Progress in Motor Control: From Neuroscience to Patient Outcomes updates the state-of-the-art of knowledge among scientists on basic and applied research on control of movements of biological systems through a clinical perspective. Motor control is a scientific area characterized by multidisciplinary approaches. This book promotes the application of this area into clinical practice. Chapters focus on topics in the field of motor control, including neural control of goal-oriented action, theories on rules of interaction during motor learning, and action coordination up to human and machine interaction. Edited by experts in the field, this book translates current theoretical outcomes into neuroscience and therapeutic solutions.
Arvustused
"...a collection of useful and clearly written summaries of various aspects of theoretical, experimental, and applied neurosciences.... The book provides explanations of fundamental concepts that support the science of motor control and how these concepts can translate into the effective treatment of people with motor control deficits.... intended primarily for basic neuroscientists and will be of particular usefulness to students interested in motor control,... While the text is highly technical, the language is clear and accessible.... Generous use of helpful diagrams supports the understanding of the concepts.... [ It] provides a clearer link between fundamental mechanisms and clinical applications. The up-to-date, current information in this book makes it valuable." ©Doody's Book Review Service, 2025, Elliot J Roth, MD (Shirley Ryan AbilityLab)
Section A Action perception coupling
1. The equilibrium-point hypothesis: A major framework for the understanding
of action and perception
Anatol G. Feldman
2. Synergic control of movement: From single muscles to the whole body
Mark Latash
3. Can nonlinear analysis of movement patterns reveal the status of the
musculoskeletal system?
Sergio T. Fonseca, Thales R. Souza, Mariana R.C. Aquino, Camila G.M. Castor,
Renatha Carvalho, Priscila A. Arau´ jo, Thiago R.T. Santos, Liria A.
Okai-Nobrega, Renan A. Resende, and Juliana M. Ocarino
4. Toward a neural theory of goal-directed reaching movements
Gregor Schöner, Lukas Bildheim, and Lei Zhang
Section B Coordination
5. The Perception-Action Coupling in Collective Dynamics
William H. Warren
6. Locomotor Coordination, Visual Perception and Head Stability
Richard Van Emmerik, C. Dane Napoli, Samuel R. Zeff, and Joseph Hamill
7. Computational joint action: From emergent coordination to artificial
partners
Cecilia De Vicariis, Laura Bandini, Vinil T. Chackochan, and Vittorio
Sanguineti
Section C Translation of motor learning principles and rules of
interaction
8. High-fidelity interfacing for bionic rehabilitation
Ivan Vujaklija
9. Exploring to learn synergies and its applications in injuries affecting
the upper limb
Raoul M. Bongers
10. Translating movement analysis knowledge in rehabilitative tools
Maurizio Petrarca
Section D Goal-oriented action
11. Translation of principles of motor control to improve sensorimotor
outcomes following brain injury
Mindy F. Levin
12. Goal-Oriented Action: New Perspectives with Special Emphasis on
Neurorehabilitation
Carolee J. Winstein
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. Maurizio Petrarca is a physiotherapist and obtained an M.Sc. Rehabilitation Science at the University "Tor Vergata" (2007) in Rome and PhD in Science and Space Technology, with a specialization in Mechanical Measurements for Engineering, at the "Giuseppe Colombo" University Center - CISAS in Padua (2011). He founded and has been in charge of the Movement Analysis and Robotics Laboratory at the "Bambino Gesù" Children's Hospital a research institute in Rome, from 2000 to the present day. He is the Past-president of the Neurological and Neuroscience subgroup of the Italian Scientific Society of physiotherapy (A.I.FI. www.aifi.net). He was the PI and collaborated on many research projects concerning assessment and technological tool development in rehabilitation. He developed an in-house computerized optoelectronic system for movement analysis in 1986. He patented a mechanical dynamic orthoses system for gait recovery in 1995 and a modular robotic exoskeleton in 2012. He ideated a 3DoF robotized platform for balance assessment and training in 2006. He realizes a Dynamic Oriented Rehabilitative Integrated System (DORIS), mixing a 6DoF Stewart platform with movement analysis virtual reality and exoskeletons, not yet patented in 2019. He is developing a bioinspired robotic orthosis for the knee and elbow in the present day. He is a clinician progressively introduced in the research setting interested in studying the function organization in different contexts and diseases. He published 79 peer-reviewed publications. Daniele Piscitelli is affiliated with the University of Milano-Bicocca, Italy as a Researcher. He was a visiting scholar at Pennsylvania State University (USA) for one year (2015/4- 2016/5). From 2017 to 2022, he was a Post-Doc Fellow at McGill University, under the directorship of Dr. Mindy F. Levin. He is a researcher with a background in neuroscience, neurorehabilitation, and clinical research design. He has a strong interest in rehabilitation after stroke, neural motor control, and psychometric assessment of outcome measures. His research focuses on understanding the neurophysiological mechanisms of motor control and how this knowledge can be translated into clinical research and clinical practice to promote recovery after brain lesions. His research has continuously been funded by many competitive research fellowships such as the Italian Ministry of Education, University and Research, McGill Faculty of Medicine, "Fonds de recherche en sante du Quebec", and Canadian Institute of Health Research. Dr. Piscitelli has published several original papers and theoretical works in peer-review journals about the underlying motor control mechanisms in post-stroke recovery, despite a relatively young research-active career. In 2021, Dr. Piscitelli was the recipient of the Early Career Investigator Award by the International Society of Motor Control. Susanna Summa acquired Bachelor Degree in Bioengineering at Università Campus Bio-Medico di Roma and Master Degree in Bioengineering at Università degli Studi di Genova curriculum in Neuroengineering. She was Ph.D candidate in Bioengineering in collaboration with NeuroEngineering and NeuroRobotics Lab (NeuroLab) under the supervision of Vittorio Sanguineti and Maura Casadio. She is a member of the Movement Analysis and Robotic laboratory (MARlab), at the Bambino Gesù Pediatric Hospital under the supervision of Maurizio Petrarca. Previously she was at the Research Unit of Neurophysiology & Neuroengineering of Human-Technology Interaction, at the Campus Bio-Medico University. Her main research areas are neural control of movements, motor learning in normal and pathologic conditions, neuromotor recovery through robotic technologies and natural interfaces in persons with neurological disorders. Currently, she is focusing her interests on movement analysis of pediatric patients and in the study of human-machine interaction as tools for the assessment of neuromotor diseases and for neuromotor recovery with robotic platforms.
