This book examines the most novel and state-of-the-art applications of biomaterials, with chapters that exemplify approaches with targeted drug delivery, diabetes, neurodegenerative diseases and cranioplasty implants. Expert contributors analyze biomaterials such as calcium phosphate, sol-gel and quenched glasses, metallic and polymer implants, bioactive glass, and polymer composites while also covering important areas such as the soft tissue replacement, apatites, bone regeneration and cell encapsulation. This book is appropriate for biomedical engineers, materials scientists, and clinicians…mehr
This book examines the most novel and state-of-the-art applications of biomaterials, with chapters that exemplify approaches with targeted drug delivery, diabetes, neurodegenerative diseases and cranioplasty implants. Expert contributors analyze biomaterials such as calcium phosphate, sol-gel and quenched glasses, metallic and polymer implants, bioactive glass, and polymer composites while also covering important areas such as the soft tissue replacement, apatites, bone regeneration and cell encapsulation. This book is appropriate for biomedical engineers, materials scientists, and clinicians who are seeking to implement the most advanced approaches and technologies with their patients.
Dr. Gurbinder Kaur holds her B.Sc (Hons. Physics) and M.Sc. (Hons. Physics) from Guru Nanak Dev University, Amritsar. She moved to Thapar University, Patiala to pursue her research work in the field of solid oxide fuel cells (SOFC) and received her doctorate in 2012. Her Ph.D dissertation was based on "Investigations on interfacial interaction of glass sealants with electrolytes and interconnect for solid oxide fuel cells (SOFC)." She has three other books on "Solid Oxide Fuel Cell Components: Interfacial compatibility of SOFC glass seals" (Springer, NY), "Bioactive glasses: potential biomaterials for future therapy"(Springer, Germany) and "Modern Physics" by McGraw Hill Pvt. Ltd. She also carried her research in the field of Biomedical Enginnering and Bioglasses. She is recipient of fellowship under the RFSMS scheme of University Grants Commission (UGC). She also received fellowship under Women-Scientist Scheme, DST, New Delhi from 2010-2012. After completing her Doctorate, she moved to Virginia Tech, USA to work as a Post-Doctoral Fellow with Dr. Gary Pickrell. She is a recipient of Post-doc Scholarship from UGC, New Delhi for pursuing research work in the field of bioglasses. She works on a variety of different materials and applications including high temperature energy materials, bioactive materials and optical materials.
Inhaltsangabe
1. How Did Bioactive Glasses Revolutionize Medical Science? A Tribute to Larry Hench.- 2. Variation in Properties of Bioactive Glasses After Surface Modification.- 3. Apatites for Orthopaedic Applications.- 4. Calcium Phosphate Cements for Medical Applications.- 5. Calcium Orthophosphate-Based Bioceramics and its Clinical Applications.- 6. Nanostructured Calcium Phosphates for Drug, Gene, DNA, and Protein Delivery and as Anticancer Chemotherapeutic Devices.- 7. Synthesis and Functionalization of Mesoporous Bioactive Glasses for Drug Delivery.- 8. Bioactive Glass/Polymer Composites for Drug Delivery.- 9. Restorative Dental Glass-ceramics: Current Status and Trends.- 10. Bioactive Glass Based Composites for Cranioplasty Implants.- 11. Antibacterial Properties of Bioactive Glasses.- 12. Development of URIST(TM) a Multiphasic rhBMP-2 Bone Graft Substitute.- 13. Development and in Vitro Analysis of a New Biodegradable PLA/HAp Composite for Biomedical Applications.- 14. Biomaterials for Cell Encapsulation: Progress towards Clinical Applications.
1. How Did Bioactive Glasses Revolutionize Medical Science? A Tribute to Larry Hench.- 2. Variation in Properties of Bioactive Glasses After Surface Modification.- 3. Apatites for Orthopaedic Applications.- 4. Calcium Phosphate Cements for Medical Applications.- 5. Calcium Orthophosphate-Based Bioceramics and its Clinical Applications.- 6. Nanostructured Calcium Phosphates for Drug, Gene, DNA, and Protein Delivery and as Anticancer Chemotherapeutic Devices.- 7. Synthesis and Functionalization of Mesoporous Bioactive Glasses for Drug Delivery.- 8. Bioactive Glass/Polymer Composites for Drug Delivery.- 9. Restorative Dental Glass-ceramics: Current Status and Trends.- 10. Bioactive Glass Based Composites for Cranioplasty Implants.- 11. Antibacterial Properties of Bioactive Glasses.- 12. Development of URIST™ a Multiphasic rhBMP-2 Bone Graft Substitute.- 13. Development and in Vitro Analysis of a New Biodegradable PLA/HAp Composite for Biomedical Applications.- 14. Biomaterials for Cell Encapsulation: Progress towards Clinical Applications.
1. How Did Bioactive Glasses Revolutionize Medical Science? A Tribute to Larry Hench.- 2. Variation in Properties of Bioactive Glasses After Surface Modification.- 3. Apatites for Orthopaedic Applications.- 4. Calcium Phosphate Cements for Medical Applications.- 5. Calcium Orthophosphate-Based Bioceramics and its Clinical Applications.- 6. Nanostructured Calcium Phosphates for Drug, Gene, DNA, and Protein Delivery and as Anticancer Chemotherapeutic Devices.- 7. Synthesis and Functionalization of Mesoporous Bioactive Glasses for Drug Delivery.- 8. Bioactive Glass/Polymer Composites for Drug Delivery.- 9. Restorative Dental Glass-ceramics: Current Status and Trends.- 10. Bioactive Glass Based Composites for Cranioplasty Implants.- 11. Antibacterial Properties of Bioactive Glasses.- 12. Development of URIST(TM) a Multiphasic rhBMP-2 Bone Graft Substitute.- 13. Development and in Vitro Analysis of a New Biodegradable PLA/HAp Composite for Biomedical Applications.- 14. Biomaterials for Cell Encapsulation: Progress towards Clinical Applications.
1. How Did Bioactive Glasses Revolutionize Medical Science? A Tribute to Larry Hench.- 2. Variation in Properties of Bioactive Glasses After Surface Modification.- 3. Apatites for Orthopaedic Applications.- 4. Calcium Phosphate Cements for Medical Applications.- 5. Calcium Orthophosphate-Based Bioceramics and its Clinical Applications.- 6. Nanostructured Calcium Phosphates for Drug, Gene, DNA, and Protein Delivery and as Anticancer Chemotherapeutic Devices.- 7. Synthesis and Functionalization of Mesoporous Bioactive Glasses for Drug Delivery.- 8. Bioactive Glass/Polymer Composites for Drug Delivery.- 9. Restorative Dental Glass-ceramics: Current Status and Trends.- 10. Bioactive Glass Based Composites for Cranioplasty Implants.- 11. Antibacterial Properties of Bioactive Glasses.- 12. Development of URIST™ a Multiphasic rhBMP-2 Bone Graft Substitute.- 13. Development and in Vitro Analysis of a New Biodegradable PLA/HAp Composite for Biomedical Applications.- 14. Biomaterials for Cell Encapsulation: Progress towards Clinical Applications.
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