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The first neuroanatomy text written specifically for physical therapy students Instructors finally have a resource created specifically for physical therapy students taking a neuroanatomy course. Neuroanatomy for Physical Therapy provides readers with an understanding of the anatomical localization of brain function in order to help them accurately interpret the wealth of new human brain images now available. The author, a recognized expert in human nervous system development, includes numerous case studies with patient presentations, and due to its importance in physical therapy, extensive coverage of peripheral nerve damage. • Content mirrors the standard physical therapy curriculum, freeing instructors from having to use neuroanatomy texts intended for medical students • Numerous line illustrations, angiography, and brain views from MRI and other imaging modalities • Author Tony Mosconi has been listed in the Who’s Who of American Teachers (four different years)
The second edition of this introductory text uses clinical examples to bridge the gap between basic neuroscience and the practice of neurologic rehabilitation. Each chapter illustrates the relationship between the nervous system and behavior. Current, portable, and clearly written, the text covers discrete systems for acquiring information, the neural mechanisms that control specific kinds of human function, and how the nervous system responds to insult and injury. New in this edition: Neurotransmitters, support structures and blood supply, sensorimotor interaction, and aging of the nervous system.
Addresses the information needed to understand the neuroscience of clinical rehabilitation. This book describes basic neuroanatomical structures and functions, neuropathology underlying specific clinical conditions, and theories supporting clinical treatment.
For all courses in functional and clinical neuroscience. This text is designed to help students understand the nervous system structures and functions that allow for complex neurophysiological processing in support of human functions and behavior. Students are guided through learning the vocabulary of contemporary neuroscience, understanding the nervous system's structural organization and communications mechanisms, and learning how structures are linked anatomically and functionally to mediate specific behaviors. To facilitate learning, this text builds incrementally on basic information to introduce increasingly detailed and complex structures, functions, and terminology. As students proceed, they develop working knowledge for predicting neurological problems associated with specific diseases or injury, and analyzing appropriate interventions.
"This practical guide to neuroscience focuses on the evidence-based information that is most relevant to the practice of physical rehabilitation. Stories written by real people with neurological disorders, case studies, and lists summarizing key features of neurological disorders help you connect the theory of neuroscience with real-world clinical application."--BOOK JACKET.
Stroke Rehabilitation: Insights from Neuroscience and Imaging informs and challenges neurologists, rehabilitation therapists, imagers, and stroke specialists to adopt more restorative and scientific approaches to stroke rehabilitation based on new evidence from neuroscience and neuroimaging literatures. The fields of cognitive neuroscience and neuroimaging are advancing rapidly and providing new insights into human behavior and learning. Similarly, improved knowledge of how the brain processes information after injury and recovers over time is providing new perspectives on what can be achieved through rehabilitation. Stroke Rehabilitation explores the potential to shape and maximize neural plastic changes in the brain after stroke from a multimodal perspective. Active skill based learning is identified as a central element of a restorative approach to rehabilitation. The evidence behind core learning principles as well as specific learning strategies that have been applied to retrain lost functions of movement, sensation, cognition and language are also discussed. Current interventions are evaluated relative to this knowledge base and examples are given of how active learning principles have been successfully applied in specific interventions. The benefits and evidence behind enriched environments is reviewed with examples of potential application in stroke rehabilitation. The capacity of adjunctive therapies, such as transcranial magnetic stimulation, to modulate receptivity of the damaged brain to benefit from behavioral interventions is also discussed in the context of this multimodal approach. Focusing on new insights from neuroscience and imaging, the book explores the potential to tailor interventions to the individual based on viable brain networks.
A full-color neuroscience text that skillfully integrates neuromuscular skeletal content Covers both pediatric and adult issues Beautiful full-color presentation with numerous images Neurorehabilitation in Physical Therapy delivers comprehensive coverage of the structure and function of the human nervous system. It also discusses normal motor development and motor control, as well as common treatment techniques in physical therapy. In order to be engaging to students, cases open each chapter, with questions about those cases appearing throughout the chapter. The text includes numerous tables, flow charts, illustrations, and multiple-choice board-style review questions and is enhanced by a roster of world-renowned clinical contributors.
Quick Reference Neuroscience for Rehabilitation Professionals is a concise and quick reference for the practitioner and student who are learning or reviewing the most relevant neuroscience principles supporting rehabilitation therapy. The updated Third Edition continues to meet a need in the rehabilitation profession that has gone unfilled--the ability to break down neuroscience information into the essential principles that can be used to understand neurological conditions and the principles underlying rehabilitation evaluation and practice. Quick Reference Neuroscience for Rehabilitation Professionals, Third Edition provides a quick review of a specific neuroscience concept or critical neuroscience principles supporting a specific rehabilitation intervention. In this era of information overload, this text rapidly and thoroughly provides condensed information in a user-friendly, easy-to-use format for the practitioner to better convey that information to a patient. Dr. Sharon Gutman has divided the text into three primary sections: the first addresses neuroanatomy; the second addresses the function of neurological systems underlying physical, psychiatric, cognitive, and visual perceptual disorders; and the final section addresses clinical neuropathology related to aging, addiction, memory, and the neurological substrates of sex and gender. A specific section describes the common neurodiagnostic tests that therapists do not administer but must have knowledge of when results are discussed at treatment team meetings.
Functional training develops the attributes and abilities required to perform tasks, skills and activities useful and relevant to daily life. Functional Exercise and Rehabilitation serves as an accessible and visual guide providing the essentials of therapeutic exercise and rehabilitation, including mobilization, stabilization and myofascial release. This book begins by explaining functional training and the foundation of the STRIVE approach. Chapter 2 introduces functional anatomy and Chapter 3 explains the fundamentals of neuroscience. The final chapters discuss the STRIVE principles and apply them to exercise, program design and injury recovery. Each chapter includes key point boxes, illustrations and photos of exercises discussed. Written by an exercise specialist and osteopath, this practical guide is presented in an easy-to-read style. Functional Exercise and Rehabilitation is essential reading for all health professionals, sports therapists and trainers involved in exercise prescription.
Authored by members of the British Bobath Tutors Association, Bobath Concept: Theory and Clinical Practice in Neurological Rehabilitationis a practical illustrated guide that offers a detailed exploration of the theoretical underpinning and clinical interventions of the Bobath Concept. The evolution of the Bobath concept is brilliantly captured in this volume. The recognition that the best inhibition may come from engaging the patient in normal activities is an example of the way one of the notions central to the original Bobath Concept has developed. In short, the Bobath Concept lies at the heart of an approach to neurorehabilitation that is ready to take advantage of the rapidly advancing understanding, coming from neuroscience, of brain function in, in particular, of the effects of and responses to damage, and the factors that may drive recovery. It is no coincidence that neuroplasticity figures so prominently in the pages that follow.’ Emeritus Professor Raymond Tallis BM BCh BA FRCP FMedSci LittD DLitt FRSA This book guides the reader through general principles to more specific application of neurophysiological principles and movement re-education in the recovery of important areas, including moving between sitting and standing, locomotion and recovery of upper limb function. Bobath Concept: Theory and Clinical Practice in Neurological Rehabilitationwill be invaluable to undergraduate and qualified physiotherapists /occupational therapists and all professionals working in neurological rehabilitation. Covers the theoretical underpinning of the Bobath Concept. Presents a holistic, 24-hour approach to functional recovery. Focuses on efficient movement and motor learning, to maximise function. Forges links between theory and clinical practice. Illustrated throughout.