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| SCIENTIFIC FOUNDATIONS AND PRINCIPLES OF PRACTICE IN MUSCULOSKELETAL REHABILITATION
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By
David Magee, PhD, BPT, Professor and Associate Dean, Department of Physical Therapy, Faculty of Rehabilitation Medicine, University of Alberta, Edmonton, Alberta, Canada
James Zachazewski, DPT, SCS, ATC, Clinical Director, MGH Sports Medicine, Massachusetts General Hospital, Boston, MA; Assistant Adjunct Clinical Professor, MGH Institute of Health Professions, Charlestown, MA
William Quillen, PT, PhD, SCS, FACSM, Professor and Associate Dean, College of Medicine; Director, School of Physical Therapy and Rehabilitation Sciences, University of South Florida, Tampa, FL, USA
Description
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.
Contents
SECTION I. SCIENTIFIC FOUNDATIONS
1. Injury, Inflammation, and Repair: Tissue Mechanics, the Healing Process,
and Their Impact on the Musculoskeletal System
2. Ligament Injuries: Pathophysiology, Healing, and Treatment Considerations
3.
Tendon Pathology and Injuries: Pathophysiology, Healing and Treatment Considerations
4. Adaptability of Skeletal Muscle: Response
to Increased and Decreased Use
5. Skeletal Muscle: Deformation, Injury and Repair, and Treatment Considerations
6. Bone
Biology and Mechanics
7. Cartilage of Human Joints and Related Structures
8. Peripheral Nerve: Structure, Function, and
Physiology
9. Articular Neurophysiology and Sensorimotor Control
10. Pain: Perception and Mechanisms
11. Physiological
Basis of Physical Agents
12. Pharmacology and Its Impact on the Rehabilitation Process
13. Effects of Aging-Growth Changes
and Lifespan Concerns (0-40)
14. Effects of Aging: Growth Changes and Lifespan Concerns Ages 40+
SECTION II. PRINCIPLES
OF PRACTICE
15. Rehabilitation Program Development: Clinical Decision Making, Prioritization, and Program Integration
16.
Clinician?s Roles in Health Promotion, Wellness, and Physical Fitness
17. Physiological Principles of Conditioning for the Injured
and Disabled
18. Principles of Neuromuscular Control for Injury Prevention and Rehabilitation
19. Principles of Stabilization
and Training
20. Integration of the Cardiovascular System in Assessment and Interventions in Musculoskeletal Rehabilitation
21.
Physiological Principles of Resistance Training And Functional Integration For The Injured and Disabled
22. Psychology of the
Injured Patient
23. Integration of Stresses and their Relationship To The Kinetic Chain
24. Arthrokinematics and Mobilization
of Musculoskeletal Tissue: The Principles
25. Range of Motion and Flexibility
26. The Utility of Orthopaedic Clinical
Tests for Diagnosis
27. Imaging Joints and Musculoskeletal Tissue: Pathoanatomic Considerations
28. Fracture Management
29.
Functional Testing and Return to Activity
| Bibliographic details |
Hardbound, 720 pages, publication date: FEB-2007
ISBN-13: 978-1-4160-0250-5
ISBN-10: 1-4160-0250-2
Imprint: SAUNDERS
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999/999
Last update: 10 Sep 2009
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