소장자료

Sensorimotor Control of Movement and Posture [electronic resource]

  • Gandevia, Simon C. editor. , Proske, Uwe. editor. , Stuart, Douglas G. editor.
  • 2002
Sensorimotor Control of Movement and Posture [electronic resource]
  • 자료유형
    단행본
  • 서명/저자사항
    Sensorimotor Control of Movement and Posture[electronic resource] / edited by Simon C. Gandevia, Uwe Proske, Douglas G. Stuart.
  • 개인저자
    Gandevia, Simon C., editor., Proske, Uwe., editor., Stuart, Douglas G., editor.
  • 단체저자
    SpringerLink (Online service)
  • 형태사항
    XXIII, 518 p. : online resource.
  • 총서명
    Advances in Experimental Medicine and Biology,0065-2598 ; 508
  • 내용주기
    Section I: Impulse Initiation and Central Transmission from Muscle and Skin -- 1. Signalling Properties of Muscle Spindles and Tendon Organs -- 2. Evidence for Activity-Dependent Modulation of Sensory-Terminal Excitability in Spindles by Glutamate Release from Synaptic-Like Vesicles -- 3. Electrophysiology of Corneal Cold Receptor Nerve Terminals -- 4. Discharge Properties of Group III and IV Muscle Afferents -- 5. Effects of Activity on Axonal Excitability: Implications for Motor Control Studies -- 6. Reflexes in the Hand: Strong Synaptic Coupling Between Single Tactile Afferents and Spinal Motoneurones -- 7. The Synaptic Linkage for Tactile and Kinaesthetic Inputs to the Dorsal Column Nuclei -- Section II: Proprioception in Limb Movements -- 8. Proprioception: Peripheral Inputs and Perceptual Interactions -- 9. Adaptation to Coriolis Force Perturbation of Movement Trajectory: Role of Proprioceptive and Cutaneous Somatosensory Feedback -- 10. Velocity Perception and Proprioception -- 11. The Effect of Muscle Contraction on Kinaesthesia -- 12. Proprioception and Joint Pathology -- Section III: Afferent Contributions to Balance and Posture -- 13. Consequences and Assessment of Human Vestibular Failure: Implications for Postural Control -- 14. The Role of Cutaneous Receptors in the Foot -- 15. What does Galvanic Vestibular Stimulation Stimulate? -- 16. Sensory Interactions for Human Balance Control Revealed by Galvanic Vestibular Stimulation -- 17. Vestibulospinal Control of Posture -- 18. Sensory Contributions to the Control of Stance: A Posture Control Model -- Section IV: Motoneurones and Motor Units -- 19. Selectivity of the Central Control of Sensory Information in the Mammalian Spinal Cord -- 20. Some Unresolved Issues in Motor Unit Research -- 21. Presynaptic and Disynaptic Inhibition Induced by Group I Muscle Afferents -- 22. Things We Know and Do Not Know about Motoneurones -- 23. A New Way of Using Modelling to Estimate the Size of a Motoneuron?셲 EPSP -- 24. What Can Be Learned about Motoneurone Properties from Studying Firing Patterns? -- 25. Relative Strengths and Distributions of Different Sources of Synaptic Input to the Motoneurone Pool: Implications for Motor Unit Recruitment -- 26. Plateau Potentials and Their Role in Regulating Motoneuronal Firing -- 27. Mechanisms Causing Plateau Potentials in Spinal Motoneurones -- 28. Recent Evidence for Plateau Potentials in Human Motoneurones -- 29. Patterns of Pathological Firing in Human Motor Units -- Section V: Propriospinal Neurones and Spinal Reflexes -- 30. Reflections on Spinal Reflexes -- 31. Spinal Intemeurones: Re-evaluation and Controversy -- 32. Functional Properties of Primate Spinal Intemeurones during Voluntary Hand Movements -- 33. A Cervical Propriospinal System in Man -- 34. Premotoneuronal and Direct Corticomotoneuronal Control in the Cat and Macaque Monkey -- 35. Interspecies Comparisons for the C3-C4 Propriospinal System: Unresolved Issues -- 36. Central Nervous System Lesions and Segmental Activity -- 37. Reflex Mechanisms for Motor Impairment in Spinal Cord Injury -- Section VI: Locomotion -- 38. Give Proprioceptors a Chance -- 39. Role of the Fusimotor System in Locomotion -- 40. The Role of Proprioceptive Feedback in the Regulation and Adaptation of Locomotor Activity -- 41. Sensory Control of Locomotion: Reflexes versus Higher-Level Control -- 42. Reflex Excitation of Muscles during Human Walking -- 43. H Reflexes Recorded during Locomotion -- Section VII: Supraspinal Control of Movement -- 44. fMRI Studies of the Sensory and Motor Areas Involved in Movement -- 45. Dynamic Use of Tactile Afferent Signals in Control of Dexterous Manipulation -- 46. Motor Cortex and the Distributed Anatomy of Finger Movements -- 47. Reward-Based Planning of Motor Selection in the Rostral Cingulate Motor Area -- 48. Functional Differences in Corticospinal Projections from Macaque Primary Motor Cortex and Supplementary Motor Area -- 49. Corticospinal Transmission After Voluntary Contractions -- 50. Afferent and Cortical Control of Human Masticatory Muscles -- 51. Mechanisms for Acute Changes in Sensory Maps -- 52. Vision as Motivation: Interhemispheric Oscillation Alters Perception -- Section VIII: Mechanics and Movement -- 53. Musculoskeletal Mechanics: A Foundation of Motor Physiology -- 54. The Importance of Biomechanics -- 55. The Role of the Length-Tension Curve in the Control of Movement -- 56. Intramuscular Force Transmission -- 57. Muscle and Tendon Relations in Humans: Power Enhancement in Counter-Movement Exercise -- 58. Relationship Between Neural Drive and Mechanical Effect in the Respiratory System.
  • 일반주제명
    Medicine.
    Neurosciences.
    Internal medicine.
    Biomedicine.
    Neurosciences.
    Internal Medicine.
  • 기본자료 저록
    Springer eBooks
  • 기타형태 저록
    Printed edition: 9781461352068
  • ISBN
    9781461507130
  • 언어
    영어