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Principles and Practice of Movement Disorders provides the complete, expert guidance you need to diagnose and manage these challenging conditions. Drs. Stanley Fahn, Joseph Jankovic and Mark Hallett explore all facets of these disorders, including the latest rating scales for clinical research, neurochemistry, clinical pharmacology, genetics, clinical trials, and experimental therapeutics. This edition features many new full-color images, additional coverage of pediatric disorders, updated Parkinson information, and many other valuable updates. An accompanying Expert Consult website makes the content fully searchable and contains several hundred video clips that illustrate the manifestations of all the movement disorders in the book along with their differential diagnoses. Get just the information you need for a clinical approach to diagnosis and management, with minimal emphasis on basic science. Find the answers you need quickly and easily thanks to a reader-friendly full-color format, with plentiful diagrams, photographs, and tables. Apply the latest advances to diagnosis and treatment of pediatric movement disorders, Parkinson disease, and much more. View the characteristic presentation of each disorder with a complete collection of professional-quality, narrated videos online. Better visualize every concept with new full-color illustrations throughout. Search the complete text online, follow links to PubMed abstracts, and download all of the illustrations, at www.expertconsult.com.
Erwan Le Corre, creator of the world-renowned fitness system MovNat, is on a mission to reintroduce natural movement to our modern lives with the most ancient movement skill set: walking, running, balancing, jumping, crawling, climbing, swimming, lifting, carrying, throwing, catching, and self-defense. Try to imagine an out-of-shape tiger stepping on an exercise machine to get a workout. It doesn't make any sense, does it? Wild animals simply move the way nature intended, and they become powerful, healthy, and free in the process. So why should it be any different for us? We have become "zoo-humans," separated from nature and living movement-impoverished, unnatural lifestyles. As a result, we are suffering physically, mentally, and spiritually. Exercise has become artificial and boring--a chore, if not a punishment. We are training parts of our bodies, not the whole, and we have lost our drive for movement. What we need is not a better understanding of exercise physiology or more variety in fitness programs and modalities. What we need is simplicity, meaning, purpose, inspiration, and enjoyment. We need to get back to natural movement. In The Practice of Natural Movement, Le Corre demonstrates our innate and versatile ability to perform practical and adaptable movements. With countless techniques and movement variations, as well as strategies for practicing anytime and anywhere, he will inspire you to build a naturally strong and flexible body and to form yourself anew into a mindful, skillful, and physically capable human being.
"Training has many different connotations depending on one's perspective. Traditionally, for healthy individuals or athletes it focused on strength, flexibility, or cardiovascular training. Such training would normally be supervised by a personal fitness trainer or strength and conditioning (S&C) coach . This book promotes a different approach in that the aim of training is to promote athletic development (1,2). From the perspective of sustainable athletic development, training is not limited to strength, flexibility or cardiovascular domains, but also focuses on the fundamental A,B,Cs of agility, balance, and coordination as a foundation for enhanced movement literacy (3)"--Provided by publisher.
Do you want to be able to keep up with your children or grandchildren? Do you want to move like you are young again? Do you want to not just look fit, but also be fit? Do you want to move with power, efficiency, and grace? The modern world has become sedentary. Running, crawling, jumping, squatting, kicking, throwing—these are all movements the human body was designed for, and yet we are losing the ability to perform these tasks without injury or great exertion. In MovNat, Erwan Le Corre, a world-renowned expert in evolutionary and natural fitness, lays out a fitness program and philosophy that will allow you to forever reconcile with your body and natural motion. You will learn: - More than 200 natural exercises that can be performed virtually anywhere: the gym, the park, in your living room, while on vacation. -The "ten natural-approach principles" to movement training and conditioning. -How to discover limitless exercises based upon fundamental techniques. -How to boost your fitness progress by making your training scalable, progressive, and safe. -Dozens of exercise combos and circuits, and how to build exercise obstacle courses.
The foremost authorities from chiropractics, orthopaedics and physical therapy present a practical overview of spinal rehabilitation. This clinical resource presents the most current and significant spinal rehab information, showing how to apply simple and inexpensive rehabilitation in the office. The updated Second Edition includes clinical/regional protocols and chapters on diagnostic triage, acute care, functional assessment, recovery care, outcomes, and biopsychosocial aspects. A bonus DVD offers demonstrations of key therapies and procedures.
Experts translate the latest findings on embodied cognition from neuroscience, psychology, and cognitive science to inform teaching and learning pedagogy. Embodied cognition represents a radical shift in conceptualizing cognitive processes, in which cognition develops through mind-body environmental interaction. If this supposition is correct, then the conventional style of instruction—in which students sit at desks, passively receiving information—needs rethinking. Movement Matters considers the educational implications of an embodied account of cognition, describing the latest research applications from neuroscience, psychology, and cognitive science and demonstrating their relevance for teaching and learning pedagogy. The contributors cover a range of content areas, explaining how the principles of embodied cognition can be applied in classroom settings. After a discussion of the philosophical and theoretical underpinnings of embodied cognition, contributors describe its applications in language, including the areas of handwriting, vocabulary, language development, and reading comprehension; STEM areas, emphasizing finger counting and the importance of hand and body gestures in understanding physical forces; and digital learning technologies, including games and augmented reality. Finally, they explore embodied learning in the social-emotional realm, including how emotional granularity, empathy, and mindfulness benefit classroom learning. Movement Matters introduces a new model, translational learning sciences research, for interpreting and disseminating the latest empirical findings in the burgeoning field of embodied cognition. The book provides an up-to-date, inclusive, and essential resource for those involved in educational planning, design, and pedagogical approaches. Contributors Dor Abrahamson, Martha W. Alibali, Petra A. Arndt, Lisa Aziz-Zadeh, Jo Boaler, Christiana Butera, Rachel S. Y. Chen,Charles P. Davis, Andrea Marquardt Donovan, Inge-Marie Eigsti, Virginia J. Flood, Jennifer M. B. Fugate, Arthur M. Glenberg, Ligia E. Gómez, Daniel D. Hutto, Karin H. James, Mina C. Johnson-Glenberg, Michael P. Kaschak, Markus Kiefer, Christina Krause, Sheila L. Macrine, Anne Mangen, Carmen Mayer, Amanda L. McGraw, Colleen Megowan-Romanowicz, Mitchell J. Nathan, Antti Pirhonen, Kelsey E. Schenck, Lawrence Shapiro, Anna Shvarts, Yue-Ting Siu,Sofia Tancredi, Chrystian Vieyra, Rebecca Vieyra, Candace Walkington, Christine Wilson-Mendenhall, Eiling Yee
A thorough explanation of the tenets of biomechanics At once a basic and applied science, biomechanics focuses on the mechanical cause-effect relationships that determine the motions of living organisms. Biomechanics for Dummies examines the relationship between biological and mechanical worlds. It clarifies a vital topic for students of biomechanics who work in a variety of fields, including biological sciences, exercise and sports science, health sciences, ergonomics and human factors, and engineering and applied science. Following the path of a traditional introductory course, Biomechanics for Dummies covers the terminology and fundamentals of biomechanics, bone, joint, and muscle composition and function, motion analysis and control, kinematics and kinetics, fluid mechanics, stress and strain, applications of biomechanics, and black and white medical illustrations. Offers insights and expertise in biomechanics to provide an easy-to-follow, jargon-free guide to the subject Provides students who major in kinesiology, neuroscience, biomedical engineering, mechanical engineering, occupational therapy, physical therapy, physical education, nutritional science, and many other subjects with a basic knowledge of biomechanics Students and self-motivated learners interested in biological, applied, exercise, sports, and health sciences should not be without this accessible guide to the fundamentals.
An engaging introduction to human and animal movement seen through the lens of mechanics. How do Olympic sprinters run so fast? Why do astronauts adopt a bounding gait on the moon? How do running shoes improve performance while preventing injuries? This engaging and generously illustrated book answers these questions by examining human and animal movement through the lens of mechanics. The authors present simple conceptual models to study walking and running and apply mechanical principles to a range of interesting examples. They explore the biology of how movement is produced, examining the structure of a muscle down to its microscopic force-generating motors. Drawing on their deep expertise, the authors describe how to create simulations that provide insight into muscle coordination during walking and running, suggest treatments to improve function following injury, and help design devices that enhance human performance.