Therapists, exercise physiologists, and physicians will find Exercise in Rehabilitation Medicine, Second Edition, a highly useful reference in designing exercise rehabilitation programs for patients with various disabling illnesses and conditions. This book provides an understanding of the basic physiological adaptations to exercise and aids health professionals in properly matching a training program with the impairment, activity, activity level, and participation goal appropriate for the patient.Written by the most distinguished rehabilitation clinicians in the field, Exercise in Rehabilitation Medicine, Second Edition, provides a comprehensive approach to the use of exercise as a primary modality in the arsenal of rehabilitation specialists. Thoroughly updated, this new edition focuses on the basic sciences and clinical correlates affecting the use of exercise, and it includes new chapters on the use of exercise in patients with HIV/AIDS, end-stage renal disease, and cancer recovery. It also includes the following features:Discussion of equipment and protocols used for testing the capacity of the patient, with specific reference to strength, endurance, flexibility, and balance12 clinical chapters, each including a case study that shows how the information applies to a specific patient, indicating the practical importance of the knowledge presentedMore than 200 tables, illustrations, and photos to reinforce and clarify the textSubject and citation indexes, along with extensive reference lists for each chapter, making it easy to access the information and explore subjects in greater depth.In part I, the focus is on biological considerations, including physiological responses to exercise and adaptations regarding strength, endurance, flexibility, balance, and coordination. Only by understanding these basic facts can a health professional properly match a training program with a patient. Part II details special clinical considerations, including the principles of exercise testing and exercise prescription and examining the role of exercise in preventing chronic illness. Part III discusses the rationale and clinical importance of exercise in the rehabilitation of patients with various disabling conditions, and it addresses the factors that must be weighed when prescribing exercise for these conditions. Among the diseases discussed in these 12 chapters are diseases of the heart, circulatory system, lungs, kidneys, joints, and bones and the endocrine, immune, and neuromuscular systems. Part IV includes two chapters on special populations: the elderly and elite athletes with disabilities.Exercise in Rehabilitation Medicine, Second Edition, combines theory with practical and clinical information, establishing both the “how” and “why” of exercise rehabilitation. Its clarity will help those with little technical expertise to follow it and put it to use, and its detail and advanced material will aid those who are experienced to significantly improve their understanding.
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Written by the most distinguished rehabilitation clinicians in the field, Exercise in Rehabilitation Medicine, Second Edition, provides a comprehensive approach to the use of exercise as a primary modality in the arsenal of rehabilitation specialists.
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Part I: Biological ConsiderationsChapter 1. Acute Physiological Responses to Dynamic ExerciseRoger A. Fielding, PhD; and Jonathan Bean, MD, MS Cardiorespiratory Response to Dynamic Exercise Metabolic Response During Dynamic Exercise   Acute Exercise Response in Diabetes Mellitus Cardiorespiratory Changes With Activity and Inactivity   Physiological Adjustments to Isometric ExerciseChapter 2. Adaptations to Endurance Exercise TrainingMartin D. Hoffman, MD Physiological Adaptations to Endurance Exercise Training   Psychological Adaptations to Endurance Exercise Training   Factors Affecting Adaptations to Endurance Exercise Training   Simultaneous Strength and Endurance Exercise TrainingChapter 3. Adaptations to Strength TrainingBette Ann Harris, DPT, MS; and Mary P. Watkins, DPT, MS Anatomical and Physiological Considerations   Functional Biomechanics   Factors Influencing Muscle Strength   Principles of Strength Training   Adaptations to Strength ConditioningChapter 4. Training FlexibilityLisa S. Krivickas, MD Definition of Flexibility   Factors Influencing Flexibility   Response of Muscle to Stretch   Relationship Between Muscle Stiffness and Flexibility   Measuring and Quantifying Muscle Flexibility and Ligamentous Laxity   Relationship Between Muscle Flexibility and Injury   Relationship Between Ligamentous Laxity and Injury   Effect of Stretching on Delayed Onset Muscle Soreness   Effect of Disease Processes on Flexibility   Relationship Between Flexibility and Athletic Performance   Flexibility and Activities of Daily Living in the Elderly or Disabled   Stretching Techniques and Prescription of a Flexibility Training Program   Effect of Strength Training on FlexibilityPart II: Special Clinical ConsiderationsChapter 5. Testing the Capacity to Exercise in Disabled Individuals: Cardiopulmonary and Neuromuscular ModelsJames C. Agre, MD, PhD Rationale for Health Screening and Risk Stratification   Rationale for Exercise Testing   Protocols for Exercise Testing, With ExamplesChapter 6. A Behavioral Approach to Prescribing Physical Activity for Health and FitnessGregory W. Heath, DHSc, MPH Preliminary Factors Important for Exercise Prescription   General Exercise Prescription Guidelines   Theories and Models Used in Physical Activity PromotionChapter 7. Exercise and the Prevention of Chronic Disabling IllnessCarlos J. Crespo, DrPH, MS, FACSM; and Edith M. Williams, MS Definitions   Physical Activity and Fitness   Physical Activity and Health   Physical Activity and Prevention of Heart Disease   Exercise and the Prevention of Type 2 Diabetes Exercise and Primary Prevention of Cancer   Physical Activity and the Prevention of Osteoporosis and Falls   Exercise in the Prevention of Arthritis   Exercise in the Prevention of Low Back Pain   Physical Activity and Primary Prevention of Obesity   Physical Activity and Psychological Well-BeingPart III: Exercise in the Rehabilitation of Specific Diseases and ConditionsChapter 8. Heart DiseasesRuy S. Moraes, MD, ScD; and Jorge P. Ribeiro, MD, ScD Responses and Adaptations of Cardiac Patients to Exercise   Effect of Cardiovascular Drugs on Exercise Responses and Adaptations   Evaluation of Cardiac Patients   Indications for Cardiac Rehabilitation   Contraindications for Cardiac Rehabilitation   Exercise Prescription for the Cardiac Patient   Outcomes of Cardiac Rehabilitation ProgramsChapter 9. Respiratory DiseaseBartolome R. Celli, MD Physical Reconditioning   Respiratory Muscles and Breathing TrainingChapter 10. Diabetes MellitusEdward S. Horton, MD What Is Diabetes?   Exercise in Type 1 Diabetes   Exercise in Type 2 DiabetesChapter 11. Major Inflammatory and Non-Inflammatory ArthritidesMaura Daly Iversen, SD, DPT, MPH; Matthew H. Liang, MD, MPH; and Axel Finckh, MD, MS Rheumatoid Arthritis   Osteoarthritis   Spondylarthropathies   Systemic Lupus Erythematosus   Polymyositis/Dermatomyositis   Systemic Sclerosis   Improving Patient AdherenceChapter 12. Neuromuscular DiseasesDavid D. Kilmer, MD; and Susan Aitkens, MS Physiologic and Functional Consequences of Neuromuscular Diseases   Causes of Reduced Neuromuscular Function in NMD   Effects of Resistance (Strengthening) Exercise in NMD   Effects of Aerobic (Endurance) Exercise in NMD   Exercise Recommendations in Neuromuscular DisordersChapter 13. Spinal Cord InjuryMark S. Nash, PhD, FACSM Health Consequences of Spinal Cord Injury   Exercise for Persons With Spinal Cord Injury   Restoration of Function Following Long-Standing Paralysis   Exercise Risks for Persons With Spinal Cord Injury   Medications That May Influence Exercise Performance After Spinal Cord InjuryChapter 14. StrokeJoel Stein, MD Scope of the Problem   Effects of Stroke on Neuromuscular Function   Mechanisms of Motor Recovery Poststroke   Exercise for Motor Control   Strengthening Exercises   Exercise for Ataxia   Exercise for Aerobic Conditioning   Other Benefits of Exercise   Home and Community Based ExerciseChapter 15. OsteoporosisDavid M. Slovik, MD Mechanical Properties of Bone: Effects of Exercise   Disuse, Weightlessness, and Immobilization Physical Activity and Bone Mass   Physical Activity, Fall Prevention, and FracturesChapter 16. Human Immunodeficiency VirusSusan D. Driscoll, MPH, MSN, ANP; and Steven Grinspoon, MD The HIV Pandemic   Exercise to Improve Physical Function in HIV-Infected Patients   Exercise to Improve Psychosocial and Quality of Life Issues in HIV   Exercise Effects on Immune Status and Lactic AcidChapter 17. ObesityRonenn Roubenoff, MD, MHS Health Implications of Obesity Body Composition Through the Life Cycle   Etiology of Obesity   Exercise for Treatment of Obesity   Effect of Exercise on Serum Lipoproteins and Glucose MetabolismChapter 18. CancerKerry S. Courneya, PhD; Lee W. Jones, PhD; and John R. Mackey, MD What Is Cancer?   Epidemiology of Cancer   Medical Treatments for Cancer   Exercise in Cancer Survivors   Exercise Testing and Prescription Guidelines for Cancer Survivors   Exercise Motivation in Cancer Survivors   Future Research DirectionsChapter 19. End-Stage Renal DiseasePelagia Koufaki, PhD; and Tom Mercer, PhD What is End-Stage Renal Disease?   Renal Replacement Therapy   Renal Transplantation   Scale and Nature of the Problem   Pathophysiology and Physical Dysfunction in End-Stage Renal Disease   Exercise Rehabilitation Aims   Feasibility and Safety of Exercise Rehabilitation Options in End-Stage Renal Disease   Exercise Prescription in End-Stage Renal Disease   Effectiveness of Exercise Rehabilitation in End-Stage Renal DiseasePart IV: Specific Patient PopulationsChapter 20. Aging, Function, and ExerciseJonathan F. Bean, MD, MS; and Charles T. Pu, MD The International Demographics of Aging   A Functional Perspective   Effects of Exercise on Physiologic Aging   Effect of Exercise on Function and Disability   Practical RecommendationsChapter 21. Elite Athletes With ImpairmentsRory A. Cooper, PhD; Michael L. Boninger, MD; Ian Rice, MS, OTR/L; Sean D. Shimada, PhD; and Rosemarie Cooper, MPT, ATP From Patient to Athlete   Organizational Structure of Sports for People With Disabilities   Sport Equipment Technology and Use   Classification   Exercise Science and the Athlete With Impairments   Training Techniques for Elite Athletes With Disabilities   Injuries Experienced by Athletes With Disabilities
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“This book is a complete, well-written work on the area of exercise and its role in rehabilitation.” Doody’s Review Service“I would recommend it be in every practitioner’s library and suspect it will be frequently referred to for both its factual information and references.” James A. Sliwa, DO (Rehabilitation Institute of Chicago) “…is a well-referenced, comprehensive text on the application of exercise science for specific rehabilitation populations.”Journal of Athletic Training (review of first edition)“…is an excellent resource for the clinical application of exercise in the patient with impaired function.”Journal of Athletic Training (review of first edition)
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Produktdetaljer

ISBN
9780736055413
Publisert
2005-12-16
Utgave
2. utgave
Utgiver
Vendor
Human Kinetics
Vekt
1315 gr
Høyde
279 mm
Bredde
216 mm
Aldersnivå
UF, P, 05, 06
Språk
Product language
Engelsk
Format
Product format
Innbundet

Biographical note

Walter R. Frontera, MD, PhD, is Earle P. and Ida S. Charlton professor and chairman of the department of physical medicine and rehabilitation (PM&R) at Harvard Medical School. He is the chief of PM&R at the Spaulding Rehabilitation Hospital, the Massachusetts General Hospital and the Brigham and Women's Hospital in Boston, Massachusetts. He is board-certified in the medical specialty of PM&R and has a PhD in exercise physiology. He has more than 20 years of experience in the practice of PM&R and in the use of exercise in various patient populations. He is the secretary general of the International Sports Medicine Federation and the editor in chief of the American Journal of Physical Medicine and Rehabilitation.

David M. Slovik, MD, is chief of medicine at Spaulding Rehabilitation Hospital in Boston, Massachusetts, where he has worked for 30 years. He has also served as medical director of the musculoskeletal program at Spaulding. Dr. Slovik trained in endocrinology at the Massachusetts General Hospital where he continues to teach and practice. He is an expert on osteoporosis and related disorders, including the effects of exercise on osteoporosis. He is also an associate professor of medicine at Harvard Medical School, with 30 years of teaching experience. He is a member of the American Society of Bone and Mineral Research.

David M. Dawson, MD, is professor of neurology at Harvard Medical School and a member of the Department of Neurology at the Brigham and Women's Hospital. He has extensive experience in teaching and in residency supervision and is an expert in clinical neurology with an emphasis on neuromuscular disease and multiple sclerosis. He has served on various boards of the National Multiple Sclerosis Society.