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Monitoring and evaluation of biomaterials and their performance in vivo /
| Clasificación: | Libro Electrónico |
|---|---|
| Otros Autores: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Amsterdam [Netherlands] :
Elsevier,
2017.
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| Colección: | Woodhead Publishing series in biomaterials.
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| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Front Cover; Monitoring and Evaluation of Biomaterialsand their Performance In Vivo; Related titles; Monitoring and Evaluation of Biomaterials and their Performance In Vivo; Copyright; Contents; List of contributors; One
- Monitoring and evaluationof the mechanical performance of biomaterials in vivo; 1
- Nanostructured ceramics; 1.1 Introduction; 1.2 Test methods for nanostructured ceramics; 1.2.1 Micro/nanostructural evaluation; 1.3 Nanostructured bioceramics; 1.3.1 Low-temperature chemical bonding; 1.3.2 Why nanostructures in chemically bonded ceramics?
- 1.3.3 Nanostructures in the Ca aluminate-Ca phosphate system1.4 Application field of nanostructured bioceramics; 1.4.1 Dental applications including coating products; 1.4.2 Orthopedic applications; 1.4.3 Drug delivery carrier applications; 1.5 Conclusion and summary; Acknowledgments; References; 2
- Monitoring degradation products and metal ions in�vivo; 2.1 Introduction; 2.2 Biodegradable metals: state of the art; 2.2.1 The metals and their alloys; 2.2.2 The temporary functional implants; 2.2.3 The in�vivo degradation; 2.3 In�vivo implantation study of biodegradable metals.
- 2.4 Current in�vivo techniques for monitoring degradation2.4.1 Radiography; 2.4.2 Ultrasonography; 2.4.3 Microcomputed tomography; 2.4.4 Magnetic resonance imaging; 2.4.5 Blood evaluation; 2.4.6 Histological analysis; 2.5 Proposed new in�vivo monitoring techniques; 2.5.1 Monitoring local changes surrounding an implantation site; 2.5.2 Monitoring systemic changes in body fluid; 2.5.3 Off-clinic point-of-care implant monitoring; 2.6 Conclusion; Acknowledgments; References; two
- Monitoring and evaluationof the biological responseto biomaterials in vivo.
- 3
- Imaging biomaterial-associated inflammation3.1 Introduction; 3.2 Near-infrared fluorescence imaging; 3.2.1 Inflammatory cell imaging; 3.2.2 Macromolecular protein imaging; 3.2.3 Small molecule imaging; 3.3 Chemiluminescence imaging; 3.4 Bioluminescence imaging; 3.5 Magnetic resonance imaging; 3.6 Conclusions and future perspectives; References; 4
- Monitoring fibrous capsule formation; 4.1 Introduction; 4.2 Functions; 4.3 Structure; 4.4 Joint classification; 4.5 Fibrous capsule formation; 4.6 Diameters of single-polymer fibers and tissue response.
- 4.7 Monitor capsule formation around soft tissue4.7.1 Strain gauges; 4.8 Glucose monitoring in�vivo through fluorescent hydrogel fibers; 4.9 Cellular and molecular composition of fibrous capsules formed around silicone breast implants; 4.10 Capsular contracture after two-stage breast reconstruction; 4.11 Graphene-based biosensor for future perspectives; References; 5
- Monitoring biomineralization of biomaterials in�vivo; 5.1 Introduction; 5.2 Biomineralization; 5.3 Disruption to the biomineralization process and tissue engineering; 5.4 Biomaterials for the repair of mineralized tissue.