Description |
1 online resource |
Series |
Orthopedic implants and biomaterials |
Contents |
Front Cover -- INTERACTIONS OF BONE WITH ORTHOPEDIC IMPLANTS AND POSSIBLE FAILURES -- Orthopedic Implants and Biomaterials Series -- INTERACTIONS OF BONE WITH ORTHOPEDIC IMPLANTS AND POSSIBLE FAILURES. -- Copyright -- Contents -- Preface -- Dedication and acknowledgments -- One -- General concepts of interactions of bone with orthopedic implants and possible failures -- 1.1 Introduction -- 1.2 Mechanical treatment of severe bone injuries -- 1.2.1 Mechanical strength of implants -- 1.2.2 Stiffness of implant -- 1.2.3 Mechanical integrity of bone and implant -- 1.2.4 Load transferring between implant and bone -- 1.2.5 Stress shielding of implant -- 1.2.6 Ideal mechanical interaction between bone and implant -- 1.3 Mechanical failure of bone-implant construct -- 1.3.1 Implant fracture or cracking -- 1.3.2 Undesired rigidity or flexibility of implant -- 1.3.3 Dissociation between implant and bone -- 1.3.4 Loosening at bone-implant interface -- 1.3.5 Bone suppression at bone-implant interface -- 1.3.6 Bone fracture at bone-implant interface -- 1.3.7 Subsidence at bone-implant interface -- 1.4 Biological interaction of bone and implant -- 1.4.1 Bioactivity of implant surface -- 1.4.2 Osteoconductivity of implant -- 1.4.3 Osteoinductivity of implant -- 1.4.4 Peri-implant bone remodeling -- 1.4.5 Ideal biological interaction of implant and bone -- 1.5 Biological failures of bone-implant construct -- 1.6 Interactions of bone with orthopedic implants and possible failures -- 1.7 Summary and discussion -- 1.8 Remind and learn -- Two -- Interaction of bone with knee and ankle joint replacement prostheses and possible failures -- 2.1 Introduction -- 2.2 Interactions of bone with knee joint prostheses and possible failures -- 2.2.1 Loosening of knee joint prostheses -- 2.2.2 History of knee joint design concept -- 2.2.3 Loosening of tibial tray prostheses |
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2.2.3.1 Asymmetric design of tibia tray at the plate section -- 2.2.3.2 Effectiveness of deep bone ingrowth in the bone prosthesis -- 2.2.3.3 Interaction of bone with tibial tray stem -- 2.2.3.4 Interaction of bone with mobile bearing tibial assembly -- 2.2.3.5 Interaction of bone with cemented and cementless tibial tray -- 2.2.3.6 Interaction of bone with long stem in obese patients -- 2.2.3.7 Concept of energy shielding for the interaction of bone with tibial tray and bone -- 2.2.3.8 Effectiveness of biological integration in interaction of bone with tibial tray -- 2.2.4 Loosening of femoral knee prosthesis -- 2.2.4.1 Interaction of resected bone with femoral prosthesis -- 2.2.4.2 Interaction of bone with femoral prosthesis at various flexion-extension angles -- 2.2.5 Loosening of hinged knee prostheses -- 2.2.5.1 Interactions of bone with developed third generation hinged knee systems -- 2.2.5.2 Interaction of bone with hinged knee replacement using porous metaphyseal fixation -- 2.3 Interactions of bone with ankle joint prostheses and possible failures -- 2.3.1 Ankle joint complex -- 2.3.2 Tibiotalar joint injuries -- 2.3.3 Interaction of bone with tibiotalar joint replacement -- 2.3.4 Interaction of bone with cementless tibiotalar joint replacement -- 2.3.5 Loosening of tibiotalar replacement prostheses -- 2.4 Summary and discussion -- 2.5 Remind and learn -- 2.6 Think and challenge -- References -- Three -- Interactions of bone with shoulder joint prostheses and possible failures -- 3.1 Introduction -- 3.2 Shoulder joint -- 3.3 Shoulder joint prostheses -- 3.3.1 Design concept of anatomic shoulder replacement prostheses -- 3.3.2 Design concept of reverse shoulder replacement system -- 3.4 Interactions of bone with shoulder joint prostheses -- 3.4.1 Rocking horse effect -- 3.4.2 Full conformity at articulation surface |
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3.4.3 Bone resorption at interface of glenoid prosthesis and bone -- 3.4.4 Interactions of bone with humeral prosthesis -- 3.5 Possible failures of bone in interaction with shoulder prostheses -- 3.5.1 Loosening of the complete polymeric glenoid prosthesis -- 3.5.2 Interaction of bone with metal-backed glenoid prosthesis -- 3.5.3 Failure of bone in interaction with metal-backed glenoid prosthesis -- 3.5.4 Advantages of new metal-backed glenoid prosthesis in interaction with bone -- 3.5.5 Failure of bone in interaction with new metal-backed glenoid prosthesis -- 3.5.6 Failure of bone with reverse total shoulder replacement -- 3.6 Summary and more discussion -- 3.7 Remind and learn -- 3.8 Think and challenge -- References -- Four -- Interactions of bone with hip joint prostheses and possible failures -- 4.1 Introduction -- 4.2 Hip joint -- 4.3 Interactions of bone with hip joint prostheses -- 4.3.1 Interactions of femur bone with femoral prosthesis -- 4.3.2 Interaction of pelvis bone with acetabular cup prosthesis -- 4.4 Failures of pelvis bone in interaction with acetabular cup prosthesis -- 4.4.1 Interactions of pelvic bone with dual-mobility acetabular cup and possible failures -- 4.4.2 Interactions of pelvic bone with multiple-hole porous structured acetabular cup and possible failures -- 4.4.3 Interactions of pelvis bone with press-fit acetabular cup and possible failures -- 4.4.4 Interactions of pelvis bone with cup-cage acetabular cup and possible failures -- 4.4.5 Other types of acetabular cup -- 4.5 Failures of femur bone in interaction with femoral stem prosthesis -- 4.5.1 Interactions of femure bone with tapered femoral stem and possible failures -- 4.5.2 Interactions of femur bone with short-stem femoral stem and possible failures -- 4.5.3 Interactions of femur bone with surface porous structured femoral stem and possible failures |
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4.6 Summary and discussion -- 4.7 Remind and learn -- 4.8 Think and challenge -- References -- Five -- Interactions of bone with trauma implants and possible failures -- 5.1 Introduction -- 5.2 Bone trauma injury -- 5.3 Interactions of bone with trauma implants -- 5.4 Interactions of lower extremities bones with trauma implants -- 5.4.1 Interactions of proximal portion of femur bone with trauma implants and possible failures -- 5.4.2 Interactions of midshaft and distal portions of femur bone with trauma implants and possible failures -- 5.4.3 Interactions of proximal portion of tibia bone with trauma implants and possible failures -- 5.4.4 Interactions of midshaft and distal portions of tibial bone with trauma implants and possible failures -- 5.4.5 Interactions of small bones with trauma implants and possible failures -- 5.5 Interactions of upper extremities bones with trauma implants -- 5.5.1 Interactions proximal portion of humerus bone with trauma implants and possible failures -- 5.5.2 Interactions of proximal portion of humerus bone with trauma expandable cage and possible failures -- 5.5.3 Interactions of distal portion of humerus bone with trauma implants and possible failures -- 5.5.4 Interactions of distal portion of radius bone with trauma implants and possible failures -- 5.6 Interactions of pelvic bone with trauma implants and possible failures -- 5.7 Interactions of clavicle bone with trauma implants and possible failures -- 5.8 Summary and discussion -- 5.9 Remind and learn -- 5.10 Think and challenge -- References -- Six -- Interactions of bone with spinal implants and possible failures -- 6.1 Introduction -- 6.2 Spinal column injury -- 6.3 Interactions of vertebral bone with screw-rod stabilization system and possible failures -- 6.4 Interactions of vertebral bone with intervertebral fusion cage |
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6.4.1 Interactions of vertebral bone with titanium intervertebral fusion cage and possible failures -- 6.4.2 Interactions of vertebral bone with polyetheretherketone (PEEK) intervertebral fusion cage and possible failures -- 6.4.3 Interactions of vertebral bone with stand-alone intervertebral fusion cage and possible failures -- 6.5 Interactions of vertebral bone with corpectomy cages and possible failures -- 6.6 Interactions of vertebral bone with expandable cages and possible failures -- 6.7 Interactions of vertebral bone with surface-engineered intervertebral cages and possible failures -- 6.8 Interactions of vertebral bone with total disc replacement and possible failures -- 6.9 Summary and discussion -- 6.10 Remind and learn -- 6.11 Think and challenge -- References -- Seven -- Effectiveness of current orthopedic implants in interaction with bone and future perspectives -- 7.1 Introduction -- 7.2 Concept of effectiveness -- 7.3 Effectiveness of joint replacement prostheses in interaction with bone -- 7.3.1 Effectiveness of knee joint replacement prostheses in interaction with bone -- 7.3.2 Effectiveness of ankle joint replacement prostheses in interaction with bone -- 7.3.3 Effectiveness of shoulder joint replacement prostheses in interaction with bone -- 7.3.4 Effectiveness of hip joint replacement prostheses in interaction with bone -- 7.4 Effectiveness of trauma implants in interaction with bone -- 7.5 Effectiveness of spinal implants in interaction with bone -- 7.6 Future perspectives on effectiveness of orthopedic implants in interaction with bone -- Glossary -- Index -- A -- B -- C -- D -- E -- F -- G -- H -- I -- J -- K -- L -- M -- O -- P -- R -- S -- T -- U -- V -- Z -- Back Cover |
Summary |
Interactions of Bone with Orthopedic Implants and Possible Failures focuses on the mechanical and biological issues that may cause failure of the implant-bone construct. The book provides discussions on the effects of the design, process, surface and other engineering parameters of implants and their interaction with bone tissue. For implant designers, it is highly crucial to know the final effects of what they are designing or aiming to design, along with performance parameters. It is also crucial for orthopedic surgeons to be familiar with the background of the design and process parameters of the implant they will insert in a patient's body. With the understanding brought forth in this book, surgeons can have better implant options and implant designers can create and develop new implant designs. This book can also help biomechanical and mechanical engineers who are normally dealing with testing and analysis of orthopedic implants examine the biomechanical behavior of the implants and their interaction with bone tissue |
Subject |
Orthopedic implants -- Complications.
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Biomedical materials.
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Bone and Bones -- ultrastructure
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Biocompatible Materials
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Orthopedics
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Orthopedic implants -- Complications
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Form |
Electronic book
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Author |
Golker, Ehsan
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ISBN |
9780323954112 |
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0323954111 |
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