Global Certificate in Orthopedic Biomechanics Applications: High-Performance
-- ViewingNowThe Global Certificate in Orthopedic Biomechanics Applications: High-Performance course is a comprehensive program designed to equip learners with essential skills in the biomechanics of orthopedic applications. This course is critical for professionals seeking to advance their knowledge and skills in the field, as it provides a deep understanding of the biomechanical principles that underpin orthopedic devices and procedures.
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⢠Fundamentals of Orthopedic Biomechanics: An introduction to the principles and concepts of orthopedic biomechanics, including the structure and function of bones, joints, and muscles. This unit will cover the basics of biomechanical analysis and testing methods.
⢠Kinematics and Dynamics in Orthopedics: This unit will focus on the kinematics and dynamics of human motion, with an emphasis on orthopedic applications. Topics include the measurement of joint angles, moments, and forces, as well as the analysis of gait and other functional movements.
⢠Material Properties and Testing in Orthopedics: An exploration of the material properties of bones, joints, and implants, including the use of mechanical testing to evaluate their performance. This unit will cover the principles of material selection and design for orthopedic devices.
⢠Computational Modeling in Orthopedic Biomechanics: This unit will introduce the use of computational modeling to simulate orthopedic biomechanics. Topics will include the creation and validation of finite element models, as well as the use of optimization techniques to improve device performance.
⢠Musculoskeletal Modeling and Simulation: An in-depth look at the use of musculoskeletal modeling and simulation to study orthopedic biomechanics. Topics will include the development of subject-specific models, the evaluation of muscle and joint forces, and the analysis of movement patterns.
⢠High-Performance Computing in Orthopedic Biomechanics: An exploration of the latest advances in high-performance computing for orthopedic biomechanics. Topics will include the use of parallel processing, cloud computing, and other techniques to accelerate computational models and simulations.
⢠Clinical Applications of Orthopedic Biomechanics: This unit will cover the clinical applications of orthopedic biomechanics, including the use of biomechanical testing and simulation to inform surgical planning, device design, and patient care. Topics will include the
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