Clinical Biomechanics for Rehabilitation
( 30 Modules )

Module #1
Introduction to Clinical Biomechanics
Definition, importance, and applications of biomechanics in rehabilitation

Module #2
Anatomy and Movement Analysis
Review of human anatomy, joint movements, and movement patterns

Module #3
Biomechanical Principles
Understanding forces, torque, and motion in the human body

Module #4
Gait Analysis
Understanding normal and abnormal gait patterns, including kinematics and kinetics

Module #5
Posture and Balance
Biomechanics of posture, balance, and coordination in rehabilitation

Module #6
Spinal Biomechanics
Understanding spinal mechanics, including flexion, extension, and rotation

Module #7
Upper Extremity Biomechanics
Biomechanics of the shoulder, elbow, and wrist, including joint movements and pathologies

Module #8
Lower Extremity Biomechanics
Biomechanics of the hip, knee, and ankle, including joint movements and pathologies

Module #9
Exercise and Movement for Rehabilitation
Applying biomechanical principles to exercise and movement in rehabilitation

Module #10
Muscle Physiology and Strength
Understanding muscle physiology and strength in rehabilitation

Module #11
Clinical Assessment Techniques
Using biomechanical principles in clinical assessment, including observation, palpation, and measurement

Module #12
Injury Prevention and Management
Applying biomechanical principles to injury prevention and management

Module #13
Case Studies in Orthopedic Rehabilitation
Applying biomechanical principles to real-life cases in orthopedic rehabilitation

Module #14
Biomechanics of Neurological Rehabilitation
Applying biomechanical principles to neurological rehabilitation, including stroke and spinal cord injury

Module #15
Biomechanics of Pediatric Rehabilitation
Applying biomechanical principles to pediatric rehabilitation, including developmental disorders and congenital conditions

Module #16
Biomechanics of Sports Injury Rehabilitation
Applying biomechanical principles to sports injury rehabilitation, including acute and chronic injuries

Module #17
Technology in Clinical Biomechanics
Using technology, including 3D motion analysis and electromyography, in clinical biomechanics

Module #18
Evidence-Based Practice in Clinical Biomechanics
Applying evidence-based practice to clinical biomechanics, including research design and critical appraisal

Module #19
Cultural Competence in Clinical Biomechanics
Considering cultural competence in clinical biomechanics, including working with diverse populations

Module #20
Ethical Considerations in Clinical Biomechanics
Understanding ethical considerations in clinical biomechanics, including confidentiality and informed consent

Module #21
Interprofessional Collaboration in Clinical Biomechanics
Working with other healthcare professionals in clinical biomechanics, including communication and teamwork

Module #22
Capstone Project in Clinical Biomechanics
Applying knowledge and skills in a comprehensive capstone project

Module #23
Special Topics in Clinical Biomechanics
Exploring special topics in clinical biomechanics, including emerging trends and advanced techniques

Module #24
Biomechanics in Special Populations
Applying biomechanical principles to special populations, including older adults and individuals with disabilities

Module #25
Biomechanics in Orthotics and Prosthetics
Applying biomechanical principles to orthotics and prosthetics, including device design and fitting

Module #26
Biomechanics in Sports Equipment
Applying biomechanical principles to sports equipment, including footwear and protective gear

Module #27
Biomechanics in Ergonomics
Applying biomechanical principles to ergonomics, including workplace safety and design

Module #28
Biomechanics in Research and Development
Applying biomechanical principles to research and development, including device design and testing

Module #29
Biomechanics in Education and Training
Applying biomechanical principles to education and training, including exercise programming and injury prevention

Module #30
Course Wrap-Up & Conclusion
Planning next steps in Clinical Biomechanics for Rehabilitation career

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Clinical Biomechanics for Rehabilitation ( 30 Modules )

Clinical Biomechanics for Rehabilitation
( 30 Modules )