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Author: Marco Iosa Publisher: Frontiers Media SA ISBN: 2889196143 Category : Electronic book Languages : en Pages : 192
Book Description
Locomotion involves many different muscles and the need of controlling several degrees of freedom. Despite the Central Nervous System can finely control the contraction of individual muscles, emerging evidences indicate that strategies for the reduction of the complexity of movement and for compensating the sensorimotor delays may be adopted. Experimental evidences in animal and lately human model led to the concept of a central pattern generator (CPG) which suggests that circuitry within the distal part of CNS, i.e. spinal cord, can generate the basic locomotor patterns, even in the absence of sensory information. Different studies pointed out the role of CPG in the control of locomotion as well as others investigated the neuroplasticity of CPG allowing for gait recovery after spinal cord lesion. Literature was also focused on muscle synergies, i.e. the combination of (locomotor) functional modules, implemented in neuronal networks of the spinal cord, generating specific motor output by imposing a specific timing structure and appropriate weightings to muscle activations. Despite the great interest that this approach generated in the last years in the Scientific Community, large areas of investigations remain available for further improvement (e.g. the influence of afferent feedback and environmental constrains) for both experimental and simulated models. However, also supraspinal structures are involved during locomotion, and it has been shown that they are responsible for initiating and modifying the features of this basic rhythm, for stabilising the upright walking, and for coordinating movements in a dynamic changing environment. Furthermore, specific damages into spinal and supraspinal structures result in specific alterations of human locomotion, as evident in subjects with brain injuries such as stroke, brain trauma, or people with cerebral palsy, in people with death of dopaminergic neurons in the substantia nigra due to Parkinson’s disease, or in subjects with cerebellar dysfunctions, such as patients with ataxia. The role of cerebellum during locomotion has been shown to be related to coordination and adaptation of movements. Cerebellum is the structure of CNS where are conceivably located the internal models, that are neural representations miming meaningful aspects of our body, such as input/output characteristics of sensorimotor system. Internal model control has been shown to be at the basis of motor strategies for compensating delays or lacks in sensorimotor feedbacks, and some aspects of locomotion need predictive internal control, especially for improving gait dynamic stability, for avoiding obstacles or when sensory feedback is altered or lacking. Furthermore, despite internal model concepts are widespread in neuroscience and neurocognitive science, neurorehabilitation paid far too little attention to the potential role of internal model control on gait recovery. Many important scientists have contributed to this Research Topic with original studies, computational studies, and review articles focused on neural circuits and internal models involved in the control of human locomotion, aiming at understanding the role played in control of locomotion of different neural circuits located at brain, cerebellum, and spinal cord levels.
Author: Marco Iosa Publisher: Frontiers Media SA ISBN: 2889196143 Category : Electronic book Languages : en Pages : 192
Book Description
Locomotion involves many different muscles and the need of controlling several degrees of freedom. Despite the Central Nervous System can finely control the contraction of individual muscles, emerging evidences indicate that strategies for the reduction of the complexity of movement and for compensating the sensorimotor delays may be adopted. Experimental evidences in animal and lately human model led to the concept of a central pattern generator (CPG) which suggests that circuitry within the distal part of CNS, i.e. spinal cord, can generate the basic locomotor patterns, even in the absence of sensory information. Different studies pointed out the role of CPG in the control of locomotion as well as others investigated the neuroplasticity of CPG allowing for gait recovery after spinal cord lesion. Literature was also focused on muscle synergies, i.e. the combination of (locomotor) functional modules, implemented in neuronal networks of the spinal cord, generating specific motor output by imposing a specific timing structure and appropriate weightings to muscle activations. Despite the great interest that this approach generated in the last years in the Scientific Community, large areas of investigations remain available for further improvement (e.g. the influence of afferent feedback and environmental constrains) for both experimental and simulated models. However, also supraspinal structures are involved during locomotion, and it has been shown that they are responsible for initiating and modifying the features of this basic rhythm, for stabilising the upright walking, and for coordinating movements in a dynamic changing environment. Furthermore, specific damages into spinal and supraspinal structures result in specific alterations of human locomotion, as evident in subjects with brain injuries such as stroke, brain trauma, or people with cerebral palsy, in people with death of dopaminergic neurons in the substantia nigra due to Parkinson’s disease, or in subjects with cerebellar dysfunctions, such as patients with ataxia. The role of cerebellum during locomotion has been shown to be related to coordination and adaptation of movements. Cerebellum is the structure of CNS where are conceivably located the internal models, that are neural representations miming meaningful aspects of our body, such as input/output characteristics of sensorimotor system. Internal model control has been shown to be at the basis of motor strategies for compensating delays or lacks in sensorimotor feedbacks, and some aspects of locomotion need predictive internal control, especially for improving gait dynamic stability, for avoiding obstacles or when sensory feedback is altered or lacking. Furthermore, despite internal model concepts are widespread in neuroscience and neurocognitive science, neurorehabilitation paid far too little attention to the potential role of internal model control on gait recovery. Many important scientists have contributed to this Research Topic with original studies, computational studies, and review articles focused on neural circuits and internal models involved in the control of human locomotion, aiming at understanding the role played in control of locomotion of different neural circuits located at brain, cerebellum, and spinal cord levels.
Author: Seyyed Abed Hosseini Publisher: BoD – Books on Demand ISBN: 1789231884 Category : Medical Languages : en Pages : 106
Book Description
The book "Cognitive and Computational Neuroscience - Principles, Algorithms and Applications" will answer the following question and statements: System-level neural modeling: what and why? We know a lot about the brain! Need to integrate data: molecular/cellular/system levels. Complexity: need to abstract away higher-order principles. Models are tools to develop explicit theories, constrained by multiple levels (neural and behavioral). Key: models (should) make novel testable predictions on both neural and behavioral levels. Models are useful tools for guiding experiments. The hope is that the information provided in this book will trigger new researches that will help to connect basic neuroscience to clinical medicine.
Author: Mark Burke Publisher: BoD – Books on Demand ISBN: 1789232163 Category : Science Languages : en Pages : 190
Book Description
Nonhuman primates (referred to here as primates) provide an invaluable source of information for a multitude of scientific fields including ecology, evolution, biology, psychology, and biomedicine. This volume addresses various topics related to primate research that includes phylogeny, natural observations, primate ecosystem, sociocognitive abilities, disease pathophysiology, and neuroscience. Topics discussed here provide a platform for which to address human evolution, habitat preservation, human psyche, and pathophysiology of disease.
Author: Michael J. Richardson Publisher: Springer Science & Business Media ISBN: 1461454654 Category : Medical Languages : en Pages : 205
Book Description
This volume is the most recent installment of the Progress in Motor Control series. It contains contributions based on presentations by invited speakers at the Progress in Motor Control VIII meeting held in Cincinnati, OH, USA in July, 2011. Progress in Motor Control is the official scientific meeting of the International Society of Motor Control (ISMC). The Progress in Motor Control VIII meeting, and consequently this volume, provide a broad perspective on the latest research on motor control in humans and other species.
Author: Frederic Danion, PhD Publisher: Oxford University Press ISBN: 0195395271 Category : Medical Languages : en Pages : 536
Book Description
Motor control has established itself as an area of scientific research characterized by a multi-disciplinary approach. The book offers a collection of chapters written by the most prominent researchers in the field.
Author: Till Frank Publisher: Springer Nature ISBN: 3030288218 Category : Science Languages : en Pages : 524
Book Description
This book discusses human perception and performance within the framework of the theory of self-organizing systems. To that end, it presents a variety of phenomena and experimental findings in the research field, and provides an introduction to the theory of self-organization, with a focus on amplitude equations, order parameter and Lotka-Volterra equations. The book demonstrates that relating the experimental findings to the mathematical models provides an explicit account for the causal nature of human perception and performance. In particular, the notion of determinism versus free will is discussed in this context. The book is divided into four main parts, the first of which discusses the relationship between the concept of determinism and the fundamental laws of physics. The second part provides an introduction to using the self-organization approach from physics to understand human perception and performance, a strategy used throughout the remainder of the book to connect experimental findings and mathematical models. In turn, the third part of the book focuses on investigating performance guided by perception: climbing stairs and grasping tools are presented in detail. Perceptually relevant bifurcation parameters in the mathematical models are also identified, e.g. in the context of walk-to-run gait transitions. Chains of perceptions and actions together with their underlying mechanisms are then presented, and a number of experimental phenomena – such as selective attention, priming, child play, bistable perception, retrieval-induced forgetting, functional fixedness and memory effects exhibiting hysteresis with positive or negative sign – are discussed. Human judgment making, internal experiences such as dreaming and thinking, and Freud’s concept of consciousness are also addressed. The fourth and last part of the book explores several specific topics such as learning, social interactions between two people, life trajectories, and applications in clinical psychology. In particular, episodes of mania and depression under bipolar disorder, perception under schizophrenia, and obsessive-compulsive rituals are discussed. This book is intended for researchers and graduate students in psychology, physics, applied mathematics, kinesiology, and the sport sciences who want to learn about the foundations of the field. Written for a mixed audience, the experiments and concepts are presented using non-technical language throughout. In addition, each chapter includes more advanced sections for modelers in the fields of physics and applied mathematics.
Author: Patrick J. Whelan Publisher: Academic Press ISBN: 0128172754 Category : Medical Languages : en Pages : 486
Book Description
From speech to breathing to overt movement contractions of muscles are the only way other than sweating whereby we literally make a mark on the world. Locomotion is an essential part of this equation and exciting new developments are shedding light on the mechanisms underlying how this important behavior occurs. The Neural Control of Movement discusses these developments across a variety of species including man. The editors focus on highlighting the utility of different models from invertebrates to vertebrates. Each chapter discusses how new approaches in neuroscience are being used to dissect and control neural networks. An area of emphasis is on vertebrate motor networks and particularly the spinal cord. The spinal cord is unique because it has seen the use of genetic tools allowing the dissection of networks for over ten years. This book provides practical details on model systems, approaches, and analysis approaches related to movement control. This book is written for neuroscientists interested in movement control. Provides practice details on model systems, approaches, and analysis approaches related to movement control Discusses how recent advances like optogenetics and chemogenetics affect the need for model systems to be modified (or not) to work for studies of movement and motor control Written for neuroscientists interested in movement control, especially movement disorders like Parkinson’s, MS, spinal cord injury, and stroke
Author: Mark L. Latash Publisher: Human Kinetics ISBN: 9780736000277 Category : Education Languages : en Pages : 280
Book Description
Progress in Motor Control, Volume Two, features 12 chapters by internationally known researchers in the field of motor control. Comprehensive and up to date, the reference reflects the spirit of the great Nikolai Bernstein, one of the founders of the area now defined as motor control and a significant contributor to the structure-function controversy. Progress in Motor Control, Volume Two, preserves many of the features that made the first volume a state-of-the-art reference and presents these new features: -A reader-friendly design -More than 170 figures to illustrate the scientific ideas expressed -Many up-to-date references to help readers find the most current research in the field Less theoretical than the first volume, this book provides readers with valuable information on these subjects: -The direct relations of the motor function to neurophysiological and/or biomechanical structures -The role of the motor cortex and other brain structures in motor control and motor learning -The multidimensional and temporal regulation of limb mechanics by spinal circuits In this unique forum, prominent motor control scientists contribute varying viewpoints on different aspects of structure-function relations. These prominent scholars include scientists from the former Soviet Union who either knew Bernstein personally or worked closely with his students, biomechanists and neurophysiologists who focus on the role of particular body structures in the movement of production, and clinicians who analyze changes in movements with children and adults with neurological disorders. The book also gives an overview of the disagreement between Ivan Pavlov and Nikolai Bernstein, which is one of the most fascinating and controversial disagreements in the history of contemporary neurophysiology. Whether you're a researcher, or graduate or postdoctoral student, Progress in Motor Control, Volume Two, thoroughly summarizes the latest motor control issues, research, and theories, and it identifies problems in need of investigation.
Author: Charles T. Leonard Publisher: ISBN: Category : Medical Languages : en Pages : 276
Book Description
Covering the basics of neuroscience, including a chapter on the vocabulary of the nervous system (a great brush-up even for those who have some prior knowledge of neuroscience), this excellent reference eases the student through more difficult topics such as reflexes, eye-hand coordination, and neural control of running and walking. Each chapter begins with an outline, and a comprehensive glossary rounds out the book. More than 50 original line drawings illustrate key concepts. * Presents difficult information on neuroscience in an easy-to-understand manner. * Explains the major organizational subdivisions of the central nervous system briefly, with an emphasis on structures and structural relationships that impact motor control. * Presents typical spinal cord and brainstem reflexes involved in motor control and discusses the methods for using these reflexes to influence strength gains and muscle flexibility. * Includes the most current research on the neural control of hand-eye coordination, discussed in relation to its importance to rehabilitation medicine and childrens' physical education. * Chapter on the neural control of human locomotion integrates concepts in previous chapters to show the harmony of neural interaction that is needed to complete any motor act. * Includes the latest research (by the author) showing that humans can consciously alter reflex activity and the impact of these findings on athletic performance, recovery from injury, and motor learning. * Concepts are illustrated with anecdotes and examples making difficult information less intimidating and easier to grasp. * Includes topics like hand-eye coordination and human locomotion, applying neuroscience to everyday activities and making highly theoretical information useful. * More than 50 original line drawings illustrate key concepts. * Chapter outlines give students an overview of the information to be presented. * Comprehensive glossary provides an easy review of difficult terminology.
Author: Mark L. Latash Publisher: Human Kinetics ISBN: 9780880116749 Category : Education Languages : en Pages : 420
Book Description
Contributors of the 16 papers were charged with reviewing urgent problems of motor control rather than reporting on their own research, in order to produce a broad reference for professionals and graduate students in the field. Four of them worked directly with Nikolai Berstein (1896-1966), the Russian scientist who first worked in the field and wh.
Author: Marco Iosa
Author: Marco Iosa
Author: Seyyed Abed Hosseini
Author: Mark Burke
Author: Michael J. Richardson
Author: Frederic Danion, PhD
Author: Till Frank
Author: Patrick J. Whelan
Author: Mark L. Latash
Author: Charles T. Leonard
Author: Mark L. Latash