Module #1 Introduction to Biomechanical Modeling and Simulation Overview of biomechanical modeling and simulation, its importance, and applications in healthcare and medical research.
Module #2 Fundamentals of Biomechanics Review of fundamental concepts in biomechanics, including kinematics, kinetics, and dynamics.
Module #3 Mathematical Modeling of Biological Systems Introduction to mathematical modeling of biological systems, including ordinary differential equations (ODEs) and partial differential equations (PDEs).
Module #4 Introduction to Finite Element Method (FEM) Basics of the finite element method (FEM) and its application to biomechanical problems.
Module #5 Mesh Generation and Preprocessing Techniques for generating and preprocessing finite element meshes for biomechanical simulations.
Module #6 Material Properties and Constitutive Models Overview of material properties and constitutive models used in biomechanical simulations.
Module #7 musculoskeletal Modeling and Simulation Introduction to musculoskeletal modeling and simulation, including muscle forces, joint dynamics, and movement analysis.
Module #8 Cardiovascular Modeling and Simulation Introduction to cardiovascular modeling and simulation, including blood flow, pressure, and vessel mechanics.
Module #9 Respiratory Modeling and Simulation Introduction to respiratory modeling and simulation, including lung mechanics and gas exchange.
Module #10 Biomechanics of Soft Tissues Introduction to biomechanics of soft tissues, including skin, muscles, and organs.
Module #11 Biomechanics of Hard Tissues Introduction to biomechanics of hard tissues, including bone and dental structures.
Module #12 Simulation of Surgical Interventions Simulation of surgical interventions, including virtual surgery and surgical planning.
Module #13 Biomechanical Modeling of Medical Devices Biomechanical modeling of medical devices, including implants, prosthetics, and orthotics.
Module #14 Validation and Verification of Biomechanical Models Methods for validating and verifying biomechanical models, including experimental and computational techniques.
Module #15 Computational Fluid Dynamics (CFD) in Biomechanics Introduction to computational fluid dynamics (CFD) and its application to biomechanical simulations.
Module #16 Multi-Scale Modeling of Biological Systems Introduction to multi-scale modeling of biological systems, including molecular, cellular, and tissue scales.
Module #17 Image-Based Modeling and Simulation Introduction to image-based modeling and simulation, including medical imaging and image processing.
Module #18 Machine Learning and Artificial Intelligence in Biomechanics Introduction to machine learning and artificial intelligence in biomechanics, including data analysis and prediction.
Module #19 Biomechanical Modeling in Disease Diagnosis and Treatment Applications of biomechanical modeling in disease diagnosis and treatment, including personalized medicine.
Module #20 Regulatory and Clinical Applications of Biomechanical Modeling Regulatory and clinical applications of biomechanical modeling, including medical device development and approval.
Module #21 Biomechanical Modeling in Sports and Rehabilitation Applications of biomechanical modeling in sports and rehabilitation, including injury prevention and treatment.
Module #22 Biomechanical Modeling in Neurology and Neuroscience Applications of biomechanical modeling in neurology and neuroscience, including brain mechanics and neurodegenerative diseases.
Module #23 Biomechanical Modeling in Orthopedics and Osteoporosis Applications of biomechanical modeling in orthopedics and osteoporosis, including bone fracture and osteoporotic diseases.
Module #24 Biomechanical Modeling in Cancer Research and Treatment Applications of biomechanical modeling in cancer research and treatment, including tumor mechanics and cancer therapy.
Module #25 Biomechanical Modeling in Ophthalmology Applications of biomechanical modeling in ophthalmology, including eye mechanics and vision correction.
Module #26 Biomechanical Modeling in Hearing and Audiology Applications of biomechanical modeling in hearing and audiology, including auditory mechanics and hearing loss.
Module #27 Biomechanical Modeling in Dermatology Applications of biomechanical modeling in dermatology, including skin mechanics and skin diseases.
Module #28 Biomechanical Modeling in Urology Applications of biomechanical modeling in urology, including urinary tract mechanics and urological diseases.
Module #29 Biomechanical Modeling in Gastroenterology Applications of biomechanical modeling in gastroenterology, including gastrointestinal mechanics and gastrointestinal diseases.
Module #30 Course Wrap-Up & Conclusion Planning next steps in Biomechanical Modeling and Simulation career
