Monitoring and Evaluation of Biomaterials and their Performance In Vivo
Editat de Roger Narayanen Limba Engleză Hardback – 21 noi 2016
This book presents readers with comprehensive coverage of the topic of in vivo monitoring of medical implants and biomaterials.
- Contains a specific focus on monitoring and evaluation of biomaterials in vivo
- Multi-faceted coverage of materials function and performance
- Focuses on a range of implants and subsequent bodily reactions
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Specificații
ISBN-13: 9780081006030
ISBN-10: 0081006039
Pagini: 224
Dimensiuni: 152 x 229 mm
Greutate: 0.47 kg
Editura: ELSEVIER SCIENCE
ISBN-10: 0081006039
Pagini: 224
Dimensiuni: 152 x 229 mm
Greutate: 0.47 kg
Editura: ELSEVIER SCIENCE
Cuprins
Part One. Monitoring and evaluation of the mechanical performance of biomaterials in vivo
1. Nanostructured ceramics
2. Monitoring degradation products and metal ions in vivo
Part Two. Monitoring and evaluation of the biological response to biomaterials in vivo
3. Imaging biomaterial-associated inflammation
4. Monitoring fibrous capsule formation
5. Monitoring biomineralization of biomaterials in vivo
6. Measuring gene expression changes on biomaterial surfaces
Part Three. Monitoring and evaluation of functional biomaterial performance in vivo
7. Monitoring and tracking metallic nanobiomaterials in vivo
8. High-resolution imaging techniques in tissue engineering
9. Magnetic resonance imaging monitoring of cartilage tissue engineering in vivo
10. Noninvasive optical imaging of stem cell differentiation in biomaterials using photonic crystal surfaces
1. Nanostructured ceramics
2. Monitoring degradation products and metal ions in vivo
Part Two. Monitoring and evaluation of the biological response to biomaterials in vivo
3. Imaging biomaterial-associated inflammation
4. Monitoring fibrous capsule formation
5. Monitoring biomineralization of biomaterials in vivo
6. Measuring gene expression changes on biomaterial surfaces
Part Three. Monitoring and evaluation of functional biomaterial performance in vivo
7. Monitoring and tracking metallic nanobiomaterials in vivo
8. High-resolution imaging techniques in tissue engineering
9. Magnetic resonance imaging monitoring of cartilage tissue engineering in vivo
10. Noninvasive optical imaging of stem cell differentiation in biomaterials using photonic crystal surfaces