Biomechanics in Orthopedic Rehabilitation
( 25 Modules )

Module #1
Introduction to Biomechanics
Defining biomechanics, importance in orthopedic rehabilitation, and historical context

Module #2
Anatomy and Kinesiology Review
Review of musculoskeletal anatomy and kinesiology principles relevant to biomechanics

Module #3
Force and Motion
Understanding force, motion, and Newtons laws as they apply to human movement

Module #4
Biomechanical Principles of Movement
Analysis of joint movement, range of motion, and kinematic chains

Module #5
Muscle Physiology and Biomechanics
Understanding muscle function, strength, and endurance in relation to movement

Module #6
Neuromuscular Control and Biomechanics
The role of the nervous system in controlling movement and maintaining posture

Module #7
Gait Analysis
Assessing and understanding normal and abnormal gait patterns

Module #8
Biomechanics of the Upper Extremity
Analysis of shoulder, elbow, forearm, and hand function

Module #9
Biomechanics of the Lower Extremity
Analysis of hip, knee, ankle, and foot function

Module #10
Spinal Biomechanics
Understanding the biomechanics of the spine, including posture, movement, and loading

Module #11
Rehabilitation of the Upper Extremity
Applying biomechanical principles to rehabilitation of the shoulder, elbow, forearm, and hand

Module #12
Rehabilitation of the Lower Extremity
Applying biomechanical principles to rehabilitation of the hip, knee, ankle, and foot

Module #13
Rehabilitation of the Spine
Applying biomechanical principles to rehabilitation of the spine, including posture, movement, and loading

Module #14
Biomechanical Analysis of Orthopedic Injuries
Understanding the biomechanical factors contributing to common orthopedic injuries

Module #15
Biomechanical Analysis of Orthopedic Surgeries
Understanding the biomechanical principles underlying common orthopedic surgeries

Module #16
Outcome Measures in Biomechanics
Understanding and using outcome measures to assess biomechanical function and rehabilitation progress

Module #17
Biomechanical Research Methods
Understanding research design, data collection, and analysis in biomechanics research

Module #18
Clinical Application of Biomechanics in Orthopedic Rehabilitation
Case studies and group discussions of applying biomechanical principles in clinical practice

Module #19
Biomechanics and Orthotics/Prosthetics
Understanding the biomechanical principles underlying orthotic and prosthetic devices

Module #20
Biomechanics and Sports Performance
Applying biomechanical principles to enhance sports performance and reduce injury risk

Module #21
Biomechanics and Ergonomics
Understanding the biomechanical principles underlying ergonomic design and injury prevention

Module #22
Biomechanical Modeling and Simulation
Introduction to biomechanical modeling and simulation techniques

Module #23
Advanced Biomechanical Analysis
Using advanced biomechanical analysis techniques, including 3D motion capture and force plates

Module #24
Current Topics in Biomechanics Research
Review of current research in biomechanics, including cutting-edge techniques and applications

Module #25
Course Wrap-Up & Conclusion
Planning next steps in Biomechanics in Orthopedic Rehabilitation career

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Biomechanics in Orthopedic Rehabilitation ( 25 Modules )

Biomechanics in Orthopedic Rehabilitation
( 25 Modules )