Bone Repair Biomaterials (2nd Ed.)
Regeneration and Clinical Applications
Woodhead Publishing Series in Biomaterials Series

Coordinators: Pawelec Kendell, Planell J. A.

Language: English
Cover of the book Bone Repair Biomaterials

Keywords

Almost bioinert ceramics; Arthroplasty of the spine; Aseptic; Bacteria; Bioactive; Bioceramics; Biodegradable alloys; Biodegradable polymers; Bioinert; Biological barriers; Biomaterial; Biomaterials; Biomechanics; Biomimetic mineralization; Bioprinting; Bone adaptation to loading and unloading; Bone atrophy; Bone cements; Bone morphology; Bone regeneration; Bone remodeling and modeling; Bone repair; Bone replacement; Bone structure; Bone tissue engineering; Bone; Bone-anchored implant; Calcium phosphates; Cell encapsulation; Cell signaling in bone; Cements; Clinical relevance; Co-based alloys; Collagen; Composites; Conflict of interest; Corrosion behavior; Corrosion; Cross-linking; Degradable and bioactive ceramics; Degradable; Degradation; Dental restoration; Epidemiology; Ethics; Ex vivo analysis; Failure; Fiber; Glass-ceramics; Growth factor; Healthcare; Histology; Hydroxyapatite; Implant failure; Informed consent; Inorganic and organic bone matrix; Joint replacement; Leucite; lithium disilicate; Loosening; Magnetic metallic materials; Material characterization; Material properties; Mechanical properties; Metallic scaffolds; Microbiology; MicroRNA; Microstructure; Nanoparticles; Natural polymer; Ni-free alloys; Nondegradable; Non-viral delivery; Nucleic acids; Orthopedics; Osseointegration; Osteoconductive materials; Osteoinductive materials; Osteosynthesis; Particulate; Periprosthetic joint infection; Personalized regenerative medicine; Physiological effects; PMMA; Polymers; Polymethyl methacrylate; Prostheses; RALA peptide; Remodeling; Repair; Rhenanite; Scaffold; Septic; Shape memory alloys; Socioeconomic; Spinal anatomy; Spinal implant; Spinal tumors; Stainless steels; Stem cells; Surface; Surgery; Synthetic bone substitute materials; Third-generation bioceramics; Ti-base alloys; Traumatology; Trends in metallic biomaterials; UHMWPE; Wear; Xenogeneic bone substitute materials

274.96 €

In Print (Delivery period: 14 days).

Add to cartAdd to cart
Publication date:
440 p. · 15x22.8 cm · Paperback

Bone Repair Biomaterials: Regeneration and Clinical Applications, Second Edition, provides comprehensive reviews on materials science, engineering principles and recent advances. Sections review the fundamentals of bone repair and regeneration, discuss the science and properties of biomaterials used for bone repair, including metals, ceramics, polymers and composites, and discuss clinical applications and considerations, with chapters on such topics as orthopedic surgery, tissue engineering, implant retrieval, and ethics of bone repair biomaterials. This second edition includes more chapters on relevant biomaterials and a greatly expanded section on clinical applications, including bone repair applications in dental surgery, spinal surgery, and maxilo-facial and skull surgery.

In addition, the book features coverage of long-term performance and failure of orthopedic devices. It will be an invaluable resource for researchers, scientists and clinicians concerned with the repair and restoration of bone.

Part 1: Bone Repair Biomaterials 1. Challenges of bone repair 2. Bone anatomy, physiology and adaptation to mechanical loading 3. Bone repair and regeneration 4. Biomechanical aspects of bone repair

Part 2: Biomaterials 5. Properties and characterisation of bone repair materials 6. Metals as bone repair materials

Part 3: Surface coating of titanium 7. Ceramics as bone repair materials 8. Polymers for bone repair 9. Composite biomaterials for bone repair 10. Cements as bone repair materials 11. Bioactive polymer coatings to improve bone repair

Part 4: Clinical Applications 12. Using bone repair materials in orthopaedic surgery 13. Using bone repair materials in dental surgery 14. Using bone repair materials in spinal surgery 15. Using bone repair materials in maxilo-facial and skull surgery 16. Bone tissue engineering

Part 5: Advanced manufacturing/3D printing? 17. Long-term performance and failure of orthopaedic devices 18. Retrieval and analysis of orthopaedic implants 19. Ethical issues in bone repair and bone tissue engineering

Biomaterials scientists, biomedical researchers and orthopaedic clinicians concerned with bone repair, researchers and students in pharmaceutical science

Dr Kendall Pawelec received her PhD from the University of Cambridge, investigating the ice templating process for tissue engineering applications. Since then, she has worked as a Marie Curie Postdoctoral Fellow, in the Netherlands, studying porous biomaterials for bone repair. Currently she is a Research Fellow at the University of Michigan, continuing to examine the impact of material structure on biological responses. She worked with the previous editors organizing the previous edition.
Professor Josep A. Planell is highly regarded for his biomedical research at Universitat Politècnica de Catalunya, Spain.
  • Provides a comprehensive review of the materials science, engineering principles and recent advances in this important area
  • Presents new chapters on Surface coating of titanium, using bone repair materials in dental, spinal and maxilo-facial and skull surgery, and advanced manufacturing/3D printing
  • Reviews the fundamentals of bone repair and regeneration, addressing social, economic and clinical challenges
  • Examines the properties of biomaterials used for bone repair, with specific chapters assessing metals, ceramics, polymers and composites