Cell and Material Interface

Book description

A significant portion of biomedical applications necessitates the establishment of an interface between the cells of the patient and the components of the device. In many cases, such as in implants and engineered tissues, the interaction of the cells with the biomaterial is one of the main determinants of the success of the system. Cell and Material Interface: Advances in Tissue Engineering, Biosensor, Implant, and Imaging Technologies explores this interaction and its control at length scales ranging from the nano to the macro.

Featuring contributions from leading molecular biologists, chemists, and material scientists, this authoritative reference:

  • Presents practical examples of cell and material interface-based applications
  • Reflects the interdisciplinary nature of bioengineering, covering topics such as biosensing, immunology, and controlled delivery
  • Explains the role of the cell and material interface in the context of cardiac and skin tissue engineering, nanoparticles, natural polymers, and more

Cell and Material Interface: Advances in Tissue Engineering, Biosensor, Implant, and Imaging Technologies addresses concepts essential to biomaterial production methods and cell and material interactions. The book provides a solid starting point for elucidating and exploiting the different aspects of cellular interactions with materials for biomedical engineering.

Table of contents

  1. Front Cover (1/2)
  2. Front Cover (2/2)
  3. Contents
  4. Preface
  5. Acknowledgments
  6. Editors
  7. Contributors
  8. List of Abbreviations
  9. Chapter 1: Editorial : Introduction to Cell/Material Interface (1/3)
  10. Chapter 1: Editorial : Introduction to Cell/Material Interface (2/3)
  11. Chapter 1: Editorial : Introduction to Cell/Material Interface (3/3)
  12. Chapter 2: Scaffold Processing Technologies for Tailored Cell Interactions (1/8)
  13. Chapter 2: Scaffold Processing Technologies for Tailored Cell Interactions (2/8)
  14. Chapter 2: Scaffold Processing Technologies for Tailored Cell Interactions (3/8)
  15. Chapter 2: Scaffold Processing Technologies for Tailored Cell Interactions (4/8)
  16. Chapter 2: Scaffold Processing Technologies for Tailored Cell Interactions (5/8)
  17. Chapter 2: Scaffold Processing Technologies for Tailored Cell Interactions (6/8)
  18. Chapter 2: Scaffold Processing Technologies for Tailored Cell Interactions (7/8)
  19. Chapter 2: Scaffold Processing Technologies for Tailored Cell Interactions (8/8)
  20. Chapter 3: Nanomaterial Cell Interactions in Tissue Engineering (1/6)
  21. Chapter 3: Nanomaterial Cell Interactions in Tissue Engineering (2/6)
  22. Chapter 3: Nanomaterial Cell Interactions in Tissue Engineering (3/6)
  23. Chapter 3: Nanomaterial Cell Interactions in Tissue Engineering (4/6)
  24. Chapter 3: Nanomaterial Cell Interactions in Tissue Engineering (5/6)
  25. Chapter 3: Nanomaterial Cell Interactions in Tissue Engineering (6/6)
  26. Chapter 4: Engineering Cell Surface Interface in Tissue Engineering and Cell-Based Biosensors (1/6)
  27. Chapter 4: Engineering Cell Surface Interface in Tissue Engineering and Cell-Based Biosensors (2/6)
  28. Chapter 4: Engineering Cell Surface Interface in Tissue Engineering and Cell-Based Biosensors (3/6)
  29. Chapter 4: Engineering Cell Surface Interface in Tissue Engineering and Cell-Based Biosensors (4/6)
  30. Chapter 4: Engineering Cell Surface Interface in Tissue Engineering and Cell-Based Biosensors (5/6)
  31. Chapter 4: Engineering Cell Surface Interface in Tissue Engineering and Cell-Based Biosensors (6/6)
  32. Chapter 5: Protein Micropatterning Techniques for Tissue Engineering and Stem Cell Research (1/8)
  33. Chapter 5: Protein Micropatterning Techniques for Tissue Engineering and Stem Cell Research (2/8)
  34. Chapter 5: Protein Micropatterning Techniques for Tissue Engineering and Stem Cell Research (3/8)
  35. Chapter 5: Protein Micropatterning Techniques for Tissue Engineering and Stem Cell Research (4/8)
  36. Chapter 5: Protein Micropatterning Techniques for Tissue Engineering and Stem Cell Research (5/8)
  37. Chapter 5: Protein Micropatterning Techniques for Tissue Engineering and Stem Cell Research (6/8)
  38. Chapter 5: Protein Micropatterning Techniques for Tissue Engineering and Stem Cell Research (7/8)
  39. Chapter 5: Protein Micropatterning Techniques for Tissue Engineering and Stem Cell Research (8/8)
  40. Chapter 6: Cell–Scaffold Interfaces in Skin Tissue Engineering (1/4)
  41. Chapter 6: Cell–Scaffold Interfaces in Skin Tissue Engineering (2/4)
  42. Chapter 6: Cell–Scaffold Interfaces in Skin Tissue Engineering (3/4)
  43. Chapter 6: Cell–Scaffold Interfaces in Skin Tissue Engineering (4/4)
  44. Chapter 7: Cell and Materials Interface in Cryobiology and Cryoprotection (1/5)
  45. Chapter 7: Cell and Materials Interface in Cryobiology and Cryoprotection (2/5)
  46. Chapter 7: Cell and Materials Interface in Cryobiology and Cryoprotection (3/5)
  47. Chapter 7: Cell and Materials Interface in Cryobiology and Cryoprotection (4/5)
  48. Chapter 7: Cell and Materials Interface in Cryobiology and Cryoprotection (5/5)
  49. Chapter 8: Micropatterning Techniques to Control Cell–Biomaterial Interface for Cardiac Tissue Engineering (1/6)
  50. Chapter 8: Micropatterning Techniques to Control Cell–Biomaterial Interface for Cardiac Tissue Engineering (2/6)
  51. Chapter 8: Micropatterning Techniques to Control Cell–Biomaterial Interface for Cardiac Tissue Engineering (3/6)
  52. Chapter 8: Micropatterning Techniques to Control Cell–Biomaterial Interface for Cardiac Tissue Engineering (4/6)
  53. Chapter 8: Micropatterning Techniques to Control Cell–Biomaterial Interface for Cardiac Tissue Engineering (5/6)
  54. Chapter 8: Micropatterning Techniques to Control Cell–Biomaterial Interface for Cardiac Tissue Engineering (6/6)
  55. Chapter 9: Polysaccharide-Based Biomaterials for Cell–Material Interface (1/6)
  56. Chapter 9: Polysaccharide-Based Biomaterials for Cell–Material Interface (2/6)
  57. Chapter 9: Polysaccharide-Based Biomaterials for Cell–Material Interface (3/6)
  58. Chapter 9: Polysaccharide-Based Biomaterials for Cell–Material Interface (4/6)
  59. Chapter 9: Polysaccharide-Based Biomaterials for Cell–Material Interface (5/6)
  60. Chapter 9: Polysaccharide-Based Biomaterials for Cell–Material Interface (6/6)
  61. Chapter 10: Macrophage-Mediated Foreign Body Responses (1/4)
  62. Chapter 10: Macrophage-Mediated Foreign Body Responses (2/4)
  63. Chapter 10: Macrophage-Mediated Foreign Body Responses (3/4)
  64. Chapter 10: Macrophage-Mediated Foreign Body Responses (4/4)
  65. Back Cover

Product information

  • Title: Cell and Material Interface
  • Author(s): Nihal Engin Vrana
  • Release date: September 2018
  • Publisher(s): CRC Press
  • ISBN: 9781482256130