图书简介
Mathematical Modelling in Motor Neuroscience: State of the Art and Translation to the Clinic, Volume 248, the latest release in the Progress in Brain Research series, highlights new advances in the field, with this new volume presenting interesting chapters on a variety of topics, including Mathematical modeling in clinical and basic motor neuroscience, The math of medicine - the computational lessons learned from the human disease, Mathematical models - an extension of the clinician’s mind, From differential equation to linear control systems: the study of the VOR, Closed lop and nonlinear systems, State-space equations and learning, Integrators and optimal control, and much more.
1. Mathematical modeling in clinical and basic motor neuroscience VIEW OF THE FIELD: PAST PRESENT AND FUTURE 2. The math of medicine - the computational lessons learnt from the human disease 3. Mathematical models - an extension of the clinician’s mind DIDACTIC: Modeling 4. From differential equation to linear control systems: the study of the VOR. 5. Closed loop and nonlinear systems 6. State-space equations and learning 7. Integrators and optimal control 8. Sequential Bayesian updating 9. Maps and sensorimotor transformations 10. Modeling Gaze Position-Dependent Opsoclonus DIDACTIC: Translational 11. Clinical applications of differential equations and linear control systems 12. Translational physiology of ocular motor plant 13. Disorders of motor learning 14. Clinical applications of the control system models 15. Motion perception and control system models in health and disease 16. Gaze-position Dependent Opsoclonus in Mild Traumatic Brain Injury RESEARCH: Plant and binocular control 17. Twisted Implications of Torques for Ocular Motor Modeling 18. Extraocular muscles involved in convergence are innervated by an additional set of palisade endings that may differ in their excitability 19. On the retinal correspondences across the binocular visual field 20. Motion and binocular disparity processing: two sides of two different coins 21. The use of oculomotor plant models and eye movements in cybersecurity research 22. Nonlinearity in gaze holding: experimental results and possible mechanisms 23. Computational modeling of the role of compartmentalization in superior oblique palsy 24. Essential Infantile Esotropia: Potential Role of Extended Subcortical Neuroplasticity RESEARCH: Saccades 25. Input-output organization of omnipause neurons in the control of saccadic eye movements 26. The roles of commissural connections between the bilateral superior colliculi in the control of saccadic eye movements 27. Potassium Channels in Omnipause Neurons 28. The Cerebellum-Mediated Latency-Duration Balance Minimizes the Endpoint Variability in Anti-Saccades 29. The variability of saccade trajectories explained by the superposition of planning noise, premotor noise, and motor noise RESEARCH: Vestibular, balance, and postural control 30. Optimal velocity storage models for changing vestibular function 31. The role of temporo-parietal cortex in upright perception and the link with torsional eye position 32. A theoretical framework for `unexplained’ dizziness in the elderly 33. Vestibulocerebellar basis of mal de debarquement syndrome 34. The functional head impulse test 35. Roll tilt thresholds mediate age-related effects on balance 36. The role of vestibular precision in postural sway and manual control 37. Dynamic modeling of visual-vestibular conflict detection 38. Visual Control of Balance 39. Explaining perceptual signs and symptoms following unilateral lesions of vestibular pathways 40. Effect of motor and sensory noise in the control of upright standing 41. Model of optokinetic responses involving two different visual motion processing pathways RESEARCH: Adaptation 42. New insights into error-dependent motor learning 43. A Neuronal Process for Adaptive Control of Primate Saccadic System 44. Using chemogenetic tools (DREADDs) to study reward sensitivity 45. A unified computational framework for visual attention dynamics 46. Can Improving the estimation of two rate models in visuomotor reach adaptation by advanced preprocessing methods RESEARCH: Dystonia 47. When enough is enough! High motor variability in DYT1 dystonia is associated with impaired visuomotor adaptation 48. The role of basal ganglia in the integrative neural network model for cervical dystonia 49. A unifying motor control framework for task-specific dystonia 50. Machine learning approach characterizes the tremor irregularity in dystonia 51. Role of proprioception in the integrative network model for dystonia RESEARCH: Parkinson’s disease 52. Oculomotor effects of medical and surgical treatments of Parkinson’s disease 53. Temporal coupling of action and visual perception in health and Parkinson’s disease 54. Vestibular heading perception in Parkinson’s disease patients treated with deep brain stimulation 55. A new approach for estimation of spiketrain patterns in basal ganglia RESEARCH: Nystagmus 56. Rebound nystagmus, a window to the oculomotor integrator 57. Central positional nystagmus: a modeling approach 58. Modulation of pendular nystagmus by visual inputs in multiple sclerosis: mathematical modeling for mechanism 59. Atypical seesaw nystagmus 60. Hyperexcitable reciprocally innervating mesencephalic network causes paraneoplastic seesaw nystagmus and opsoclonus 61. Response to patching in amblyopic patients with and without fusion maldevelopment nystagmus RESEARCH: Others 62. Expanded study of ocular-motor fatigue in internuclear ophthalmoparesis due to multiple sclerosis 63. Dynamic properties of saccades distinguish different forms of spinocerebellar ataxia 64. Oculomotor and vestibular correlates in autoimmune and paraneoplastic ataxia syndromes 65. Eye-Hand Re-coordination: a Pilot Investigation of Gaze and Reach Biofeedback in Chronic Stroke 66. Kinematics and the neurophysiological study of visually-guided eye movements 67. Understanding the Mechanisms Underlying Bodily Distress: An Application of Mathematical Modeling and Analysis of the Head Motor System to Psychosomatic Medicine
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