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27. Polymer Reactions Resulting in Bone Bonding: A Review of the Biocompatibility of Polyactive

  • C.A. van Blitterswijk , S.C. Hesseling , J. van den Brink , H. Leenders und D. Bakker
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Bone-Bio Material Interface
Ein Kapitel aus dem Buch Bone-Bio Material Interface
© 2016 University of Toronto Press, Toronto

© 2016 University of Toronto Press, Toronto

Kapitel in diesem Buch

  1. Frontmatter i
  2. Contents v
  3. Foreword ix
  4. Preface xi
  5. Acknowledgments xiii
  6. Part 1: The Material Surface
  7. 1. Surface Characterization of Implant Materials: Biological Implications 3
  8. 2. The Biomaterial-Tissue Interface and Its Analogues in Surface Science and Technology 19
  9. 3. Surface Reaction Kinetics and Adsorption of Biological Moieties: A Mechanistic Approach to Tissue Attachment 33
  10. 4. Titanium and Its Oxide Film: A Substrate for Formation of Apatite 49
  11. 5. Titanium: Immersion-Induced Surface Chemistry Changes and the Relationship to Passive Dissolution and Bioactivity 62
  12. 6. Kinetics of Mineralization, Demineralization, and Transformation of Calcium Phosphates at Mineral and Protein Surfaces 68
  13. 7. Substrate Surface Dissolution and Interfacial Biological Mineralization 76
  14. 8. High-Resolution Electron Microscopy of a Bone Implant Interface 89
  15. Part 2: Bone Proteins and Other Macromolecules
  16. 9. Non-Collagenous Bone Proteins and Their Role in Substrate-Induced Bioactivity 97
  17. 10. Role of Adhesive Proteins and Integrins in Bone and Ligament Cell Behavior at the Material Surface 111
  18. 11. Non-Endocrine Regulation of Bone Cell Activity 120
  19. 12. Osteogenesis Induced by BMP-Coated Biomaterials: Biochemical Principles of Bone Reconstruction in Dentistry 127
  20. 13. Ceramic Synthesis using Biological Processes 139
  21. Parts 1 and 2 - General Discussion 147
  22. Part 3: Cellular Activity at the Interface
  23. 14. Inflammatory Cell Response to Bone Implant Surfaces 153
  24. 15. Modulation of Cell Activity by Titanium Peroxy Compounds 165
  25. 16. Behaviour of Osteoblasts on Micromachined Surfaces 170
  26. 17. Osteoblast Reactions to Charged Polymers 181
  27. 18. Cell-Mediated Bone Regeneration 199
  28. 19. The Influence of Sputtered Bone Substitutes on Cell Growth and Phenotypic Expression 205
  29. 20. Early Extracellular Matrix Synthesis by Bone Cells 214
  30. 21. Transmission Electron Microscopical Identification of Extracellular Matrix Components using Immunocytochemistry 229
  31. 22. Molecular Biological Approaches to Investigate Cell/Biomaterial Interactions 241
  32. 23. Biological Cascades of Fracture Healing as Models for Bone-Biomaterial Interfacial Reactions 250
  33. 24. Tissue Responses to Bone-Derived and Synthetic Materials 265
  34. 25. Hard and Soft Connective Tissue Growth and Repair in Response to Charged Surfaces 275
  35. 26. Deposition of Cement-like Matrix on Implant Materials 285
  36. 27. Polymer Reactions Resulting in Bone Bonding: A Review of the Biocompatibility of Polyactive 295
  37. 28. Comparative Morphology of the Bone Interface with Glass Ceramics, Hydroxyapatite, and Natural Coral 308
  38. 29. Interfacial Reactions to Bioactive and Non-bioactive Bone Cements 321
  39. 30. Modulation of Bone Ingrowth by Surface Chemistry and Roughness 334
  40. 31. Comparative Push-out Data of Bioactive and Non-bioactive Materials of Similar Rugosity 350
  41. 32. Quantified Bone Tissue Reactions to Various Metallic Materials with Reference to the So-called Osseointegration Concept 357
  42. Part 5: Mechanical Effects on Interfacial Biology
  43. 33. Effect of Mechanical Stress on Tissue Differentiation in the Bony Implant Bed 367
  44. 34. Quantitative Evaluation of the Effect of Movement at a Porous Coated Implant-Bone Interface 380
  45. 35. Bone Ingrowth into Porous Coatings Attached to Prostheses of Differing Stiffness 388
  46. 36. Influence of Biomechanical Factors at the Bone-Biomaterial Interface 391
  47. 37. Bone Bonding Behavior of Biomaterials with Different Surface Characteristics under Load-Bearing Conditions 406
  48. Part 5 - General Discussion: The Effect of Micromotion on Bone Healing 415
  49. Part 6: Retrieval Analysis for Interpreting Interfacial Phenomena
  50. 38. Bone-Biomaterial Interfaces of Retrieved Implants 419
  51. 39. Ultrastructural Investigation and Analysis of the Interface of Retrieved Metal Implants 425
  52. 40. Synovial Cells at the Interface with Retrieved Implants 438
  53. 41. Phenotypic Characteristics of Inflammatory Cells Derived from Hip Revision Capsules 444
  54. 42. Bone Bonding to Retrieved Hydroxyapatite- Coated Human Hip Prostheses 450
  55. Part 6 - General Discussion 457
  56. Part 7: The Industrial Perception 461
  57. Biographical Sketches of Invited Attendees at the Bone-Biomaterial Interface Workshop, Toronto, December 3 and 4, 1990 471
  58. Affiliations of Contributing Authors 481
  59. Index 487
https://doi.org/10.3138/9781442671508-031

Kapitel in diesem Buch

  1. Frontmatter i
  2. Contents v
  3. Foreword ix
  4. Preface xi
  5. Acknowledgments xiii
  6. Part 1: The Material Surface
  7. 1. Surface Characterization of Implant Materials: Biological Implications 3
  8. 2. The Biomaterial-Tissue Interface and Its Analogues in Surface Science and Technology 19
  9. 3. Surface Reaction Kinetics and Adsorption of Biological Moieties: A Mechanistic Approach to Tissue Attachment 33
  10. 4. Titanium and Its Oxide Film: A Substrate for Formation of Apatite 49
  11. 5. Titanium: Immersion-Induced Surface Chemistry Changes and the Relationship to Passive Dissolution and Bioactivity 62
  12. 6. Kinetics of Mineralization, Demineralization, and Transformation of Calcium Phosphates at Mineral and Protein Surfaces 68
  13. 7. Substrate Surface Dissolution and Interfacial Biological Mineralization 76
  14. 8. High-Resolution Electron Microscopy of a Bone Implant Interface 89
  15. Part 2: Bone Proteins and Other Macromolecules
  16. 9. Non-Collagenous Bone Proteins and Their Role in Substrate-Induced Bioactivity 97
  17. 10. Role of Adhesive Proteins and Integrins in Bone and Ligament Cell Behavior at the Material Surface 111
  18. 11. Non-Endocrine Regulation of Bone Cell Activity 120
  19. 12. Osteogenesis Induced by BMP-Coated Biomaterials: Biochemical Principles of Bone Reconstruction in Dentistry 127
  20. 13. Ceramic Synthesis using Biological Processes 139
  21. Parts 1 and 2 - General Discussion 147
  22. Part 3: Cellular Activity at the Interface
  23. 14. Inflammatory Cell Response to Bone Implant Surfaces 153
  24. 15. Modulation of Cell Activity by Titanium Peroxy Compounds 165
  25. 16. Behaviour of Osteoblasts on Micromachined Surfaces 170
  26. 17. Osteoblast Reactions to Charged Polymers 181
  27. 18. Cell-Mediated Bone Regeneration 199
  28. 19. The Influence of Sputtered Bone Substitutes on Cell Growth and Phenotypic Expression 205
  29. 20. Early Extracellular Matrix Synthesis by Bone Cells 214
  30. 21. Transmission Electron Microscopical Identification of Extracellular Matrix Components using Immunocytochemistry 229
  31. 22. Molecular Biological Approaches to Investigate Cell/Biomaterial Interactions 241
  32. 23. Biological Cascades of Fracture Healing as Models for Bone-Biomaterial Interfacial Reactions 250
  33. 24. Tissue Responses to Bone-Derived and Synthetic Materials 265
  34. 25. Hard and Soft Connective Tissue Growth and Repair in Response to Charged Surfaces 275
  35. 26. Deposition of Cement-like Matrix on Implant Materials 285
  36. 27. Polymer Reactions Resulting in Bone Bonding: A Review of the Biocompatibility of Polyactive 295
  37. 28. Comparative Morphology of the Bone Interface with Glass Ceramics, Hydroxyapatite, and Natural Coral 308
  38. 29. Interfacial Reactions to Bioactive and Non-bioactive Bone Cements 321
  39. 30. Modulation of Bone Ingrowth by Surface Chemistry and Roughness 334
  40. 31. Comparative Push-out Data of Bioactive and Non-bioactive Materials of Similar Rugosity 350
  41. 32. Quantified Bone Tissue Reactions to Various Metallic Materials with Reference to the So-called Osseointegration Concept 357
  42. Part 5: Mechanical Effects on Interfacial Biology
  43. 33. Effect of Mechanical Stress on Tissue Differentiation in the Bony Implant Bed 367
  44. 34. Quantitative Evaluation of the Effect of Movement at a Porous Coated Implant-Bone Interface 380
  45. 35. Bone Ingrowth into Porous Coatings Attached to Prostheses of Differing Stiffness 388
  46. 36. Influence of Biomechanical Factors at the Bone-Biomaterial Interface 391
  47. 37. Bone Bonding Behavior of Biomaterials with Different Surface Characteristics under Load-Bearing Conditions 406
  48. Part 5 - General Discussion: The Effect of Micromotion on Bone Healing 415
  49. Part 6: Retrieval Analysis for Interpreting Interfacial Phenomena
  50. 38. Bone-Biomaterial Interfaces of Retrieved Implants 419
  51. 39. Ultrastructural Investigation and Analysis of the Interface of Retrieved Metal Implants 425
  52. 40. Synovial Cells at the Interface with Retrieved Implants 438
  53. 41. Phenotypic Characteristics of Inflammatory Cells Derived from Hip Revision Capsules 444
  54. 42. Bone Bonding to Retrieved Hydroxyapatite- Coated Human Hip Prostheses 450
  55. Part 6 - General Discussion 457
  56. Part 7: The Industrial Perception 461
  57. Biographical Sketches of Invited Attendees at the Bone-Biomaterial Interface Workshop, Toronto, December 3 and 4, 1990 471
  58. Affiliations of Contributing Authors 481
  59. Index 487
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