Human Orthopaedic Biomechanics

Human Orthopaedic Biomechanics

Fundamentals, Devices and Applications

Innocenti, Bernardo; Galbusera, Fabio

Elsevier Science Publishing Co Inc

02/2022

758

Mole

Inglês

9780128244814

15 a 20 dias

1560

Descrição não disponível.
1. Introduction: From Mechanics to Biomechanics 2. Mechanical Properties of Biological Tissues 3. Orthopaedic Biomechanics: Stress Analysis 4. Orthopaedic Biomechanics: Multibody Analysis 5. Fundamentals of Mechanobiology 6. Bone Biomechanics 7. Muscle Biomechanics 8. Ligaments and Tendons Biomechanics 9. Cartilage Biomechanics 10. Meniscus Biomechanics 11. Intervertebral Disc Biomechanics 12. Biomechanics of the Hip Joint 13. Biomechanics of the Knee Joint 14. Biomechanics of the Spine 15. Biomechanics of the Shoulder Joint 16. Biomechanics of the Ankle Joint 17. Biomechanics of Wrist and Elbow 18. Biomaterials and Biocompatibility 19. Hip Prosthesis: Biomechanics and Design 20. Knee Prosthesis: Biomechanics and Design 21. Spinal Implants: Biomechanics and Design 22. Shoulder Prosthesis: Biomechanics and Design 23. Devices for Traumatology: Biomechanics and Design 24. Regeneration and Repair of Ligaments and Tendons 25. Biomechanical Requirements for Certification and Quality in Medical Devices 26. Clinical Evaluation of Orthopaedic Implants 27. Computer-Assisted Orthopaedic Surgery 28. Experimental Orthopaedic Biomechanics 29. Challenges in the Anatomical Modeling of the Musculoskeletal System 30. Joint Kinematics Through Instrumented Motion Analysis 31. Fluoroscopy 32. Finite Element Analysis in Orthopaedic Biomechanics 33. Rigid-Body and Musculoskeletal Models 34. The Use of Computational Models in Orthopaedic Biomechanical Research
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3D printing; Aging; Anode; Articular cartilage; Artificial disks; Biocompatibility; Biomaterials; Biomechanical signaling; Biomechanics; Biphasic theory; Body weight; Bone; Bone tissue engineering; Cartilage; Cartilaginous; Cells and nutrition; Cervical fixation; Charge-coupled device; Compressive test; Critical material selection; Deformity correction; Degeneration; Density; Digital image correlation; Dynamic loading; Dynamic mechanical analysis; Electromechanical effects; Ex vivo; Extracellular matrix; Finite element analysis; Fluoroscopy; H-p-refinement; Hard tissues; Hip prostheses; Homeostasis; In vitro; Interbody cages; Intervertebral disc; Joint simulator; Kinematics and kinetics; Knee functional anatomy; Knee joint; Knee prostheses;; Lateral; Lateral collateral ligament; Ligaments; Linear variable differential transformer; Material models; Material properties; Mechanical properties; Mechanotransduction; Medial; Medial patellofemoral ligaments; Medio-lateral knee kinematics model; Meniscectomy; Meniscus; Mesh convergence; Mesh generation; Microstructure; Model validation; Model-based image registration; Muscles; Nanoindentation; Orthopaedic device materials; Orthopedic materials; Osmotic swelling; Osteoarthritis; Poroelasticity; Pressure sensor; Remodeling; Resistive film; Resolution; S2 alar-iliac; Smart materials; Soft tissues; Spinal fixator; Spine surgery; Static loading; Strain gauges; Structural properties; Tensile test; Transepicondylar axis; Uniplanar; Universal spine system; Vertebral body replacement; Vertebral endplates; Viscoelasticity