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فروش فایل ,دانلود فایل,خرید فایل,دانلود رایگان فایل,دانلود رایگانHandbook of Vitamins
» :: Handbook of Vitamins
Knowledge of vitamins in health and disease has increased markedly in recent years due
to extraordinary advances in analytical and separation methodologies (1,8,9). Although
each of the past six decades has been exciting from the standpoint of improved approaches
in the isolation, identification, and synthesis of vitamins, the past 10 years have been
particularly important. In addition, improved methodology has never been so available to
the typical researcher. With improved methodologies and sources of inexpensive vitamins,
it is now possible to study the functions of vitamins in clinical settings. Improved methods
have led, in turn, to a better understanding of the roles that vitamins play as catalysts,
cellular regulators, and co-substrates. Moreover, there is now a better appreciation
of vitaminlike
accessory f
Nanobiomaterials Handbook, Balaji Sitharaman
» :: Nanobiomaterials Handbook, Balaji Sitharaman
Surveys the major topics and disciplines underlying the subject of nanobiomaterials Examines state-of-the-art research and practice around the world Includes contributions by a team of world-renowned experts Presents the unique challenges in the design, fabrication, and evaluation of bionanomaterials from a device-development and applications point of view Explores the intersection of bionanomaterials with biological systems Discusses issues related to the biocompatibility of bionanomaterials
Index
Nanobiomaterials exhibit distinctive characteristics, including mechanical, electrical, and optical properties, which make them suitable for a variety of biological applications. Because of their versatility, they are poised to play a central role in nanobiotechnology and make significant contributions to biomedical research and healthcare. Nanobiomaterials Handbook offers a broad introduction for those new to the subject and serves as a useful reference for advanced professionals.
Analyzing major topics and disciplines in this arena, this volume:
- Defines scope, current status, and future prospects of nanobiomaterials
- Surveys nanobiomaterials and examines various synthesis and processing techniques important for developing nanobiomaterials
- Explores the unique nanoscopic physicochemical properties of nanobiomaterials
- Discusses potential applications, emphasizing unique challenges in the design, fabrication, and evaluation of biomaterials for a particular application or field
- Provides a detailed overview of the interactions between bionanomaterials/biological systems and the biocompatibility issues associated with bionanomaterials
Advances in nanobiomaterials requires a multidisciplinary approach spanning major fields in physical and biological sciences, engineering, and medicine with considerable collaboration between ethicists, regulatory bodies, and industry. This volume brings together the work of a team of world-renowned experts from various fields who discuss the vast potential for nanobiomaterials in a myriad of applications.
Key Features
Table of Contents
Chapter 1: Nanobiomaterials: Current and Future Prospects; Pramod K. Avti, Sunny C. Patel,Balaji Sitharaman
Chapter 2: Multifunctional Gold Nanoparticles for Cancer Therapy; Maung Kyaw Khaing Oo, Henry Du,Hongjun Wang
Chapter 3: Synthesis, Processing, and Characterization of Ceramic Nanobiomaterials for Biomedical Applications; Michael Hacker, Rudi Hötzel, Peter-Georg Hoffmeister, Michaela Schulz-Siegmund
Chapter 4: Synthesis, Properties, Characterization, and Processing of Polymeric Nanobiomaterials for Biomedical Applications; Theoni K. Georgiou
Chapter 5: Carbon-Based Nanomedicine; Michael L. Matson, Jeyrama Anantha, and Lon J. Wilson
Chapter 6: Synthetic and Toxicological Characteristics of Silica Nanomaterials for Imaging and Drug Delivery Applications; Heather Herd,Hamid Ghandehari
Chapter 7: Peptide-Based Self-Assembled Nanofibers for Biomedical Applications; Joel M. Anderson, Meenakshi Kushwaha, Dong Jin Lim, and Ho-Wook Jun
Chapter 8: Electrostatically Self-Assembled Nanomaterials; Helmut Strey
Chapter 9: Peptide-Based Nanomaterials for siRNA Delivery: Design, Evaluation, and Challenges; Seong Loong Lo, Yukti Choudhury,Shu Wang
Chapter 10: Nucleic Acid Nanobiomaterials; Bin Wang
Chapter 11: Emerging Technologies in Nanomedicine; Debra T. Auguste, F. Kyle Satterstrom, Marjan Rafat, Jin-Oh You
Chapter 12: Nanomaterials for Therapeutic Drug Delivery; Dinesh Jegadeesan and M. Eswaramoorthy
Chapter 13: Nanobiomaterials for Nonviral Gene Delivery; Xiujuan Zhang, Daniel A. Balazs, W.T. Godbey
Chapter 14: Nanobiomaterials for Cancer-Targeting Therapy; Mingji Jin, Zhonggao Gao
Chapter 15: Nanobiomaterials for Ocular Applications; Rinti Banerjee
Chapter 16: Nucleic Acid Based Nanobiosensing; Nicholas M. Fahrenkopf, Phillip Z. Rice and Nathaniel C. Cady
Chapter 17: Nanobiomaterials for Molecular Imaging; Dian Arifin and Jeff Bulte
Chapter 18: Gadolinium-Based Bionanomaterials for Magnetic Resonance Imaging; Eva Toth and Lothar Helm
Chapter 19: Nanostructured Materials for Improved Magnetic Resonance Imaging; Hamsa Jaganathan, Albena Ivanisevic
Chapter 20: Nanobiomaterials for Dual-Mode Molecular Imaging: Advances in Probes for MR/Optical Imaging Applications; Chuqiao Tu and Angelique Louie
Chapter 21: Nanoscale Probes for the Imaging of RNA in Living Cells; Philip J. Santangelo, Aaron Lifland, Chiara Zurla
Chapter 22: Nanomaterials for Artificial Cells; Xiaojun Yu, Elvin Lee, Alicia Vandersluis, Harinder K. Bawa
Chapter 23: Nanobiomaterials for Musculoskeletal Tissue Engineering; Minal Patel, Kyobum Kim, and John P. Fisher
Chapter 24: Nanocomposite Polymer Biomaterials for Tissue Repair of Bone and Cartilage: A Material Science Perspective; Akhilesh K. Gaharwar, Patrick J. Schexnailder, Gudrun Schmidt
Chapter 25: Collagen: A Natural Nanobiomaterial for High-Resolution Studies in Tissue Engineering; Brian M. Gillette, Niccola N. Perez, Prasant Varghese, Samuel Sia
Chapter 26: Nanotopography on Implant Biomaterials; Edwin Lamers, Frank Walboomers, and John Jansen
Chapter 27: Nanoarray Bionanotechnology; Alexandra H. Brozena and YuHuang Wang
Chapter 28: Photopatternable Multifunctional Nanobiomaterials; Tingrui Pan, Hailin Cong
Chapter 29: Nanobiomaterials for Preclinical Studies and Clinical Diagnostic; Youssef Zaim Wadghiri, Karen Briley-Saebo
Chapter 30: Biocompatibility of Nanomaterials: Physical and Chemical Properties of Nanomaterials Relevant to Toxicological Studies, In Vitro and In Vivo; Christie Sayes and J. Michael Berg
Chapter 2: Multifunctional Gold Nanoparticles for Cancer Therapy; Maung Kyaw Khaing Oo, Henry Du,Hongjun Wang
Chapter 3: Synthesis, Processing, and Characterization of Ceramic Nanobiomaterials for Biomedical Applications; Michael Hacker, Rudi Hötzel, Peter-Georg Hoffmeister, Michaela Schulz-Siegmund
Chapter 4: Synthesis, Properties, Characterization, and Processing of Polymeric Nanobiomaterials for Biomedical Applications; Theoni K. Georgiou
Chapter 5: Carbon-Based Nanomedicine; Michael L. Matson, Jeyrama Anantha, and Lon J. Wilson
Chapter 6: Synthetic and Toxicological Characteristics of Silica Nanomaterials for Imaging and Drug Delivery Applications; Heather Herd,Hamid Ghandehari
Chapter 7: Peptide-Based Self-Assembled Nanofibers for Biomedical Applications; Joel M. Anderson, Meenakshi Kushwaha, Dong Jin Lim, and Ho-Wook Jun
Chapter 8: Electrostatically Self-Assembled Nanomaterials; Helmut Strey
Chapter 9: Peptide-Based Nanomaterials for siRNA Delivery: Design, Evaluation, and Challenges; Seong Loong Lo, Yukti Choudhury,Shu Wang
Chapter 10: Nucleic Acid Nanobiomaterials; Bin Wang
Chapter 11: Emerging Technologies in Nanomedicine; Debra T. Auguste, F. Kyle Satterstrom, Marjan Rafat, Jin-Oh You
Chapter 12: Nanomaterials for Therapeutic Drug Delivery; Dinesh Jegadeesan and M. Eswaramoorthy
Chapter 13: Nanobiomaterials for Nonviral Gene Delivery; Xiujuan Zhang, Daniel A. Balazs, W.T. Godbey
Chapter 14: Nanobiomaterials for Cancer-Targeting Therapy; Mingji Jin, Zhonggao Gao
Chapter 15: Nanobiomaterials for Ocular Applications; Rinti Banerjee
Chapter 16: Nucleic Acid Based Nanobiosensing; Nicholas M. Fahrenkopf, Phillip Z. Rice and Nathaniel C. Cady
Chapter 17: Nanobiomaterials for Molecular Imaging; Dian Arifin and Jeff Bulte
Chapter 18: Gadolinium-Based Bionanomaterials for Magnetic Resonance Imaging; Eva Toth and Lothar Helm
Chapter 19: Nanostructured Materials for Improved Magnetic Resonance Imaging; Hamsa Jaganathan, Albena Ivanisevic
Chapter 20: Nanobiomaterials for Dual-Mode Molecular Imaging: Advances in Probes for MR/Optical Imaging Applications; Chuqiao Tu and Angelique Louie
Chapter 21: Nanoscale Probes for the Imaging of RNA in Living Cells; Philip J. Santangelo, Aaron Lifland, Chiara Zurla
Chapter 22: Nanomaterials for Artificial Cells; Xiaojun Yu, Elvin Lee, Alicia Vandersluis, Harinder K. Bawa
Chapter 23: Nanobiomaterials for Musculoskeletal Tissue Engineering; Minal Patel, Kyobum Kim, and John P. Fisher
Chapter 24: Nanocomposite Polymer Biomaterials for Tissue Repair of Bone and Cartilage: A Material Science Perspective; Akhilesh K. Gaharwar, Patrick J. Schexnailder, Gudrun Schmidt
Chapter 25: Collagen: A Natural Nanobiomaterial for High-Resolution Studies in Tissue Engineering; Brian M. Gillette, Niccola N. Perez, Prasant Varghese, Samuel Sia
Chapter 26: Nanotopography on Implant Biomaterials; Edwin Lamers, Frank Walboomers, and John Jansen
Chapter 27: Nanoarray Bionanotechnology; Alexandra H. Brozena and YuHuang Wang
Chapter 28: Photopatternable Multifunctional Nanobiomaterials; Tingrui Pan, Hailin Cong
Chapter 29: Nanobiomaterials for Preclinical Studies and Clinical Diagnostic; Youssef Zaim Wadghiri, Karen Briley-Saebo
Chapter 30: Biocompatibility of Nanomaterials: Physical and Chemical Properties of Nanomaterials Relevant to Toxicological Studies, In Vitro and In Vivo; Christie Sayes and J. Michael Berg
Chapter 31: Hemocompatibility of Nanoparticles; Shankar J. Evani, Anand Ramasubramanian
Chapter 32: Breaking the Carbon Barrier: Nanobiomaterials and Communal Ethics; David M. Berube
Index