Biomechanics in Sports: Sports Biomechanics and Rehabilitation
( 24 Modules )

Module #1
Introduction to Sports Biomechanics
Overview of the field of sports biomechanics, its importance in sports performance and injury prevention

Module #2
Anatomy and Movement Fundamentals
Review of human anatomy and movement principles, including joint movement, muscle action, and movement patterns

Module #3
Biomechanical Principles of Movement
Application of mechanical principles to human movement, including kinematics, kinetics, and dynamics

Module #4
Measurement Tools in Biomechanics
Overview of measurement tools used in sports biomechanics, including 3D motion capture, force plates, and EMG

Module #5
Running Biomechanics
Analysis of running technique, including biomechanical factors influencing performance and injury risk

Module #6
Jumping and Landing Biomechanics
Analysis of jumping and landing techniques, including biomechanical factors influencing performance and injury risk

Module #7
Throwing Biomechanics
Analysis of throwing techniques, including biomechanical factors influencing performance and injury risk

Module #8
Injury Mechanisms and Prevention Strategies
Overview of common injuries in sports and biomechanical factors contributing to their occurrence, including prevention strategies

Module #9
Sports-Specific Biomechanics:Team Sports
Analysis of biomechanical factors influencing performance and injury risk in team sports such as soccer, basketball, and football

Module #10
Sports-Specific Biomechanics:Individual Sports
Analysis of biomechanical factors influencing performance and injury risk in individual sports such as tennis, golf, and swimming

Module #11
Rehabilitation Principles and Biomechanics
Overview of rehabilitation principles and the role of biomechanics in the rehabilitation process

Module #12
Biomechanical Analysis of Injuries:Lower Extremity
Detailed analysis of biomechanical factors contributing to lower extremity injuries, including knee, ankle, and foot injuries

Module #13
Biomechanical Analysis of Injuries:Upper Extremity
Detailed analysis of biomechanical factors contributing to upper extremity injuries, including shoulder, elbow, and wrist injuries

Module #14
Biomechanical Analysis of Injuries:Spine and Pelvis
Detailed analysis of biomechanical factors contributing to spine and pelvis injuries, including low back pain and sacroiliac joint dysfunction

Module #15
Biomechanical Interventions for Injury Prevention and Rehabilitation
Overview of biomechanical interventions for injury prevention and rehabilitation, including exercises, stretches, and equipment modifications

Module #16
Case Studies in Sports Biomechanics and Rehabilitation
Real-life case studies illustrating the application of sports biomechanics and rehabilitation principles in various sports and injuries

Module #17
Research Methods in Sports Biomechanics
Overview of research methods used in sports biomechanics, including study design, data collection, and data analysis

Module #18
Current Topics and Future Directions in Sports Biomechanics
Discussion of current topics and future directions in sports biomechanics, including emerging technologies and innovations

Module #19
Sports Biomechanics and Technology
Overview of the intersection of sports biomechanics and technology, including wearable sensors, motion capture systems, and data analytics

Module #20
Sports Biomechanics and Performance Enhancement
Discussion of how sports biomechanics can be used to enhance sports performance, including training methods and equipment design

Module #21
Sports Biomechanics and Injury Risk Screening
Overview of methods for screening athletes for injury risk using biomechanical assessments

Module #22
Sports Biomechanics and Return-to-Play Protocols
Discussion of the role of biomechanics in return-to-play protocols, including functional testing and movement assessment

Module #23
Sports Biomechanics and Concussions
Overview of the biomechanics of concussions, including causes, diagnosis, and rehabilitation

Module #24
Course Wrap-Up & Conclusion
Planning next steps in Biomechanics in Sports: Sports Biomechanics and Rehabilitation career

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Biomechanics in Sports: Sports Biomechanics and Rehabilitation ( 24 Modules )

Biomechanics in Sports: Sports Biomechanics and Rehabilitation
( 24 Modules )