By Bikramjit Basu, Dhirendra S. Katti, Ashok Kumar
Chapter 1 basics of Biomaterials and Biocompatibility (pages 1–18): Bikramjit Basu and Shekhar Nath
Chapter 2 basics of Hydroxyapatite and comparable Calcium Phosphates (pages 19–52): Racquel Zapanta LeGeros, Atsuo Ito, Kunio Ishikawa, Toshiro Sakae and John P. LeGeros
Chapter three fabrics for Orthopedic functions (pages 53–100): Shekhar Nath and Bikramjit Basu
Chapter four The Micro Macroporous Biphasic Calcium Phosphate idea for Bone Reconstruction and Tissue Engineering (pages 101–141): man Daculsi, Franck Jegoux and Pierre Layrolle
Chapter five technology and know-how built-in Titanium Dental Implant platforms (pages 143–177): Yoshiki Oshida and Elif Bahar Tuna
Chapter 6 Injectable Hydrogels as Biomaterials (pages 179–203): Lakshmi S. Nair, Cato T. Laurencin and Mayank Tandon
Chapter 7 Nanomaterials for superior Orthopedic and Bone Tissue Engineering functions (pages 205–241): Lijie Zhang, Sirinrath Sirivisoot, Ganesh Balasundaram and Thomas J. Webster
Chapter eight advent to Processing of Biomaterials (pages 243–276): Dhirendra S. Katti, Shaunak Pandya, Meghali Bora and Rakesh Mahida
Chapter nine Laser Processing of Orthopedic Biomaterials (pages 277–322): Rajarshi Banerjee and Soumya Nag
Chapter 10 Functionally Graded All Ceramic HIP Joint (pages 323–356): Omer Van der Biest, man Anne, Kim Vanmeensel and Jef Vleugels
Chapter eleven clinical units in accordance with Bioinspired Ceramics (pages 357–409): Pio Gonzalez, Julian Martinez?Fernandez, Antonio R. de Arellano?Lopez and Mrityunjay Singh
Chapter 12 Ionomer Glasses: layout and Characterization (pages 411–433): Artemis Stamboulis and Fei Wang
Chapter thirteen Designing Nanofibrous Scaffolds for Tissue Engineering (pages 435–497): Neha Arya, Poonam Sharma and Dhirendra S. Katti
Chapter 14 layout of Supermacroporous Biomaterials through Gelation at Subzero Temperatures—Cryogelation (pages 499–531): Fatima M. Plieva, Ashok Kumar, Igor Yu. Galaev and Bo Mattiasson
Chapter 15 Biomaterial purposes (pages 533–550): Ashok Kumar, Akshay Srivastava and period Jain
Chapter sixteen Cell?Based Nanocomposites and Biomolecules for Bone Tissue Engineering (pages 551–588): Michelle Ngiam, Susan Liao, Casey Chan and S. Ramakrishna
Chapter 17 Orthopedic Interface Tissue Engineering: construction the Bridge to built-in Musculoskeletal Tissue structures (pages 589–611): Helen H. Lu, Kristen L. Moffat and Jeffrey P. Spalazzi
Chapter 18 Cells of the fearful process and electric Stimulation (pages 613–642): Carlos Atico Ariza and Surya okay. Mallapragada
Chapter 19 Placental Umbilical wire Blood: a real Blood alternative (pages 643–662): Niranjan Bhattacharya
Chapter 20 Supported phone Mimetic Monolayers and their Blood Compatibility (pages 663–676): okay. Kaladhar and Chandra P. Sharma
Chapter 21 Titanium Nitride and Diamond Like Carbon Coatings for Cardiovascular purposes (pages 677–705): C. V. Muraleedharan and G. S. Bhuvaneshwar
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Additional info for Advanced Biomaterials: Fundamentals, Processing, and Applications
4). Solubility of the apatite increases as the amount of carbonate in the apatite increases regardless of the type of substitution: Type A  or Type B . 9 . X-ray structure analysis using flux-grown carbonate apatite single crystals revealed that planar CO3 in CO3-for-PO4 substitution are located close to the sloping oxygen triangle consisting of the O(1), O(2) and O(3) of the PO4 group in hydroxyapatite [25,26] confirming earlier inferences from polarized IR study . The sloping angle that is defined by the angle between the normal to the CO3 plane and the c-axis varied depending on the Na-substitution of adjacent Ca site.
4. C. Piconi and G. Maccauro, “Zirconia as a ceramic biomaterial,” Biomaterials, 20  1–25 (1999). 5. L. L. Hench, “Bioceramics,” J. Am. Ceram. , 81  1705–1728 (1998). 6. D. F. Williams, Consensus and definitions in biomaterials: Advances in Biomaterials, Elsevier Publishers, Amsterdam, The Netherlands, 1988. 7. M. S. Valiathan, and V. K. Krishnan, “Biomaterial: An Overview”, Nation. Med. J. , 12  270–74 (1999). 8. D. F. Williams, Definitions in Biomaterials, Progress in Biomedical Engineering, Elsevier Publishers, Amsterdam, The Netherlands, 1987.
4. 4. Schematic illustration showing the anatomy of a eukaryotic animal cell (a) and the fundamental mechanisms involved in biomaterial-cell interaction, established by the adsorbed proteins (circles, boxes and triangles) with the integrin proteins of a biological cell (b). ] 11 CELL–MATERIAL INTERACTIONS (a) A. Initial contact of the cell (b) B. Formation of bonds between cell surface receptors and cell adhesion legands (c) C. 5. Schematic illustration showing the anatomy of a eukaryotic animal cell (a) and the fundamental mechanisms involved in biomaterial-cell interaction, established by the adsorbed proteins (circles, boxes and triangles) with the integrin proteins of a biological cell (b).
Advanced Biomaterials: Fundamentals, Processing, and Applications by Bikramjit Basu, Dhirendra S. Katti, Ashok Kumar