Description |
1 online resource (xiv, 216 pages) : illustrations (some color) |
Series |
Synthesis lectures on tissue engineering ; #4 |
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Synthesis lectures on tissue engineering ; #4.
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Contents |
1. Introduction -- Chapter summary -- Background -- Bone tissue engineering -- Biomechanics vs. bone tissue engineering -- Objectives and scopes -- Organization of the monograph -- Bibliography -- 2. Bone composition and structure -- Chapter summary -- Introduction -- Bone architecture -- Ultrastructure/composition of bone -- Differences between species -- Summary -- Bibliography -- 3. Current mechanical test methodologies -- Chapter summary -- Introduction -- Definition of mechanical properties -- Mechanical testing of bulk bone tissues -- Micro-mechanical testing methodologies -- Nano-indentation methodologies -- Bibliography -- 4. Mechanical behavior of bone -- Chapter summary -- Introduction -- Mechanical properties of whole bone -- Mechanical properties of bone at the macroscopic level -- Mechanical properties of bone at the microscopic level -- Mechanical properties of bone at the sub-microscopic level -- Mechanical properties of hydroxyapatite and collagen -- Physiological response of bone to functional loading -- Concluding remarks -- Bibliography -- 5. Structure and properties of scaffolds for bone tissue regeneration -- Chapter summary -- Introduction -- Synthetic polymers -- Bioceramics -- Metals -- Structural requirements for functional scaffolds -- The balance between scaffold degradation and tissue regeneration -- Determinants of degradation -- Conclusion -- Bibliography |
Summary |
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 |
Bibliography |
Includes bibliographical references |
Subject |
Bone regeneration.
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Bone -- Mechanical properties
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Biomechanics.
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Tissue engineering.
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Bones -- Mechanical properties.
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Bone Regeneration
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Biomechanical Phenomena
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Tissue Engineering
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MEDICAL -- Physiology.
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SCIENCE -- Life Sciences -- Human Anatomy & Physiology.
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Biomechanics
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Bone -- Mechanical properties
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Bone regeneration
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Tissue engineering
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Form |
Electronic book
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Author |
Wang, X. (Xiaodu)
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ISBN |
9781608451708 |
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1608451704 |
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9783031025792 |
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3031025792 |
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