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Therapeutic Modalities for Musculoskeletal Injuries Fourth Edition [Hardback]

4.33/5 (3 ratings by Goodreads)
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  • Formāts: Hardback, 384 pages, height x width: 279x216 mm, weight: 1406 g
  • Izdošanas datums: 23-Nov-2015
  • Izdevniecība: Human Kinetics
  • ISBN-10: 1450469019
  • ISBN-13: 9781450469012
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  • Cena: 101,53 €
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Therapeutic Modalities for Musculoskeletal Injuries Fourth EditionPalielināt
  • Formāts: Hardback, 384 pages, height x width: 279x216 mm, weight: 1406 g
  • Izdošanas datums: 23-Nov-2015
  • Izdevniecība: Human Kinetics
  • ISBN-10: 1450469019
  • ISBN-13: 9781450469012
Citas grāmatas par šo tēmu:
Permanent link: https://www.kriso.lv/db/9781450469012.html
Keywords:
Therapeutic Modalities for Musculoskeletal Injuries, Fourth Edition With Online Video, offers comprehensive coverage of evidence-based therapies for rehabilitation of musculoskeletal injuries. The information aligns with the Board of Certifications Role Delineation Study/Practice Analysis, Sixth Edition, and the Commission on Accreditation of Athletic Training Educations Athletic Training Education Competencies, Fifth Edition, and is a vital resource for students preparing for examinations as well as professionals in the field who wish to stay informed of the latest research.

Therapeutic Modalities for Musculoskeletal Injuries, Fourth Edition, applies evidence-based research and clinical experiences of top practitioners in the field to optimize the care of musculoskeletal injuries and provides students and practitioners with solid fundamentals in development of rehabilitation programs. The content of this fourth edition has been significantly updated and revitalized to include all modalities that coincide with BOC requirements and offers the latest in contemporary science in the field. Further updates include the following:

New online video that corresponds to modalities discussed throughout the text, directly demonstrating how to apply techniques to individual patients

A new chapter on mechanobiology that provides new understanding of the effects of movement and activity on cell function

A new chapter on the application of exercise as a stimulus for tissue repair

Additional information on the principles and clinical applications of cold, heat, electrotherapy, laser, and ultrasound

Updated and revamped case studies and guided scenarios that apply all modalities found throughout the book to real-world situations

Therapeutic Modalities for Musculoskeletal Injuries, Fourth Edition With Online Video, contains many learning features to assist comprehension, including chapter objectives, key terms and a glossary, sidebars with clinical application of current concepts, and chapter summaries. Additionally, access to 21 online videos of applying modalities in clinical practice will help students better understand concepts from the text. For instructors, a robust set of ancillaries is provided, including a fully updated tesst package and instructor guide, as well as a newly added presentation package plus image bank to assist with lecture preparation.

Therapeutic Modalities for Musculoskeletal Injuries, Fourth Edition, explains how to apply each therapy and addresses why and when a therapeutic intervention can improve the outcome of care. Students and professionals alike will develop stronger decision-making skills when determining the safest and most effective use of each treatment method.

Recenzijas

"The book meets the needs of everyone from new students to long-time professionals by clearly explaining each concept in both basic terms and in-depth detail The inclusion of manual therapies, mechanical energy, and exercise as modalities is vital as these are emerging concepts in the healthcare and injury management fields. This book compares well with other books on therapeutic modalities, and is the most complete resource."

--Doody's Book Review

Papildus informācija

Featured at various sport medicine events throughout the UK and Europe including Physio First Conference and Physio. Reviews in UK and European websites, magazines and journals including international Therapist, Frontiine and BASES' The Sport and Exercise Scientist. Solus emails, inclusion in online newsletters and posted on Human Kinetics' Health and Fitness Blog.
Preface ix
Accessing the Online Video xi
Part I Principles of Therapeutic Modalities and Rehabilitation 1(54)
Chapter 1 Fundamentals of Therapeutic Modalities
3(16)
A Contemporary View
4(4)
Legal Aspects of Therapeutic Modality Application: Practice Acts and Negligent Treatment
8(3)
Rehabilitation Plan Of Care
11(5)
Summary
16(1)
Key Concepts and Review
17(2)
Chapter 2 Psychological Aspects of Injury and Rehabilitation
19(18)
Psychological Response to Injury
21(6)
Maximizing Compliance with a Rehabilitation Plan of Care
27(4)
Barriers to Successful Rehabilitation
31(2)
Psychological Impact of Persistent and Chronic Pain
33(2)
A Word About Placebo
35(1)
Summary
35(1)
Key Concepts and Review
36(1)
Chapter 3 Evidence-Based Application of Therapeutic Modalities
37(18)
Need for Evidence-Based Practice
39(1)
Finding and Assessing the Evidence
39(1)
Assessing
40(11)
Systematic Review and Practice Guidelines
51(1)
Summary
52(1)
Key Concepts and Review
53(2)
Part II Physiology of Pain and Injury 55(68)
Chapter 4 Tissue Healing
57(18)
Tissue and Injury
59(1)
Immediate Response to Injury
60(1)
Inflammation
61(4)
Macrophage Function
65(4)
Specific Healing of Tendon Tissue
69(3)
Summary
72(1)
Key Concepts and Review
73(2)
Chapter 5 Pain and Pain Relief
75(22)
What Is Pain?
77(1)
Transmission of the Pain Sensation
77(9)
When Pain Persists
86(1)
Sources of Pain
87(4)
Where and How Pain Sensitivity Increases
91(2)
Summary
93(1)
Key Concepts and Review
94(3)
Chapter 6 Clinical Management of Pain
97(26)
Pain and the Physical Exam
99(1)
Pain Assessment
100(2)
Pain Control Theories
102(7)
Treating Persistent Pain
109(4)
Diagnosis and Plan of Care Problems
113(5)
Treating Chronic Pain
118(1)
Summary
119(1)
Key Concepts and Review
120(3)
Part III Electrical Modalities and Nerve Stimulation 123(66)
Chapter 7 Principles of Electrical Modalities
125(18)
Basics of Electricity
126(2)
Types of Electrical Current
128(2)
Parameters of Electrical Stimulation
130(7)
Electrode Considerations
137(4)
Summary
141(1)
Key Concepts and Review
142(1)
Chapter 8 Clinical Application of Electrical Stimulation for Pain
143(20)
Transcutaneous Electrical Nerve Stimulation
145(11)
lontophoresis
156(4)
Microcurrent Electrical Nerve Stimulator for Wound Healing
160(1)
Summary
161(1)
Key Concepts and Review
162(1)
Chapter 9 Arthrogenic Muscle Inhibition and Clinical Applications of Electrical Stimulation and Biofeedback
163(26)
Integration of Components of Neuromuscular Control Into a Rehabilitation Plan
164(2)
Why is Neuromuscular Control Lost?
166(4)
Role of Therapeutic Modalities in Restoring Neuromuscular Control
170(1)
Muscle Reeducation
171(6)
Biofeedback
177(1)
Volitional Control and Biofeedback
177(2)
Restoring Control of Volitional Contraction
179(1)
Reflex Responses
180(1)
Functional Progression
181(3)
Learning Relaxation
184(1)
Summary
185(1)
Key Concepts and Review
186(3)
Part IV Cold and Superficial Heat Therapies 189(84)
Chapter 10 Principles of Cold and Superficial Heat
191(14)
Energy Transfer
193(1)
Cryotherapy
193(6)
Superficial Heat
199(2)
Contrast Therapy
201(1)
Summary
202(1)
Key Concepts and Review
203(2)
Chapter 11 Clinical Applications of Cold and Superficial Heat
205(20)
Cryotherapy
206(9)
Superficial Heat
215(5)
Contrast Therapy
220(1)
Summary
221(1)
Key Concepts and Review
222(1)
Ultrasound, Electromagnetic Fields, and Laser Therapies
223(2)
Chapter 12 Principles of Ultrasound and Diathermy
225(16)
Ultrasound
226(9)
Efficacy of Ultrasound Therapy For Musculoskeletal Conditions
235(1)
Diathermy and Pulsed Electromagnetic Fields
236(2)
Summary
238(1)
Key Concepts and Review
239(2)
Chapter 13 Clinical Application of Ultrasound and Diathermy
241(10)
Treatment with Therapeutic Ultrasound
242(4)
Treatment with Diathermy
246(1)
LIPUS and PEMF
247(2)
Summary
249(1)
Key Concepts and Review
250(1)
Chapter 14 Principles of Low-Level Laser Therapy
251(14)
Electromagnetic Energy
253(1)
Laser Production
254(1)
Properties of Laser Light
255(1)
Laser Classification
255(2)
Laser Parameter Selection
257(2)
Comparing Low-Level Laser Therapy Treatments
259(3)
Physiological Effect of Low-Level Laser Therapy
262(1)
Summary
263(1)
Key Concepts and Review
264(1)
Chapter 15 Clinical Application of Low-Level Laser Therapy
265(8)
Biological Effects Of Laser
266(1)
Application Techniques
266(2)
Indications for Low-Level Laser Therapy
268(2)
Safety Considerations
270(1)
Contraindications and Precautions
270(1)
Summary
271(1)
Key Concepts and Review
272(1)
Part VI Mechanobiology, Exercise, and Manual Therapies 273(52)
Chapter 16 Mechanobiology
275(16)
Endocrine Interaction
276(1)
Mechanical Signaling
277(1)
Extracellular Matrix Composition and Function
278(2)
Integrin Activation and Focal Adhesion Formation
280(4)
Mechanobiology In Muscle
284(1)
Mechanobiology in Tendon
285(1)
Mechanobiology in Articular Cartilage
286(1)
Mechanobiology in Bone
287(1)
Summary
288(1)
Key Concepts and Review
289(2)
Chapter 17 Applications of Exercise and Manual Therapy to Promote Repair
291(12)
Exercise for Repair in Tendinopathy
293(4)
Exercise for Repair in Muscle Tissue
297(1)
Exercise for Repair in Bone
298(2)
Massage Therapy as Repair Stimulus
300(1)
Deep Friction Massage as a Repair Stimulus
300(1)
Summary
301(1)
Key Concepts and Review
302(1)
Chapter 18 Mechanical Energy and Manual Therapies
303(22)
Manual Therapy
305(8)
Is Manual Therapy Effective?
313(2)
Traction
315(5)
Intermittent Compression
320(1)
Are Traction and Intermittent Compression Effective Therapies?
321(1)
Summary
322(1)
Key Concepts and Review
323(2)
Part VI Putting it All Together 325(12)
Chapter 19 Case Scenarios
327(10)
Case Scenario 1: Neck Pain
328(1)
Case Scenario 2: Elbow Injury
329(1)
Case Scenario 3: Ankle Injury
330(1)
Case Scenario 4: Rib Pain
331(1)
Case Scenario 5: ACL Reconstruction Surgery
332(1)
Case Scenario 6: Achilles Pain
333(1)
Case Scenario 7: Osteoarthritis
334(1)
Summary
335(2)
Glossary 337(6)
References 343(22)
Index 365(6)
About the Authors 371(1)
About the Contributors 372
Craig R. Denegar, PhD, PT, ATC, FNATA, is a professor in the department of kinesiology and director of the doctor of physical therapy program at the University of Connecticut. He has more than 30 years of experience as an athletic trainer and physical therapist and has extensive clinical practice experience related to persistent orthopedic pain.

Denegar is a member of the National Athletic Trainers' Association (NATA) and the American Physical Therapy Association. He is editor in chief of the Journal of Athletic Training and serves on the editorial boards of the Journal of Sport Rehabilitation, Journal of Strength and Conditioning Research, and Open Access Journal of Sport Medicine. He is the former vice chair of free communications on the NATA Research and Education Foundation's Research Committee and was the 2003 recipient of the William G. Clancy Medal for Distinguished Athletic Training Research and the 2004 Distinguished Merit Award from the Pennsylvania Athletic Trainers' Society. Denegar was elected a fellow of the NATA in 2011 and recognized as a Most Distinguished Athletic Trainer by the NATA in 2014.

Ethan Saliba, PhD, ATC, PT, has been teaching therapeutic modalities at the University of Virginia at Charlottesville for over 25 years. He is the head athletic trainer and associate athletics director for sports medicine, and he oversees 25 varsity sports. Saliba is a certified athletic trainer, licensed physical therapist, and sport-certified specialist who has written extensively on various aspects of athletic injuries and rehabilitation. Saliba was honored as the NATA Head Athletic Trainer of the Year in 2007.

Susan Foreman Saliba, PhD, ATC, PT, is an associate professor in the Curry School of Education at the University of Virginia at Charlottesville. She has over 20 years of clinical experience and taught therapeutic modalities during that time. Susan is a member of both the NATA and the American Physical Therapy Association (APTA) and has served on the NATA Educational Executive Committee and the Free Communications Committee of the NATA Research and Education Foundation. She is conducting research on the clinical application of therapeutic modalities.

About the Contributors

Michael Joseph, PhD, PT, is an assistant professor in the department of kinesiology physical therapy program at the University of Connecticut. Joseph has more than 15 years of clinical experience as a physical therapist specializing in sports medicine and is a consultant for many professional and collegiate teams. He is a member of the American Physical Therapy Association and is on the editorial board of the Journal of Strength and Conditioning Research and the World Journal of Orthopedics. Joseph teaches clinical and musculoskeletal pathology, mechanobiology, and musculoskeletal evaluation and treatment. His focus of research is the adaptation of connective tissue to physiological loading.

Kavin Tsang, PhD, ATC, is an associate professor in the department of kinesiology at California State University at Fullerton. He is an active member of the National Athletic Trainers' Association (NATA) and an athletic trainer certified by the Board of Certification. His clinical experiences encompass physical therapy clinics, high school athletics, collegiate intramural programs, and intercolleegiate athletics. He has been teaching therapeutic modalities in various athletic training education curricula for over 14 years. Tsang serves on the NATA Research and Education Foundation (NATA REF) Board of Directors, NATA REF Free Communications Committee, NATA Convention Program Committee, and FWATA Education Program Committee. He is also chair of the Far West Athletic Trainers' Association (FWATA) Research and Grants Committee.