Latash / Furmanek / Levin | Progress in Motor Control | Buch | 978-0-443-45068-6 | www.sack.de

Buch, Englisch, 350 Seiten, Format (B × H): 191 mm x 235 mm, Gewicht: 449 g

Latash / Furmanek / Levin

Progress in Motor Control

Crossroads Between Neurophysiology and Applications
Erscheinungsjahr 2026
ISBN: 978-0-443-45068-6
Verlag: Elsevier Science

Crossroads Between Neurophysiology and Applications

Buch, Englisch, 350 Seiten, Format (B × H): 191 mm x 235 mm, Gewicht: 449 g

ISBN: 978-0-443-45068-6
Verlag: Elsevier Science

"Progress in Motor Control: Crossroads between Neurophysiology and Applications" offers an in-depth look at the evolving field of motor control, synthesizing the latest research. This volume explores the complex roles of the central nervous system in movement, featuring contributions from leading experts who use approaches ranging from basic physical principles to advanced control theory. It addresses applied aspects of motor control, focusing on recovery strategies for functional movements in patients with spinal cord injuries, subcortical disorders, and strokes. Organized into five sections, the book covers theoretical advances, neurophysiological mechanisms, motor learning, neural plasticity, and motor disorders, including topics like neural population dynamics and vestibulospinal reflexes. The final sections highlight strategies for improving recovery after neurological events. This resource bridges foundational research and clinical application, making it invaluable for researchers, clinicians, and students in motor control, neuroscience and rehabilitation.

Divided into five comprehensive parts, the book covers theoretical advances, neurophysiological mechanisms, motor learning, neural plasticity, and motor disorders, including essential topics like neural population dynamics and the dual role of vestibulospinal reflexes. Final sections highlight practical strategies for improving recovery outcomes following neurological events.

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Autoren/Hrsg.

Latash, Mark L
Furmanek, Mariusz
Levin, Mindy F.
Perez, Monica
Tunik, Eugene

Fachgebiete

Weitere Infos & Material

Part I: Theoretical Advances in Motor Control
1. Origins of processes within the uncontrolled manifold
2. Cognitive psychology of human motor planning
3. What a “task” means and why it matters: Bernstein’s ideas meet perception and attention research
4. A perspective on effort and its role in motor learning
5. Progress in scientific thinking about the equilibrium-point hypothesis during half a century
6. Determinants of the force-length characteristic of muscle and implications for limb mechanics

Part II: Advances in Understanding Neurophysiological Mechanisms
7. Relative contributions of different descending pathways to driving motoneurons and generating muscle contractions
8. Investigation of human reach to grasp using non-invasive brain stimulation
9. The dual roles of vestibulospinal reflexes: excitatory and inhibitory influences on limb muscle activity
10. Locomotor coordination and dynamic visual acuity

Part III: Motor Learning and Neural Plasticity
11. Exploration for learning new coordinative structures
12. Heksor: The CNS substrate of a skilled behavior
13. Targeting sensorimotor networks with noninvasive brain stimulation
14. Body mapping in infancy: Implications for goal-directed movements
15. New perspectives on cortical and subcortical mechanisms for visuomotor adaptation and their clinical implications

Part IV: Motor Disorders
16. The lens matters: Walking recovery after pediatric spinal cord injury
17. Mediolateral Foot Trajectory Stabilization During Walking in Young Adults, Older Adults, and People with Stroke
18. Mechanisms of Impaired Motor Control in Essential Tremor
19. The Association of Cognitive and Motor Performance in Parkinson's Disease: Understanding the Role of the Cerebellum and Related Circuitry

Part V: Recovery of the Motor Function
20. How Astrocytes Utilize L-Lactate to Promote Exercise-Enhanced Neuroplasticity in Parkinson’s disease
21. Translation of motor control principles to functional movement improvement after stroke
22. It’s Time to Move Forward: Translating Motor Control Principles into Neurorehabilitation
23. From muscle function to neural drive to plasticity - guiding neural plasticity to improve soleus activation and function

Levin, Mindy F.
Dr. Levin, physiotherapist (McGill University), obtained a M.Sc. in Clinical Sciences (University of Montreal 1985) and a Ph.D. in Physiology (McGill 1990). Dr. Levin was a researcher and professor in the School of Rehabilitation at U Montreal and since 2004, she has been at the School of Physical and Occupational Therapy (SPOT) at McGill University. She was Research Director of the Rehabilitation Institute of Montreal (1997-2001) and Physical Therapy Program Director at SPOT (2004-2008). She was Research Scholar of the Quebec Health Research Fund (1992-2004) and held a Tier 1 Canada Research Chair in Motor Recovery and Rehabilitation (2005-2019). She is currently a Distinguished James McGill Professor and a member of the Canadian Academy of Health Sciences. Dr. Levin is the President of the International Society of Motor Control and is a Past-President of the International Society for Virtual Rehabilitation (2015-2017). She is also a Board member of the International Neurological Physiotherapy Association of the World Physiotherapy Association and editor of the journal "Motor Control". She has over 180 peer-reviewed publications. Her research focuses on elucidating mechanisms underlying sensorimotor deficits and their recovery in patients with CNS lesions. Amongst her research methodologies are new technologies such as virtual reality and robotics.

Tunik, Eugene
Eugene Tunik has a BS in Physical Therapy (Northeastern University) and PhD in Neuroscience (Rutgers University). He is a tenured Professor in the Department of Physical Therapy, Movement, and Rehabilitation Sciences and Associate Dean of Research and Innovation at the Bouvé College of Health Sciences. He directs the Laboratory for Movement Neuroscience, where research focuses on studying cognitive-motor interactions in health and disease, as well as improving human-robot interactions. Approaches in the lab include virtual reality, non-invasive brain stimulation, physiological recording, and measurement of movement.

Furmanek, Mariusz
Mariusz P. Furmanek, PhD, PT, DPT is a new Assistant Professor in the Physical Therapy Department at the University of Rhode Island. He graduated from the Academy of Physical Education in Katowice, Poland, in Physical Therapy, Physical Education, and Kinesiology. Dr. Furmanek completed Postdoctoral Fellowship in the Movement Neuroscience Laboratory, Department of Physical Therapy Movement and Rehabilitation Sciences at Northeastern University in Boston, where he received his DPT. He has clinical experience in outpatient orthopedics and neurorehabilitation. Dr. Furmanek's research and academic focus are on Motor Control and Neuroscience in rehabilitation, athletic training, and virtual engagement.

Perez, Monica
Monica A. Perez, PT, PhD, is an internationally recognized leader in spinal cord injury (SCI) research. At Shirley Ryan AbilityLab, she leads a translational research team to orchestrate the application of the most modern methods for measuring upper-extremity function.

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