Design and implement a rehab program on your own with Pathology and Intervention in Musculoskeletal Rehabilitation, 2nd Edition. Part of Magee's popular Musculoskeletal Rehabilitation Series, this pathology text for physical therapists provides clear guidance on patient management relative to specific musculoskeletal pathology, injury, and illness - all based on a sound understanding of basic science and principles of practice. It focuses on the specific pathologies most often seen in the clinic, and discusses the best methods for intervention for the different areas of the body in the context of the tissue-healing model. Each intervention features a rationale, along with the pathology and problem presented; stage of healing; evidence in the literature; and clinical reasoning considerations. Dedicated and focused information on the specific pathologies most often seen in the clinic, as well as the best methods for intervention for the different areas of the body, minimizes duplication of information by referring you to other titles in the Musculoskeletal Rehabilitation Series for basic scientific information regarding inflammation, healing, tissue deformation, and the development of muscular strength and endurance. Trusted experts in musculoskeletal rehabilitation, along with internationally recognized contributors, present the best evidence behind contemporary interventions directed toward the treatment of the impairments and functional limitations associated with acute, chronic, and congenital musculoskeletal conditions occurring across the lifespan. Evidence-based content, with over 4,000 references, supports the scientific principles for rehabilitation interventions, providing the best evidence for the management of musculoskeletal pathology and injury. NEW! The Skin and Wound Healing chapter looks at the numerous tools available to assist in objectively monitoring and treating a patient with an acute or chronic wound. NEW! Rotator Cuff Pathology chapter highlights the anatomy, function, and etiology of the rotary cuff, and addresses rotary cuff injuries, physical examination, and non-operative and operative treatment. UPDATED! Substantially revised chapter on the Thoracic Ring ApproachT facilitates clinical reasoning for the treatment of the thoracic spine and ribs through the assessment and treatment of thoracic spine disorders and how they relate to the whole kinetic chain. UPDATED! Revised Lumbar Spine - Treatment of Motor Control Disorders chapter explores some of the research evidence and clinical reasoning pertaining to instability of the lumbar spine so you can better organize your knowledge for immediate use in the clinical setting. UPDATED! Significantly revised chapter on the treatment of pelvic pain and dysfunction presents an overview of specific pathologies pertaining to the various systems of the pelvis - and highlights how "The Integrated Systems Model for Disability and Pain" facilitates evidence-based management of the often complex patient with pelvic pain and dysfunction. NEW! Musculoskeletal Bone and Soft Tissue Tumors chapter covers common bones tumors, anatomic considerations and rehabilitation, pediatric patients, and amputation related to cancer. UPDATED! Thoroughly revised chapters with additional references ensure you get the most recent evidence and information available. NEW! Full color design and illustration program reflects what you see in the physical world to help you recognize and understand concepts more quickly.
Musculoskeletal Rehabilitation, Volume 2: Scientific Foundations and Principles of Practice provides a thorough review of the basic science information concerning the tissues of the musculoskeletal system impacted by injury or disease, as well as the guiding principles upon which rehabilitation interventions are based. This volume divides information into two sections: scientific foundations and principles of intervention, providing readers with a guiding set of clinical foundations and principles upon which they can easily develop treatment interventions for specific impairments and functional limitations. Clinical application case studies help readers apply what they learn in the classroom to real life situations. Evidence-based content uses over 5,000 references to support the basic science information principles for rehabilitation interventions and provide the best evidence and physiological reasoning for treatment. Over 180 tables and 275 text boxes highlight key points within the text for better understanding. Expert editors David Magee, PhD, PT, James Zachazewski, DPT, SCS, ATC, Sandy Quillen, PT, PhD, SCS, FACSM and over 70 contributors provide authoritative guidance on the foundations and principles of musculoskeletal rehabilitation practice.
An ellipsis ( . . . ) is used to separate the opening and the closing lines of a classical novel. The reader must determine the correct title and author from three accurate choices. The answer is given on the following page.
Design and implement a rehab program on your own with Pathology and Intervention in Musculoskeletal Rehabilitation, 2nd Edition. Part of Magee’s popular Musculoskeletal Rehabilitation Series, this pathology text for physical therapists provides clear guidance on patient management relative to specific musculoskeletal pathology, injury, and illness — all based on a sound understanding of basic science and principles of practice. It focuses on the specific pathologies most often seen in the clinic, and discusses the best methods for intervention for the different areas of the body in the context of the tissue-healing model. Each intervention features a rationale, along with the pathology and problem presented; stage of healing; evidence in the literature; and clinical reasoning considerations. Dedicated and focused information on the specific pathologies most often seen in the clinic, as well as the best methods for intervention for the different areas of the body, minimizes duplication of information by referring you to other titles in the Musculoskeletal Rehabilitation Series for basic scientific information regarding inflammation, healing, tissue deformation, and the development of muscular strength and endurance. Trusted experts in musculoskeletal rehabilitation, along with internationally recognized contributors, present the best evidence behind contemporary interventions directed toward the treatment of the impairments and functional limitations associated with acute, chronic, and congenital musculoskeletal conditions occurring across the lifespan. Evidence-based content, with over 4,000 references, supports the scientific principles for rehabilitation interventions, providing the best evidence for the management of musculoskeletal pathology and injury.
Part of David J. Magee's Musculoskeletal Rehabilitation Series, Athletic and Sport Issues in Musculoskeletal Rehabilitation provides expert insight and clear rehabilitation guidelines to help you manage injuries and special medical needs unique to athletic clients. Contributions from leading physical therapists, athletic trainers, and orthopedic surgeons give you a comprehensive, clinically relevant understanding of common sports-related injuries and help you ensure the most effective therapeutic outcomes. Addresses a broad range of sports-related injuries and conditions Reinforces key concepts with highlighted content and hundreds of detailed illustrations Summarizes essential information for fast, easy reference in class or in clinical settings
Our intention has been to write a book that would be useful to people with a variety of levels of interest in this subject. Clearly it should be useful to both graduate students and workers in the field. We have attempted to bring together many of the concepts used in channeling beam analysis with an indication of the origin of the ideas within fundamental channeling theory. The level of the book is appropriate to senior under-graduates and graduate students who have had a modern physics course work in related areas of materials science and wish to learn more about the "channeling" probe, its strengths, weaknesses, and areas of further potential application. To them we hope we have explained this apparent paradox of using mega-electron volt ions to probe solid state phenomena that have characteristic energies of electron volts.
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