Clinical Neurodynamics


Book Description

Applies and modifies Maitland techniques to neural mobilization, refining and improving practical skills for clinical physiotherapists and physically-based occupational therapists. The text outlines the concept of neurodynamics and the basic mechanisms in movement of the nervous system and describes what can go wrong. Causal mechanisms are linked to diagnosis and treatment of pain and musculoskeletal problems in a systematic way. Various treatment techniques for each diagnostic category are presented and applied to specific clinical problems such as neck pain, headache, tennis elbow, carpal tunnel syndrome, low back pain to name a few. These are common problems in which therapists often miss a neural component




Neurodynamics: An Exploration in Mesoscopic Brain Dynamics


Book Description

Cortical evoked potentials are of interest primarily as tests of changing neuronal excitabilities accompanying normal brain function. The first three steps in the anal ysis of these complex waveforms are proper placement of electrodes for recording, the proper choice of electrical or sensory stimulus parameters, and the establish ment of behavioral control. The fourth is development of techniques for reliable measurement. Measurement consists of comparison of an unknown entity with a set of standard scales or dimensions having numerical attributes in preassigned degree. A physical object can be described by the dimensions of size, mass, density, etc. In addition there are dimensions such as location, velocity, weight, hardness, etc. Some of these dimensions can be complex (e. g. size depends on three or more subsidiary coordi nates), and some can be interdependent or nonorthogonal (e. g. specification of size and mass may determine density). In each dimension the unit is defined with refer ence to a standard physical entity, e. g. a unit of mass or length, and the result of measurement is expressed as an equivalence between the unknown and the sum of a specified number of units of that entity. The dimensions of a complex waveform are elementary waveforms from which that waveform can be built by simple addition. Any finite single-valued function of time is admissible. They are called basis functions (lO, 15), and they can be expressed in numeric as well as geometric form.




Neuronal Dynamics


Book Description

This solid introduction uses the principles of physics and the tools of mathematics to approach fundamental questions of neuroscience.




Neurodynamics


Book Description

Neurodynamics combines the latest discoveries in science, anatomy, and mindfulness to form a new understanding of human awareness in action. What good does it do to stretch, relax, or strengthen muscles if we don't know how these muscles are actually designed to function? To be sound, any physical therapy method must be based on scientific knowledge of how the musculoskeletal system works, on the role of proprioception in gaining awareness and control over this system, and on the process of becoming more conscious in action. Written for both beginning and advanced students, the book offers in-depth explanations of the theory of neurodynamics together with illustrations outlining steps of development and practical exercises. Over 100 years ago, F. Matthias Alexander made a series of discoveries about how the body works in action that made it possible for the first time to become conscious of what we're doing in activity. In Neurodynamics, author Theodore Dimon, who has taught and written about Alexander's work for many years, seeks to put together a coherent theory and curriculum for the Alexander Technique and explain how this system works in scientific terms. Neurodynamics develops and expands on Alexander's teachings and gives practical explanations that form the basis not just for a method but for a truly educational theory of how the mind and body work in action.




Principles of Neurodynamics


Book Description

Part I attempts to review the background, basic sources of data, concepts, and methodology to be employed in the study of perceptrons. In Chapter 2, a brief review of the main alternative approaches to the development of brain models is presented. Chapter 3 considers the physiological and psychological criteria for a suitable model, and attempts to evaluate the empirical evidence which is available on several important issues. Chapter 4 contains basic definitions and some of the notation to be used in later sections are presented. Parts II and III are devoted to a summary of the established theoretical results obtained to date. Part II (Chapters 5 through 14) deals with the theory of three-layer series-coupled perceptrons, on which most work has been done to date. Part III (Chapters 15 through 20) deals with the theory of multi-layer and cross-coupled perceptrons. Part IV is concerned with more speculative models and problems for future analysis. Of necessity, the final chapters become increasingly heuristic in character, as the theory of perceptrons is not yet complete, and new possibilities are continually coming to light. (Author).




Neurodynamics of Personality


Book Description

How is each individual's unique personality formed? What is it about p ersonality that can change, and why is change often so slow? Promising approaches to these perennial questions are suggested by the explosio n of recent research in neuroscience and brain functioning. This timel y volume presents a coherent, empirically based, and clinically useful framework for understanding personality. Jim Grigsby and David Steven s illuminate links between the organization of the brain and the unfol ding of personality, and show how different aspects of personality are mediated by the brain's nonconscious learning and memory systems. Pro viding new insights for clinicians, students, and researchers, this bo ok builds a critical bridge between existing psychological theories of personality and emerging knowledge in clinical neuroscience.




The Neurodynamic Techniques


Book Description

This book and accompanying DVD will help to deal with physical health and sensitivity issues related to all peripheral and central nervous system-based pain presentations.




Clinical Neurodynamics


Book Description

A groundbreaking approach to neural mobilization, this one-of-a-kind resource draws on the established Maitland movement diagram to present a completely new system for mobilization of the neural and musculoskeletal systems. The text guides readers through the complex subject of neurodynamics and the basic mechanisms in movement of the nervous system, systematically linking causal mechanisms to diagnosis and treatment of pain and common musculoskeletal problems. This new progressional method is ideal for diagnosis and treatment of musculoskeletal disorders with neural involvement such as spinal and peripheral (extremity) disorders, the nerve root, dura and peripheral nerve. Unique approach applies and modifies Maitland techniques to neural mobilization, refining and improving practical skills for clinical physical therapists. A new movement diagram applies Maitland's established movement diagram to the nervous system and enables professionals to integrate musculoskeletal and neural mechanisms. New diagnostic categories of specific dysfunctions, focused on evidence-based research, are presented. Various treatment techniques for each diagnostic category are discussed. and applied to specific clinical problems such as neck pain, headache, tennis elbow, carpal tunnel syndrome, and low back pain. Summary and key points are indicated with symbols throughout the book. An accompanying CD-ROM provides real-time images of nerves moving and shows dynamic abnormalities of nerves. Illustrations show how neuromusculoskeletal problems develop in a way that uniquely links musculoskeletal and neural functions. Clinical case histories illustrate the key points related to scientific and clinical applications.




Advances in Cognitive Neurodynamics (VII)


Book Description

This book contains original articles submitted to the Seventh International Conference on Cognitive Neurodynamics (ICCN 2019). The brain is an endless case study of a complex system characterized by multiple levels of integration, multiple time scales of activity, and multiple coding and decoding properties. The contribution of several disciplines, mathematics, physics, computer science, neurobiology, pharmacology, physiology, and behavioral and clinical sciences, is necessary in order to cope with such seemingly unattainable complexity that transforms the experimental information into a tricky puzzle which hides the correspondence with model predictions. This conference gathered active participants to discuss ideas and pose new questions from different viewpoints, ranging from single neurons and neural networks to animal/human behavior in theoretical and experimental studies. The conference is organized with plenary lectures, mini-symposia, interdisciplinary round tables, and oral and poster sessions.




The Sensitive Nervous System


Book Description

The decade since the publication of David Butler's Mobilisation of the Nervous System has seen the rapid growth and influence of the powerful and linked forces of the neurobiological revolution, the evidence based movements, restless patients and clinicians. The Sensitive Nervous System calls for skilled combined physical and educational contributions to the management of acute and chronic pain states. It offers a "big picture" approach using best evidence from basic sciences and outcomes data, with plenty of space for individual clinical expertise and wisdom.