The third edition of this monograph continues to have the goal of providing an overview of current thought about the spinal cord mechanisms that are responsible for sensory processing. We hope that the book is of value to both basic and clinical neuroscientists. Several changes have been made in the presentation, as well as additions because of the research advances that have been made during the past decade. Chapters 3 and 4 in the previous edition have been subdivided, and now the morphology of primary afferent neu rons of the dorsal root ganglia is described in Chapter 3 and the chemical neuroanatomy of these neurons in Chapter 4. The description of the dorsal horn in the previous Chapter 4 is now included in Chapter 5, and the chemical neuroanatomy of the dorsal horn in Chapter 6. Furthermore, discussions of the descending control systems have now been consolidated at the end of Chapter 12. The authors would like to express their appreciation for the help provided by several individuals. R.E.C. wishes to acknowledge the many things he learned about primary afferent neurons from conversations with Dr S. N. Lawson. He also thanks Lyn Shilling for her assistance with the typing. WDW thanks Dr Nada Lawand for her critical reading of parts of the manuscript, Rosaline Leigh for help with the manuscript, and Griselda Gonzales for preparing the illustrations.
Pain is a subject of significant scientific and clinical interest. This has resulted both from realistic rodent models, and the publication of imaging, psychological and pharmacological studies in humans. Investigators studying rodents refer to anatomical and physiological studies in non-human primates to make their results relevant to humans. Psychophysical and pharmacological studies in humans are interpreted in terms of anatomical and physiological studies in animals; primarily evidence from rodents and cats. There are significant differences in pain mechanisms between these species and primates. Over 20 years of imaging studies have demonstrated the activation of human cortical and subcortical structures in response to painful stimuli. Interpretation of these results relies upon an understanding of the anatomy and physiology of these structures in primates. Jones, Lenz, Casey and Willis review the anatomy and physiology of nociception in monkeys and humans, and provide a firm basis for interpreting studies in humans.
The definitive, A-to-Z overview of evidence-based rehab programs using therapeutic exercise In this exceptional evidence-and-guide-based, clinically-oriented resource, you'll learn everything you need to know about the design, implementation, and supervision of therapeutic exercise programs for orthopedic injuries and disorders. The book's logical five-part organization begins with an instructive look at the foundations of the rehabilitation process, then covers the treatment of physiologic impairments during rehabilitation; rehabilitation tools; intervention strategies; and special considerations for specific patient populations. Features Helpful review of the foundations of the rehabilitation process, thorough coverage of managing the healing process through rehabilitation, and an algorithm-based approach to musculoskeletal rehabilitation Complete survey of rehabilitation tools, from isokinetics, aquatic therapy, and orthotics, to a four-step clinical model for the essentials of functional exercise Full chapters on functional progressions and functional testing and unique coverage of core stabilization training, impaired function, and impaired muscular control Unique coverage of a functional movement screen A practical system for history-taking and scanning Unique coverage of how to treat special segments of the population, including geriatric and pediatric patients, amputees, and the active female An easy-to-follow body region approach to intervention strategies Handy appendices covering the American College of Sports Medicine position statements on strength training and fitness development An abundance of study-enhancing illustrations, plus clinical pearls and protocols designed to speed clinical decision making
The definitive resource for designing and implementing evidence-based rehabilitation programs using therapeutic exercise Written and edited by top experts in their fields, Musculoskeletal Interventions provides the rehabilitation techniques, strategies, and considerations you need to effectively treat patients of all ages, abilities, and functional levels. With expanded coverage of movement systems, along with clinical pearls and hundreds of illustrations, this edition has been fully revised to reflect a contemporary movement system approach patient care. It focuses on the practical application of theory in a clinical setting, making it ideal for students and experienced physical therapists alike. Designed to make finding what you need quickly and easily, Musculoskeletal Interventions is organized into five sections: Foundations of the Rehabilitation Process Introduces the human movement system, the Guide to Physical Therapist Practice, and the clinical reasoning process Provides grounding on tissue healing, the Neuromuscular Scan Examination, pain, posture, and function Treating Physiologic Impairments During Rehabilitation Details general impairments that require attention throughout the rehabilitation process Covers muscle performance, endurance and aerobic capacity, mobility, range of motion, and neuromuscular control Tools of Rehabilitation Explains how to achieve optimal outcomes using various tools, including plyometric exercise, open- and closed-kinetic chain interventions, proprioceptive neuromuscular facilitation techniques, joint mobilization, postural stability and balance interventions, core stabilization training, aquatic therapy, functional movement screening, and more Interventions Strategies for Specific Regions Describes applications of techniques and interventions related to common movement-based, overuse, traumatic, and postoperative musculoskeletal dysfunction Provides guidance on conditions common to the shoulder complex, elbow, wrist, hand, digits, groin, hip, thigh, knee, lower leg, ankle, foot, and spine Discusses pathomechanics and injury mechanisms while focusing on rehabilitation strategies and concerns for specific injuries and providing example protocols Special Considerations for Specific Patient Populations Provides application of all previous intervention strategies and how these may need to be selected, adapted, and utilized for geriatric patients, pediatric patient, and physically active females Musculoskeletal Interventions is filled with features that help you understand and retain critical information. Learning aids include objectives, tales, clinical pearls, figures, video links, summary points, chapter-ending treatment guidelines, and references.
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