(Ebook PDF) Fundamental Biomechanics in Bone Tissue Engineering 1st edition by Xiaodu Wang, Jeffrey Nyman, Xuanliang Dong, Huijie Leng, Michael Reyes 3031025792 9783031025792 full chapters

Fundamental Biomechanics in Bone Tissue Engineering 1st edition by Xiaodu Wang, Jeffrey Nyman, Xuanliang Dong, Huijie Leng, Michael Reyes – Ebook PDF Instant Download/DeliveryISBN:  3031025792, 9783031025792 

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ISBN-10 ‏ : ‎3031025792

ISBN-13 ‏ : ‎ 9783031025792

Author :  Xiaodu Wang, Jeffrey Nyman, Xuanliang Dong, Huijie Leng, Michael Reyes  

This eight-chapter monograph intends to present basic principles and applications of biomechanics in bone tissue engineering in order to assist tissue engineers in design and use of tissue-engineered products for repair and replacement of damaged/deformed bone tissues. Briefly, Chapter 1 gives an overall review of biomechanics in the field of bone tissue engineering. Chapter 2 provides detailed information regarding the composition and architecture of bone. Chapter 3 discusses the current methodologies for mechanical testing of bone properties (i.e., elastic, plastic, damage/fracture, viscoelastic/viscoplastic properties). Chapter 4 presents the current understanding of the mechanical behavior of bone and the associated underlying mechanisms. Chapter 5 discusses the structure and properties of scaffolds currently used for bone tissue engineering applications. Chapter 6 gives a brief discussion of current mechanical and structural tests of repair/tissue engineered bone tissues. Chapter 7 summarizes the properties of repair/tissue engineered bone tissues currently attained. Finally, Chapter 8 discusses the current issues regarding biomechanics in the area of bone tissue engineering. Table of Contents: Introduction / Bone Composition and Structure / Current Mechanical Test Methodologies / Mechanical Behavior of Bone / Structure and Properties of Scaffolds for Bone Tissue Regeneration / Mechanical and Structural Evaluation of Repair/Tissue Engineered Bone / Mechanical and Structural Properties of Tissues Engineered/Repair Bone / Current Issues of Biomechanics in Bone Tissue Engineering

Fundamental Biomechanics in Bone Tissue Engineering 1st Table of contents:

1. Introduction
2. Bone Architecture
3. Cortical Bone
4. Trabecular Bone
5. Differences Between Anatomical Locations, Ages, and Genders
6. Ultrastructure/Composition of Bone
7. Ultrastructure of Bone
8. Constituents of Bone
9. Differences Between Anatomical Locations, Ages, and Genders
10. Differences Between Species
11. Differences in Tissue Architecture
12. Differences in Tissue Composition/Ultrastructure
13. Summary
14. Bibliography
15. Current Mechanical Test Methodologies
16. Chapter Summary
17. Introduction
18. Definition of Mechanical Properties
19. Basic Concepts of Mechanics of Materials
20. Elasticity
21. Post-Yield Properties
22. Failure
23. Fatigue
24. Viscoelasticity
25. Mechanical Testing of Bulk Bone Tissues
26. Tensile/Compressive Test
27. Torsion (Shear) Test
28. 3-Point and 4-Point Bending Test
29. Progressive Loading
30. Fracture Toughness Test
31. Charpy and Izod Impact Tests
32. Fatigue Test
33. Viscoelastic Test
34. Micro-Mechanical Testing Methodologies
35. Nano-Indentation Methodologies
36. Bibliography
37. Mechanical Behavior of Bone
38. Chapter Summary
39. Introduction
40. Mechanical Properties of Whole Bone
41. Mechanical Properties of Bone at the Macroscopic Level
42. Elastic Properties of Cortical and Trabecular Macroscopic Bone
43. Post-Yield Properties of Cortical and Trabecular Macroscopic Bone
44. Fracture Toughness of Cortical and Trabecular Macroscopic Bone
45. Viscoelastic Behavior of Cortical and Trabecular Macroscopic Bone
46. Fatigue Behavior of Cortical and Trabecular Macroscopic Bone
47. Mechanical Properties of Bone at the Microscopic Level
48. Elastic Properties of Cortical and Trabecular Microscopic Bone
49. Post-Yield Behavior of Cortical and Trabecular Microscopic Bone
50. Mechanical Properties of Bone at the Sub-Microscopic Level
51. Mechanical Properties of Hydroxyapatite and Collagen
52. Physiological Response of Bone to Functional Loading
53. Concluding Remarks
54. Bibliography
55. Structure and Properties of Scaffolds for Bone Tissue Regeneration
56. Chapter Summary
57. Introduction
58. Synthetic Polymers
59. Determinants of the Mechanical Properties of Synthetic Polymers
60. Examples of Synthetic Polymers for Bone Regeneration
61. Determinants of the Mechanical Properties of Naturally derived Polymers
62. Examples of Naturally derived Polymers for Bone Regeneration
63. Bioceramics
64. Determinants of the Mechanical Properties of Ceramics
65. Examples of Ceramics for Bone Regeneration
66. Examples of Ceramic-Polymer Composites for Bone Regeneration
67. Metals
68. Determinants of the Mechanical Properties of Metals
69. Examples of Metals for Bone Regeneration
70. Structural Requirements for Functional Scaffolds
71. The Balance Between Scaffold Degradation and Tissue Regeneration
72. Determinants of Degradation
73. Conclusion
74. Bibliography
75. Mechanical and Structural Evaluation of Repair/Tissue Engineered Bone
76. Chapter Summary
77. Introduction
78. In Vitro Biomechanical Evaluation of Fracture Repair
79. Torsional Test
80. Bending
81. Tension
82. Compression
83. Micro/Nano Indentation Tests
84. In Vivo Stiffness Monitoring of Healing Bone
85. Non-Invasive Measurement of Fracture Healing
86. X-Ray (Plain Radiography)
87. Dual-Energy X-Ray Absorptiometry (DEXA)
88. Computed Tomography (CT) and Quantitative Computed Tomography (QCT)
89. Micro Computed Tomography (Micro-CT)
90. Numerical Evaluation of Fracture Healing
91. Summary
92. Bibliography
93. Mechanical and Structural Properties of Tissues Engineered/Repair Bone
94. Chapter Summary
95. Introduction
96. Biological Stages of Fracture Healing
97. Inflammation
98. Soft Tissue Repair
99. Calcified Cartilage Fusing the Fracture Gap
100. Remodeling of the Callus
101. Intramembranous Bone Formation in the Critical Sized Defect
102. Biomechanical Properties of Repair/Tissue Engineered Bone
103. Torsional Properties
104. Bending Properties
105. Tensile Properties
106. Compressive Properties of Fracture Callus
107. Biomechanical Properties of Tissue Engineered Bone
108. Summary
109. Bibliography
110. Current Issues of Biomechanics in Bone Tissue Engineering
111. Chapter Summary
112. Introduction
113. Ideal Scaffold System for Bone Tissue Engineering
114. Functional Architecture of Scaffold
115. Non Biodegradable Scaffolds
116. Biodegradable Scaffolds
117. Osteoinductivity/Osteoconductivity
118. Mechanical Environment
119. Bioreactor: Biomimetic Environment for Bone Formation
120. Cell Seeding
121. Mass Transport
122. Physical Conditioning
123. Biological/Biochemical Environment
124. Mechanobiology in Bone Tissue Engineering
125. Mechanobiology
126. Mechanosensation
127. Mechanotransduction

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