoogle ScholarPubMed
Newell, K. M. & Corcos, D. M., Eds. (1993) Variability in motor control. Human Kinetics. [arMLL]Google Scholar
Newell, K. M., Van Emmerik, R. E. A. & McDonald, P. V. (1989) Biomechanical constraints and action theory. Human Movement Science 8:403409. [aMLL]CrossRefGoogle Scholar
Nichols, T. R. (1989) The organization of heterogenic reflexes among muscles crossing the ankle joint in the decerebrate cat. Journal of Physiology 410:463–77. [aMLL, CCAMG]CrossRefGoogle ScholarPubMed
O'Brien, C. & Hayes, A. (1995) Normal and impaired motor development: Theory into practice. Chapman and Hall. [CJW]Google Scholar
Oliveira, R. M. (1994) The amplitude of movements in patients with Parkinson's disease. Unpublished thesis. University of Oxford. [JMG]Google Scholar
Oppenheim, R. W. (1981) Ontogenetic adaptations and retrogressive processes in the development of the nervous system and behavior. In: Maturation and behavior development, ed. Connolly, K. & Prechtl, H.. Spastics Society Publications.Google Scholar
Pascual-Leone, A., Grafman, J. & Hallett, M. (1994) Modulation of cortical motor output maps during development of implicit and explicit knowledge. Science 263:1287–89. [aMLL]CrossRefGoogle ScholarPubMed
Penn, R. D. & Kroin, J. S. (1987) Long-term intrathecal baclofen infusion for treatment of spasticity. Journal of Neurosurgery 66:181–85. [rMLL]CrossRefGoogle ScholarPubMed
Penn, R. D., Savoy, S. M., Corcos, D., Latash, M., Gottlieb, G., Parke, B. & Kroin, J. (1989) Intrathecal baclofen for severe spinal spasticity. New England Journal of Medicine 320:1517–21. [rMLL]CrossRefGoogle ScholarPubMed
Peters, M. (1994) Does handedness play a role in the coordination of bimanual movement? In: Interlimb coordination: Neural, dynamical, and cognitive constraints, ed. Swinnen, S., Heuer, H., Massion, J. & Casaer, P.. Academic Press. [PJT]Google Scholar
Phillips, J. G., Martin, K. E., Bradshaw, J. L. & Iansek, R. (1994) Could bradykinesia in Parkinson's disease simply be compensation? Journal of Neurology 241:439–47. [AB, JEP]CrossRefGoogle ScholarPubMed
Popper, K. R. & Eccles, J. C. (1983) The self and its brain. Routledge & Kegan Paul. [rMLL]Google Scholar
Pozzo, T., Berthoz, A. & Lefort, L. (1990) Head stabilization during various locomotor tasks in humans: 1. Normal subjects. Experimental Brain Research 82:97106. [aMLL]CrossRefGoogle Scholar
Rarick, G. L., Dobbins, D. A. & Broadhead, G. G. (1976) The motor domain and its correlates in educated handicapped children. Prentice Hall. [aMLL]Google Scholar
Recanzone, G. H., Allard, T. T., Jenkins, W. M. & Merzenich, M. M. (1990) Receptive-field changes induced by peripheral nerve stimulation in SI of adult cats. Journal of Neurophysiology 63:1213–25. [aMLL]CrossRefGoogle Scholar
Recanzone, G. H., Merzenich, M. M., Jenkins, W. M., Grajski, K. A. & Dinse, H. R. (1992) Topographic reorganization of the hand representation in cortical area 3b of owl monkeys trained in a frequency-discrimination task. journal of Neurophysiology 67:1031–56. [aMLL]CrossRefGoogle Scholar
Riddoch, G. (1935) Visual disorientation in homonymous half-fields. Brain 58:376–82. [MFL]CrossRefGoogle Scholar
Robbins, T. (1991) Cognitive deficits in schizophrenia and Parkinson's disease: Neural basis and the role of dopamine. In: The mesolimbic dopamine system: From motivation to action, ed. Willner, P. & Scheel-Kruger, J.. Wiley. [JMG]Google Scholar
Rodosky, M. W., Andriacchi, T. P. & Andersson, G. B. J. (1989) The influence of chair height on lower limb mechanics during rising. Journal of Orthopaedic Research 7:266–71. [JHC]CrossRefGoogle ScholarPubMed
Rood, M. (1962) The use of sensory receptors to activate, facilitate and inhibit motor response, automatic and somatic in developmental sequence. In: Approaches to the treatment of patients with neuromuscular dysfunction, ed. Sattely, C.. Brown, William C.. [MFL]Google Scholar
Rosen, A. J., Lockhart, J. J., Gants, E. S. & Westergaard, C. K. (1993). Maintenance of grip-induced muscle tension: A behavioral marker of schizophrenia. Journal of Abnormal Psychology 100:583–93. [aMLL]CrossRefGoogle Scholar
Rosenbaum, D. A. (1991) Human motor control. Academic Press. [aMLL]Google Scholar
Rothwell, J. C., Day, B. L., Berardelli, A. & Marsden, C. D. (1986) Habitation and conditioning of the human long latency stretch reflex. Experimental Brain Research 63:197204. [aMLL]CrossRefGoogle Scholar
Rothwell, J. C., Obeso, J. A., Traub, M. M. & Marsden, C. D. (1983) The behavior of the long-latency stretch reflex in patients with Parkinson's disease. Journal of Neurology Neurosurgery and Psychiatry 46:3544. [aMLL]CrossRefGoogle ScholarPubMed
Sanes, J. N. (1985) Information processing deficits in Parkinson's disease during movement. Neuropsychology 23:381–92. [aMLL]CrossRefGoogle Scholar
Satinoff, E., Kent, S. & Hurd, M. (1991) Phenotolamine and thermoregulation in rats. Pharmacology, Biochemistry, and Behavior 40(4):709–16. [MGW]Google Scholar
Schieppati, M. & Nardone, A. (1991) Free and supported stance in Parkinson's disease: The effect of posture and “postural set” on leg muscle responses to perturbation, and its relation to the severity of the disease. Brain 114:1227–44. [aMLL]CrossRefGoogle Scholar
Schmidt, R. A. (1988) Motor control and teaming: A behavioral analysis. Human Kinetics. [JPS]Google Scholar
Scholz, J. P. (1991) Dynamic pattern theory: Some implications for therapeutics. Physical Therapy 70:827–43. [KMN, JPS]CrossRefGoogle Scholar
Schöner, G. (1990) A dynamic theory of coordination of discrete movement. Biological Cybernetics 63:257–70. [rMLL]CrossRefGoogle ScholarPubMed
Schöner, G., Jiang, W. Y. & Kelso, J. A. S. (1990) A synergetic theory of quadrupedal gaits and gait transitions. Journal of Theoretical Biology 142:359–93. [PJT]CrossRefGoogle ScholarPubMed
Schöner, G. & Kelso, J. A. S. (1988a) A synergetic theory of environmentallyspecified and learned patterns of movement coordination: 1. Relative phase dynamics. Biological Cybernetics 58:7180. [PJT]CrossRefGoogle Scholar
Schöner, G. & Kelso, J. A. S. (1988b) Dynamic pattern generation in behavioral and neural systems. Science 239:1513–20. [REAVE, rMLL]CrossRefGoogle ScholarPubMed
Schöner, C., Zanone, P. C. & Kelso, J. A. S. (1992) Learning as a change of coordination dynamics: Theory and experiment. Journal of Motor Behavior 24:2948. [JPS, PJT]CrossRefGoogle ScholarPubMed
Seif-Naraghi, A. H. & Winters, J. M. (1990) Optimized strategies for scaling goal-directed dynamic limb movements. In: Multiple muscle systems. Biomechanics and movement organization, ed. Winters, J. M. & Woo, S. L.-Y.. Springer-Verlag. [aMLL]Google Scholar
Shadmehr, R., Mussa-Ivaldi, F. A. & Bizzi, E. (1993) Postural force fields and their role in generation of multi-joint movements. Journal of Neuroscience 13:4562. [rMLL]CrossRefGoogle Scholar
Shapiro, B. L. (1983) Downs syndrome: A disruption of homestasis. American Journal of Medical Genetics 14:241–69. [MCW]CrossRefGoogle Scholar
Shepherd, R. (1984) Physiotherapy in paediatrics, 2d ed.Heinemann. [aMLL]Google Scholar
Shepherd, R. (1995) Physiotherapy in paediatrics, 2d ed.Butterworth-Heinemann. [JHC]Google Scholar
Shepherd, R. B. & Carr, J. H. (1991) An emergent or dynamical systems view of movement dysfunction. Australian Journal of Physiotherapy 37(4):517. [JHC]Google Scholar
Sheridan, M. R. (1985). Individual differences in voluntary movement. In: Individual differences in movement, ed. Kirklady, B. D.. MTP Press. [aMLL]Google Scholar
Sheridan, M. R. & Flowers, K. A. (1990) Movement variability and bradykinesia in Parkinson's disease. Brain 113:1149–61. [aMLL]CrossRefGoogle ScholarPubMed
Sheridan, M. R., Flowers, K. A. & Hurrell, J. (1987) Programming and execution of movement in Parkinson's disease. Brain 110:1247–71. [AB, aMLL]CrossRefGoogle ScholarPubMed
Shumway-Cook, A. & Horak, F. B. (1989) Vestibular rehabilitation: An exercise approach to managing symptoms of vestibular dysfunction. Seminars in Hearing 10:196208. [aMLL]Google Scholar
Shumway-Cook, A. & Woollacott, M. H. (1985) Dynamics of postural control in the child with Down Syndrome. Physical Therapy 65:1315–22. [aMLL]CrossRefGoogle Scholar
Sparrow, W. A. & Irizarry-Lopez, (1987) Mechanical efficiency and metabolic cost as measure of learning a novel gross motor task. Journal of Motor Behavior 19(2):240–64. [MGW]CrossRefGoogle Scholar
Statham, L. & Murray, M. P. (1971) Early walking patterns of normal children. Clinical Orthopaedics 79:824. [ET]CrossRefGoogle ScholarPubMed
Stein, J. & Clickstein, M. (1992) Role of the cerebellum in visual guidance of movement. Physiological Reviews 72(4):9671017. [CJW]CrossRefGoogle Scholar
Stein, P. S. G. (1978) Motor systems, with specific reference to the control of locomotion. Annual Review of Neurosdence 1:6181. [TK]CrossRefGoogle ScholarPubMed
Stein, R. B., Yang, J. F., Belanger, M. & Pearson, K. G. (1993). Modification of reflexes in normal and abnormal movements. Progress in Brain Research 97:189–96. [aMLL]CrossRefGoogle ScholarPubMed
Stelmach, G. E. & Worringham, C. J. (1988) The preparation and production of isometric force in Parkinson's disease. Neuropsychology 26:93103. [aMLL]CrossRefGoogle ScholarPubMed
Stelmach, G. E., Worringham, C. J. & Strand, E. A. (1986) Movement preparation in Parkinson s disease: The use of advance information. Brain 109:1179–94. [aMLL]CrossRefGoogle ScholarPubMed
Sugden, D. A. & Keogh, J. F. (1990) Problems in movement skill development. University of South Carolina Press. [aMLL]Google Scholar
Swinnen, S. P., Dounskaia, N., Verschueren, S., Semen, D. J. & Daelman, A. (1995) Relative phase destabilization during interlimb coordination: The disruptive role of kinesthetic afferences induced by passive movement. Experimental Brain Research. 105:439–54. [SPS]Google ScholarPubMed
Swinnen, S. P., Massion, J., Heuer, H. & Casaer, P. (Eds.) (1994). Interlimb coonlination: Neural, dynamical, and cognitive constraints. Academic Press. [aMLL]Google Scholar
Swinnen, S. P., Verschueren, S. M. P. & Dom, R. (1995). Bimanual coordination in parkinsonian patients during the production of drawing movement. Paper presented at the Fifth Neural Control of Movement Meeting, Key West, Florida. [SPS]Google Scholar
Swinnen, S. P., Walter, C. B., Lee, T. D. & Serrin, D. J. (1993). Acquiring bimanual skills: Contrasting forms of information feedback for interlimb decoupling. Journal of Experimental Psychology: Learning, Memory, & Cognition 19:1328–44. [SPS]Google ScholarPubMed
Tanaka, R. (1974) Reciprocal la inhibition during voluntary movements in man. Experimental Brain Research 21:529–40. [TK]CrossRefGoogle Scholar
Tatton, W. G. & Lee, R. G. (1975) Evidence for abnormal long-loop reflexes in rigid Parkinsonian patients. Brain Research 100:671–76. [aMLL]CrossRefGoogle ScholarPubMed
Taub, E. (1980) Somatosensory deafferentation research with monkeys: Implications for rehabilitation medicine. In: Behavioral psychology in rehabilitation medicine, ed. Ince, L. P.. Williams and Wilkins. [JHC]Google Scholar
Taub, E., Miller, N. E., Novack, T. A., Cook, E. W., Fleming, W. C., Nepomuceno, C. S., Connell, J. S. & Crago, J. E. (1993) Technique to improve chronic motor deficit after stroke. Archives of Physical Medicine Rchaliilittition 74:347–54. [EVB]Google ScholarPubMed
Tax, A. A. M., Denier van der Con, J. J. & Erkelens, C. J. (1990) Differences in coordination of elbow flexor muscles in force tasks and in movement tasks. Experimental Brain Research 81:567–72. [aMLL, CCAMG]CrossRefGoogle ScholarPubMed
Theeuwen, M., Gielen, C. C. A. M. & Miller, L. E. (1994) The relative activation of muscles during isometric contractions and low-velocity movements against a load. Experimental Brain Research 101:493505. [CCAMG]CrossRefGoogle ScholarPubMed
Thelen, E. (1989) Evolving and dissolving synergies in the development of leg coordination. In: Perspectives on the coordination of movement, ed. Wallace, S.. North-Holland. [CBW]Google Scholar
Thelen, E., Bril, G. & Breniere, Y. (1992). The emergence of heel strike in newly walking infants: A dynamic interpretation. In: Posture and gait control mechanisms, ed. Woollacott, M. & Horak, F.. University of Oregon Books. [ET]Google Scholar
Thelen, E. & Fogel, A. (1989) Toward an action-based theory of infant development. In: Action in social context: Perspectives on early development, ed. Lockman, J. J. & Hazen, N. L.. Plenum. [aMLL]Google Scholar
Thelen, E., Zemicke, R., Schneider, K., Jensen, J., Kamm, K. & Corbetta, D. (1992) The role of intersegmental dynamics in infant neuromotor development. In: Tutorials in motor behavior II, ed. Stelmach, G. E. & Requin, J.. Elsevier. [aMLL]Google Scholar
Traub, M. M., Rothwell, J. C. & Marsden, C. D. (1980) Anticipatory postural reflexes in Parkinson's disease and other akinetic-rigid syndromes and in cerebellar ataxia. Brain 103:393412. [aMLL]CrossRefGoogle ScholarPubMed
Treffner, P. J. & Turvey, M. T. (1993) Resonance constraints on rhythmic movement. Journal of Experimental Psychology: Human Perception and Performance 19:1221–37. [PJT]Google Scholar
Treffner, P. J. & Turvey, M. T. (1995) Handedness and the asymmetric dynamics of bimanual rhythmic coordination. Journal of Experimental Psychology 21:318–33. [PJT]Google Scholar
Treffner, P. J. & Turvey, M. T. (in press) Symmetry, broken symmetry, and handedness in bimanual coordination dynamics. Experimental Brain Research. [PJT]Google Scholar
Turvey, M. T. (1990) Coordination. American Psychologist 45:3853. [arMLL, KMN]CrossRefGoogle ScholarPubMed
Van Emmerik, R. E. A. & Wagenaar, R. C. (in press) Effects of walking velocity on relative phase dynamics in the trunk in human walking. Journal of Biomechanics. [REAVE]Google Scholar
van Ingen Schenau, G. J. (1989) From rotation to translation: Constraints on multi-joint movements and the unique action of bi-articular muscles. Human Movement Science 8:301–37. [aMLL]CrossRefGoogle Scholar
van Zuylen, E. J., Gielen, C. C. A. M. & Denier van der Con, J. J. (1988) Coordination and inhomogenous activation of human arm muscles during isometric torques. Journal of Neurophysiology 60:1523–148. [aMLL]CrossRefGoogle Scholar
Verschueren, S. M. P., Swinnen, S. P. & Dom, R. (in press) Interlimb coordination in patients with Parkinson's disease: Learning capabilities and the importance of augmented visual information. In: Studies in perception and action 3 posters presented at the Eighth International Conference on Event Perception and Action, ed. Bardy, B. G., Bootsma, R. J. & Guiard, Y.. Erlbaum. [SPS]Google Scholar
Viallet, F., Massion, J., Massarino, R. & Khalil, R. (1987) Performance of a bimanual load-lifting task by Parkinsonian patients. Journal of Neurology, Neurosurgery, and Psychiatry 50:1274–83. [aMLL]CrossRefGoogle ScholarPubMed
Wade, M. G. (1973) Biorhythms and activity level of institutionalized mentally retarded persons diagnosed hyperactive. American Journal of Mental Deficiency 78:262–67. [MGW]Google ScholarPubMed
Wade, M. G. (1990) Impact of optical flow on postural control in normal and mentally handicapped persons. In: Medicine and sports science: Motor development adapted physical activity and mental retardation, ed. Vermeer, A.. Karger. [MGW]Google Scholar
Wagenaar, R. C. & Beek, W. J. (1992) Hemiplegic gait: A kinematic analysis using walking speed as a basis. Journal of Biomechanics 25:1007–15. [REAVE]CrossRefGoogle ScholarPubMed
Wagenaar, R. C. & van Emmerik, R. E. A. (1994) Dynamics of pathological gait. Human Movement Science 13:441–72. [KMN]CrossRefGoogle Scholar
Wagenaar, R. C. & van Emmerik, R. E. A. (1995) Releaming dynamics after stroke. In: Movement disorders, ed. van der Kamp, J., van Zandwijk, J. P., Dallmeijer, A. J., Vaal, J. & Enschede, C. Leemrijse., Netherlands: Copy 2000. [RSWM]Google Scholar
Walter, C. B. & Swinnen, S. P. (1992) Adaptive tuning of interlimb attraction to facilitate bimanual decoupling. Journal of Motor Behavior 24:95104. [CBW]CrossRefGoogle ScholarPubMed
Walter, C. B. & Swinnen, S. P. (1994) The formation and dissolution of “bad habits” during the acquisition of coordination skills. In: Interlimb coordination. Neural, dynamical, and cognitive constraints, ed. Swinnen, S., Heuer, H., Massion, J. & Casaer, P.. Academic Press. [SPS, CBW]Google Scholar
Wann, J. P. & Tumbull, J. D. (1993) Motor skill learning in cerebral palsy: Movement, action and computer-enhanced therapy. In: Baillierc's clinical neurology: vol 2. Rehabilitation of motor disorders, ed. Ward, C. E.. [EVB]Google Scholar
Ward, C. D. & Gibb, W. R. (1990) Research diagnostic criteria for Parkinson's disease. In: Advances in neurology: Parkinson's disease: Anatomy, pathology and therapy, ed. Streifier, M. B., Korczyn, A. D., Melamed, E. & Youdim, M. B.. Raven. [JMG]Google Scholar
Webster, D. D. (1968) Critical analysis of the disability in Parkinson's disease. Modem Treatment 5:257–82. [JMG]Google ScholarPubMed
Weiller, C., Ramsay, S. C., Wise, R. J. S., Friston, K. J. & Frackowiak, R. S. J. (1993) Individual patterns of functional reorganization in the human cerebral cortex after capsular infarction. Annals of Neurology 33:181–89. [MFL]CrossRefGoogle ScholarPubMed
Whiting, H. T. A. (1984) Human motor actions: Bernstein reassessed. Elsevier. [aMLL]Google Scholar
Wierzbicka, M., Wiegner, A. W., Logigian, E. L. & Young, R. R. (1991) Abnormal most-rapid isometric contractions in patients with Parkinson's disease. Journal of Neurology, Neurosurgery, and Psychiatry 54:210–16. [aMLL]CrossRefGoogle ScholarPubMed
Wing, A. M. (1988) A comparison of the rate of pinch grip force increases and decreases in Parkinsonian bradykinesia. Neuropsychology 26:479–82. [aMLL]CrossRefGoogle ScholarPubMed
Wing, A. M., Allison, S. & Jenner, J. R. (1994) Retaining and retraining balance after stroke. In: Rehabilitation of motor disorder, ed. Ward, C., Bailliere-Tindall, C..Google Scholar
Winter, D., Ruder, C. K. & MacKinnon, C. D. (1990) Control of balance of upper body during gait. In: In: Multiple muscle systems. Biomechanics and movement organization, ed. Winters, J. M. & Woo, S. L.-Y.. Springer-Verlag. [aMLL]CrossRefGoogle Scholar
Winters, J. M. & Woo, S. L.-Y. (Eds.) (1990) Multiple muscle systems. Biomechanics and movement organization. Springer-Verlag. [aMLL]CrossRefGoogle Scholar
Wolf, S., LeCraw, D., Barton, L. & Jann, B. (1989) Forced use of hemiplegic upper extremities to reverse the effect of learned nonuse among chronic stroke and head-injured patients. Experimental Neurology 104:125–32. [CJW]CrossRefGoogle ScholarPubMed
Wolpaw, J. R. (1983) Adaptive plasticity in the primate spinal stretch reflex: Reversal and redevelopment. Brain Research 278:299304. [aMLL]CrossRefGoogle Scholar
Wolpaw, J. R., Braitman, D. J. & Seegal, R. F. (1983) Adaptive plasticity in primate spinal stretch reflex: Initial development. Journal of Neurophysiology 50:12961311. [aMLL]CrossRefGoogle ScholarPubMed
Worringham, C., Cross, C. & Smiley-Oyen, A. (1990) Motor learning in Parkinson's disease: Schema formation, adaptation to altered gain and limb kinematics. Society for Neuroscience Abstracts 16:1315. [CJW]Google Scholar
Worringham, C. & Stelmach, G. (1990) Practice effects on the preprogramming of discrete movements in Parkinson's disease. Journal of Neurology, Neumsurgery and Psychiatry 53:702–4. [CJW]CrossRefGoogle ScholarPubMed
Zajac, F. E. & Gordon, M. E. (1989) Determining muscles force and action in multi-articular movements. Exercise and Sport Science Reviews 17:187230. [aMLL, CCAMG]Google Scholar
Zanone, P. G. & Kelso, J. A. S. (1992) Evolution of behavioral attractors with learning: nonequilibrium phase transitions. Journal of Experimental Psychology: Human Perception and Performance 18:403–21. [SPS]Google ScholarPubMed

Full text views

Full text views reflects PDF downloads, PDFs sent to Google Drive, Dropbox and Kindle and HTML full text views.

Total number of HTML views: 0
Total number of PDF views: 10 *
View data table for this chart

* Views captured on Cambridge Core between September 2016 - 26th February 2021. This data will be updated every 24 hours.