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This book highlights a novel combination of nanotechnology and biotechnology enabling the practical use of conventional microtechnology in conjunction with a molecular approaches in cancer detection and treatment. As nanotechnology and biotechnology have advanced, the methods such as nanoimaging, nanobiosensing, nanolabeling, nanodiagnostics, and nanotherapeutics have developed. The pricey old manufacturing process will be replaced by the new expanding field of nanobiotechnology, which will produce durable, flexible, and accurate devices at a lower cost and with less environmental impact. Drug distribution, sensor systems, small robots, and surgical instruments might all benefit from the development of stronger materials made possible by this technique. Nanobiotechnology may be used to create atomic grade machines by merging or simulating biological processes or creating tiny tools to alter many aspects of the living system at the molecular level. This book presents a state-of-the art technology that enhances our existing knowledge and ideas integrating chemistry, physics, and biology. The book discusses a number of cutting edge medical technologies that use nanoparticles as delivery or sensing systems are examples of nanobiotechnology as they employ nanotechnology to further biological objectives.
List of contents
Chapter 1. Conductive polymers based on polyaniline for biosensing in cancer diagnosis: A practical approach for diagnosis in early stages.- Chapter 2. Bio-inspired nancomposites based on bio-polymer for biosensing and early detection of cancers.- Chapter 3. Biosensor-based on Metal-organic frameworks for early detection of cancers.- Chapter 4. Electroconductive polymers-based biosensors for noninvasive and early detection of cancers: Recent progresses and future prospects.- Chapter 5. Nucleic acid-based nanobiosensors for geno-electrochemical cancer detection: A summary of current developments in cutting-edge materials and technologies.- Chapter 6. Stimulus-responsive hydrogels for tissue engineering and targeted medication administration via multi-dimensional printing: An encouraging strategy for innovative smart materials and technologies.- Chapter 7. Nucleic acid nanoparticles-based drug delivery system: An emerging approach for developing therapeutic paradigm.- Chapter 8. Multi-dimentional printing and computer-aided design techniques for drug delivery scaffolds in tissue engineering.- Chapter 9. Exosomal micro/nanoparticles for drug delivery in cancer therapy: A promising approaches.- Chapter 10. Polysaccharides based on smart chitosan nanoparticles for gene delivery and gene therapy.
About the author
Dr. Seyed Morteza Naghib received his Ph.D. in biomedical engineering from Tehran Polytechnique (2014) and M.ASc. (2010) and B.ASc. (2009) degrees from Amirkabir University of Technology both in biomedical engineering (biomaterials). His research interests are in the areas of tissue engineering, medical nanotechnology, nanobiomaterials, nanocarriers, and nanobiosensors. He also published 3 books in the field entitled "Localized Micro/Nanocarriers for Programmed and On-Demand Controlled Drug Release", "Electrochemical Biosensors in Practice: Materials and Methods", and "Green plant extract-based synthesis of multifunctional nanoparticles and their biological activities".
Summary
This book highlights a novel combination of nanotechnology and biotechnology enabling the practical use of conventional microtechnology in conjunction with a molecular approaches in cancer detection and treatment. As nanotechnology and biotechnology have advanced, the methods such as nanoimaging, nanobiosensing, nanolabeling, nanodiagnostics, and nanotherapeutics have developed. The pricey old manufacturing process will be replaced by the new expanding field of nanobiotechnology, which will produce durable, flexible, and accurate devices at a lower cost and with less environmental impact. Drug distribution, sensor systems, small robots, and surgical instruments might all benefit from the development of stronger materials made possible by this technique. Nanobiotechnology may be used to create atomic grade machines by merging or simulating biological processes or creating tiny tools to alter many aspects of the living system at the molecular level. This book presents a state-of-the art technology that enhances our existing knowledge and ideas integrating chemistry, physics, and biology. The book discusses a number of cutting edge medical technologies that use nanoparticles as delivery or sensing systems are examples of nanobiotechnology as they employ nanotechnology to further biological objectives.
