Nanobiomaterials Handbook, Balaji Sitharaman

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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

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 

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 31: Hemocompatibility of Nanoparticles; Shankar J. Evani, Anand Ramasubramanian

Chapter 32: Breaking the Carbon Barrier: Nanobiomaterials and Communal Ethics; David M. Berube

Index

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