By Yitzhak Rosen, Noel Elman
This innovative ebook presents the entire very important features facing the elemental technology interested in fabrics in biomedical know-how, in particular constitution and homes, strategies and technological recommendations in fabric processing and characterizations, in addition to the functions. the amount includes 12 chapters written by way of said specialists of the biomaterials box and covers a variety of subject matters and applications.
Chapter 1 1D?3D Nano?engineered Biomaterials for Biomedical functions (pages 1–33): Hui Chen, Xiaokang Li and Yanan Du
Chapter 2 Porous Biomaterials (pages 35–65): Nasim Annabi
Chapter three Bioactive and Biocompatible Polymeric Composites in line with Amorphous Calcium Phosphate (pages 67–119): Joseph M. Antonucci and Drago Skrtic
Chapter four Calcium Phosphates and Nanocrystalline Apatites for scientific functions (pages 121–143): Sunita Prem Victor and Chandra P. Sharma
Chapter five SiO2 debris with sensible Nanocrystals: layout and Fabrication for Biomedical purposes (pages 145–252): Ping Yang
Chapter 6 New type of Titanium Alloys for Biomedical software (pages 253–272): Yufeng Zheng, Binbin Zhang, Benli Wang and Li Li
Chapter 7 BMP?based Bone Tissue Engineering (pages 273–292): Ziyad S Haidar and Murugan Ramalingam
Chapter eight Impedance Sensing of organic strategies in Mammalian Cells (pages 293–308): Lamya Ghenim, Hirokazu Kaji, Matsuhiko Nishizawa and Xavier Gidrol
Chapter nine Hydrogel Microbeads for Implantable Glucose Sensors (pages 309–330): Yun Jung Heo and Shoji Takeuchi
Chapter 10 Molecular layout of Multifunctional Polymers for Gene Transfection (pages 331–358): Chao Lin, Bo Lou and Rong Jin
Chapter eleven Injectable in situ Gelling Hydrogels as Biomaterials (pages 359–396): Hardeep Singh and Lakshmi S. Nair
Chapter 12 Metal?polymer Hybrid Biomaterials with excessive Mechanical and organic Compatibilities (pages 397–408): Masaaki Nakai and Mitsuo Niinomi
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Extra info for Integrated Biomaterials for Biomedical Technology
Ozin, G. , Arsenault, A. C , and Royal Society of Chemistry (Great Britain). (2005) Nanochemistry : a chemical approach to nanomaterials, Royal Society of Chemistry, Cambridge, UK. 37. Sweeney, S. R, Woehrle, G. , and Hutchison, J. E. (2006) / Am Chem Soc 128, 3190-3197. 38. , Schiffrin, D. , and Whyman, R. (1994) J Chem Soc Chem Comm, 801-802. 39. Gittins, D. , and Caruso, F. (2001) Angew Chem Int Edit 40,3001-3004 40. Sun, S. , Murray, C. , and Moser, A. (2000) Science 287, 1989-1992. 41. Murray, C.
And Ramakrishna, S. (2003) Compos Sei Technol 63, 2223-2253. 82. Hartgerink, J. , and Stupp, S. I. (2001) Science 294,1684-1688. 83. Ma, P. , and Zhang, R. Y (1999) J Biomed Mater Res 46, 60-72. 84. , and Wang, S. (2004) Biomaterials 25,1891-1900. 85. Czaja, W. , Young, D. , and Brown, R. M. (2006) Biomacromolecules 8,1-12. 86. Menon, V. , Lei, J. , and Martin, C. R. (1996) Chem Mater 8, 2382-2390. 87. Jeong, H. , Lee, S. , and Suh, K. Y (2006) Nano Letters 6, 1508-1513. 88. , and Wen, X. (2010) Prog Polym Sei 35, 868-892.
2004) Biomaterials 25,1891-1900. 85. Czaja, W. , Young, D. , and Brown, R. M. (2006) Biomacromolecules 8,1-12. 86. Menon, V. , Lei, J. , and Martin, C. R. (1996) Chem Mater 8, 2382-2390. 87. Jeong, H. , Lee, S. , and Suh, K. Y (2006) Nano Letters 6, 1508-1513. 88. , and Wen, X. (2010) Prog Polym Sei 35, 868-892. 89. , Han, W. , and Ko, F. K. (2001) / Biomed Mater Res 57,48-58. 90. Li, W. , Laurencin, C. , Caterson, E. , Tuan, R. , and Ko, F. K. (2002) J Biomed Mater Res 60, 613-621. 91. Li, W.