Cartilage Tissue and Knee Joint Biomechanics
eBook - ePub

Cartilage Tissue and Knee Joint Biomechanics

Fundamentals, Characterization and Modelling

  1. 1,100 pages
  2. English
  3. ePUB (mobile friendly)
  4. Available on iOS & Android
eBook - ePub

Cartilage Tissue and Knee Joint Biomechanics

Fundamentals, Characterization and Modelling

About this book

Cartilage, Tissue and Knee Joint Biomechanics: Fundamentals, Characterization and Modelling is a cutting-edge multidisciplinary book specifically focused on modeling, characterization and related clinical aspects. The book takes a comprehensive approach towards mechanics, fundamentals, morphology and properties of Cartilage Tissue and Knee Joints. Leading researchers from health science, medical technologists, engineers, academics, government, and private research institutions across the globe have contributed to this book. This book is a very valuable resource for graduates and postgraduates, engineers and research scholars. The content also includes comprehensive real-world applications. As a reference for the total knee arthroplasty, this book focuses deeply on existing related theories (including: histology, design, manufacturing and clinical aspects) to assist readers in solving fundamental and applied problems in biomechanical and biomaterials characterization, modeling and simulation of human cartilages and cells. For biomedical engineers dealing with implants and biomaterials for knee joint injuries, this book will guide you in learning the knee anatomy, range of motion, surgical procedures, physiological loading and boundary conditions, biomechanics of connective soft tissues, type of injuries, and more. - Provides a comprehensive resource on the knee joint and its connective soft tissues; content included spans biomechanics, biomaterials, biology, anatomy, imaging and surgical procedure - Covers ISO and FDA based regulatory control and compliance in the manufacturing process - Includes discussions on the relationship between knee anatomical parameters and knee biomechanics

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Yes, you can access Cartilage Tissue and Knee Joint Biomechanics by Amirsadegh Rezazadeh Nochehdehi,Fulufhelo Nemavhola,Sabu Thomas,Hanna J. Maria in PDF and/or ePUB format, as well as other popular books in Tecnología e ingeniería & Ingeniería general. We have over one million books available in our catalogue for you to explore.

Table of contents

  1. Cover
  2. Title page
  3. Table of Contents
  4. Copyright
  5. Contents
  6. List of contributors
  7. List of Illustrations
  8. List of Tables
  9. Chapter 1 : Principles of biomechanics and tissue regeneration
  10. Chapter 2 : Histology and biomechanics of knee joint
  11. Chapter 3 : Histology and biomechanics of cartilage
  12. Chapter 4 : Cartilage tribology and friction coefficient
  13. Chapter 5 : Cell biology and pathology of cartilage and meniscus
  14. Chapter 6 : Structure, function, and biomechanics of meniscus cartilage
  15. Chapter 7 : Knee joint abnormalities and cartilage osteoarthritis
  16. Chapter 8 : Molecular imaging techniques for the knee
  17. Chapter 9 : Radiographic techniques for imaging knee joint
  18. Chapter 10 : Magnetic resonance imaging and biochemical markers of cartilage disease
  19. Chapter 11 : Magnetic resonance imaging–based assessment of in vivo cartilage biomechanics
  20. Chapter 12 : Compositional magnetic resonance imaging techniques for the evaluation of knee cartilage
  21. Chapter 13 : Ultrashort echo time magnetic resonance imaging of knee joint components and correlation with biomechanics
  22. Chapter 14 : 3D geometric analysis of the knee with magnetic resonance imaging
  23. Chapter 15 : 3D designing and imaging process of the human knee joint: a review
  24. Chapter 16 : Three-dimensional finite element modeling of human knee joint
  25. Chapter 17 : 3D inverse finite element modeling
  26. Chapter 18 : Boltzmann lattice and off-lattice modeling
  27. Chapter 19 : Constitutive models of cartilage tissue
  28. Chapter 20 : Musculoskeletal modeling and biomechanics of the knee joint
  29. Chapter 21 : In vivo models of human articular cartilage mechanosensitivity
  30. Chapter 22 : A technical study on the design of electric bicycles: applications in intervention programs
  31. Chapter 23 : Cartilage and knee joint biomechanics
  32. Chapter 24 : Mechanical principle of fracture fixations
  33. Chapter 25 : Mechanical testing for cartilages
  34. Chapter 26 : Development of three-dimensional printed biocompatible materials for cartilage replacement
  35. Chapter 27 : Development of 3D-printed biocompatible materials for tendons substitution
  36. Chapter 28 : Stimuli-responsive hydrogels: cutting-edge platforms for cartilage tissue engineering
  37. Chapter 29 : Development of 3D-printed biocompatible materials for meniscus substitution
  38. Chapter 30 : Development of 3D-printed biocompatible materials for bone substitution
  39. Chapter 31 : Advanced biocompatible polymers for cartilage tissue engineering
  40. Chapter 32 : Biochemical and mechanical properties of polyethylene in total knee arthroplasty
  41. Chapter 33 : Kinematics, kinetics, and forces of the knee joint during walking
  42. Chapter 34 : Coating materials for artificial knee joint components
  43. Chapter 35 : Biomechanical analysis of artificial knee joint components
  44. Chapter 36 : Biomechanical and bioelasticity analysis of the hypermobile knee
  45. Chapter 37 : Biomechanical principles of exercise prescription in knee rehabilitation
  46. Chapter 38 : Recent trends for knee articular cartilage repair
  47. Chapter 39 : Surgical approaches to total knee arthroplasty
  48. Chapter 40 : Frontier advances on biomechanical therapies
  49. Chapter 41 : Biomimetic composite scaffolds for meniscus repair: recent progress and future outlook
  50. Chapter 42 : Life cycle analysis of knee joint replacement implants
  51. Index
  52. A