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Biomechanics of Injury, Third Edition, explains the biomechanical principles of injury and how injuries affect normal function of human anatomy. With hundreds of photos, illustrations, and tables, it guides readers through the mechanical concepts of injuries without heavy emphasis on mathematics.
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Biomechanics of Injury, Third Edition, explains the biomechanical principles of injury and how injuries affect normal function of human anatomy. With hundreds of photos, illustrations, and tables, it guides readers through the mechanical concepts of injuries without heavy emphasis on mathematics.
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Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: Human Kinetics Publishers
- Third Edition
- Seitenzahl: 360
- Erscheinungstermin: 3. März 2023
- Englisch
- Abmessung: 216mm x 279mm x 19mm
- Gewicht: 984g
- ISBN-13: 9781718201590
- ISBN-10: 1718201591
- Artikelnr.: 66997030
- Herstellerkennzeichnung
- Libri GmbH
- Europaallee 1
- 36244 Bad Hersfeld
- 06621 890
- Verlag: Human Kinetics Publishers
- Third Edition
- Seitenzahl: 360
- Erscheinungstermin: 3. März 2023
- Englisch
- Abmessung: 216mm x 279mm x 19mm
- Gewicht: 984g
- ISBN-13: 9781718201590
- ISBN-10: 1718201591
- Artikelnr.: 66997030
- Herstellerkennzeichnung
- Libri GmbH
- Europaallee 1
- 36244 Bad Hersfeld
- 06621 890
Ronald F. Zernicke, PhD, DSc, is a professor at the University of Michigan’s medical center (department of orthopedic surgery), school of kinesiology, and department of biomedical engineering. He is also the director of the University of Michigan Exercise & Sport Science Initiative. Before moving to Ann Arbor in 2007, Zernicke was a professor and the chair of the department of kinesiology at the University of California, Los Angeles (UCLA). At the University of Calgary he was a professor for joint injury research (department of surgery, Cumming School of Medicine), the dean of kinesiology (1998-2005), and a professor of engineering. Zernicke was the executive director of the Alberta Bone and Joint Health Institute and served as director of the Alberta Provincial CIHR training program in bone and joint health, a combined graduate program of the University of Calgary and University of Alberta. Zernicke has taught courses in biomechanics and injury mechanisms at the university level for more than 45 years. He received the UCLA Distinguished Teaching Award as well as the City of Calgary Community Achievement Award in Education. He has authored more than 545 peer-reviewed research publications and two books, including the first two editions of this book, which received the Preeminent Scholarly Publication Award from California State University at Northridge (CSUN) in 2002. Steven P. Broglio, PhD, is a professor of kinesiology and adjunct professor of neurology and of physical medicine and rehabilitation at the University of Michigan in Ann Arbor. Broglio completed his training at the University of Georgia, took his first faculty position at the University of Illinois at Urbana-Champaign, and has been at the University of Michigan since 2011. At Michigan, Broglio is the director of the Michigan Concussion Center and the NeuroTrauma Research Laboratory, where he oversees clinical care, educational outreach, and multidisciplinary research aimed at fundamental questions on concussion prevention, identification, diagnosis, management, and outcomes. His research has been supported by the National Athletic Trainers’ Association Research and Education Foundation, the National Institutes of Health, the National Collegiate Athletic Association, and the Department of Defense. Broglio was awarded the Early Career Investigator Award by the International Brain Injury Association as well as the Early Career and Outstanding Research awards by the National Athletic Trainers’ Association. He was awarded fellowship in the American College of Sports Medicine, National Athletic Trainers’ Association, and National Academy of Kinesiology. William C. Whiting, PhD, is a professor and codirector of the biomechanics laboratory in the department of kinesiology at California State University at Northridge (CSUN) and an adjunct professor in the department of physiological science at the University of California, Los Angeles (UCLA). He has taught undergraduate and graduate courses in biomechanics and human anatomy for more than 40 years. As an author and researcher, Whiting has written more than 60 research articles, abstracts, and book chapters as well as the book Dynamic Human Anatomy, Second Edition.
Part I. Introduction and Foundations
Chapter 1. Overview and Perspectives on Injury
Definition of Injury
Perspectives on Injury
Chapter 2. Classification, Structure, and Function of Biological Tissues
Embryology
Tissue Types
Arthrology
Chapter 3. Basic Biomechanics
Kinematics
Kinetics
Fluid Mechanics
Joint Mechanics
Material Mechanics
Biomechanical Modeling and Simulation
Part II. Tissue Mechanics and Injury
Chapter 4. Tissue Biomechanics and Adaptation
Biomechanics of Bone
Adaptation of Bone
Biomechanics and Adaptation of Other Connective Tissues
Biomechanics of Skeletal Muscle
Adaptation of Skeletal Muscle
Chapter 5. Concepts of Injury and Healing
Overview of Injury Mechanisms
Principles of Injury
Inflammation and Entrapment Conditions
Bone Injuries
Injuries to Other Connective Tissues
Skeletal Muscle
Joint Injuries
Nonmusculoskeletal Injuries
Part III. Regional Injuries
Chapter 6. Lower-Extremity Injuries
Hip Injuries
Thigh Injuries
Knee Injuries
Lower-Leg Injuries
Ankle and Foot Injuries
Chapter 7. Upper-Extremity Injuries
Shoulder Injuries
Upper-Arm Injuries
Elbow Injuries
Forearm Injuries
Wrist and Hand Injuries
Chapter 8. Head, Neck, and Trunk Injuries
Anatomy
Head Injuries
Neck Injuries
Trunk Injuries
Chapter 1. Overview and Perspectives on Injury
Definition of Injury
Perspectives on Injury
Chapter 2. Classification, Structure, and Function of Biological Tissues
Embryology
Tissue Types
Arthrology
Chapter 3. Basic Biomechanics
Kinematics
Kinetics
Fluid Mechanics
Joint Mechanics
Material Mechanics
Biomechanical Modeling and Simulation
Part II. Tissue Mechanics and Injury
Chapter 4. Tissue Biomechanics and Adaptation
Biomechanics of Bone
Adaptation of Bone
Biomechanics and Adaptation of Other Connective Tissues
Biomechanics of Skeletal Muscle
Adaptation of Skeletal Muscle
Chapter 5. Concepts of Injury and Healing
Overview of Injury Mechanisms
Principles of Injury
Inflammation and Entrapment Conditions
Bone Injuries
Injuries to Other Connective Tissues
Skeletal Muscle
Joint Injuries
Nonmusculoskeletal Injuries
Part III. Regional Injuries
Chapter 6. Lower-Extremity Injuries
Hip Injuries
Thigh Injuries
Knee Injuries
Lower-Leg Injuries
Ankle and Foot Injuries
Chapter 7. Upper-Extremity Injuries
Shoulder Injuries
Upper-Arm Injuries
Elbow Injuries
Forearm Injuries
Wrist and Hand Injuries
Chapter 8. Head, Neck, and Trunk Injuries
Anatomy
Head Injuries
Neck Injuries
Trunk Injuries
Part I. Introduction and Foundations
Chapter 1. Overview and Perspectives on Injury
Definition of Injury
Perspectives on Injury
Chapter 2. Classification, Structure, and Function of Biological Tissues
Embryology
Tissue Types
Arthrology
Chapter 3. Basic Biomechanics
Kinematics
Kinetics
Fluid Mechanics
Joint Mechanics
Material Mechanics
Biomechanical Modeling and Simulation
Part II. Tissue Mechanics and Injury
Chapter 4. Tissue Biomechanics and Adaptation
Biomechanics of Bone
Adaptation of Bone
Biomechanics and Adaptation of Other Connective Tissues
Biomechanics of Skeletal Muscle
Adaptation of Skeletal Muscle
Chapter 5. Concepts of Injury and Healing
Overview of Injury Mechanisms
Principles of Injury
Inflammation and Entrapment Conditions
Bone Injuries
Injuries to Other Connective Tissues
Skeletal Muscle
Joint Injuries
Nonmusculoskeletal Injuries
Part III. Regional Injuries
Chapter 6. Lower-Extremity Injuries
Hip Injuries
Thigh Injuries
Knee Injuries
Lower-Leg Injuries
Ankle and Foot Injuries
Chapter 7. Upper-Extremity Injuries
Shoulder Injuries
Upper-Arm Injuries
Elbow Injuries
Forearm Injuries
Wrist and Hand Injuries
Chapter 8. Head, Neck, and Trunk Injuries
Anatomy
Head Injuries
Neck Injuries
Trunk Injuries
Chapter 1. Overview and Perspectives on Injury
Definition of Injury
Perspectives on Injury
Chapter 2. Classification, Structure, and Function of Biological Tissues
Embryology
Tissue Types
Arthrology
Chapter 3. Basic Biomechanics
Kinematics
Kinetics
Fluid Mechanics
Joint Mechanics
Material Mechanics
Biomechanical Modeling and Simulation
Part II. Tissue Mechanics and Injury
Chapter 4. Tissue Biomechanics and Adaptation
Biomechanics of Bone
Adaptation of Bone
Biomechanics and Adaptation of Other Connective Tissues
Biomechanics of Skeletal Muscle
Adaptation of Skeletal Muscle
Chapter 5. Concepts of Injury and Healing
Overview of Injury Mechanisms
Principles of Injury
Inflammation and Entrapment Conditions
Bone Injuries
Injuries to Other Connective Tissues
Skeletal Muscle
Joint Injuries
Nonmusculoskeletal Injuries
Part III. Regional Injuries
Chapter 6. Lower-Extremity Injuries
Hip Injuries
Thigh Injuries
Knee Injuries
Lower-Leg Injuries
Ankle and Foot Injuries
Chapter 7. Upper-Extremity Injuries
Shoulder Injuries
Upper-Arm Injuries
Elbow Injuries
Forearm Injuries
Wrist and Hand Injuries
Chapter 8. Head, Neck, and Trunk Injuries
Anatomy
Head Injuries
Neck Injuries
Trunk Injuries