|Author||: Afeesh Rajan Unnithan,Arathyram Ramachandra Kurup Sasikala,Chan Hee Park,Cheol Sang Kim|
|Release Date||: 2019-11-05|
|ISBN 10||: 0128149450|
|Pages||: 208 pages|
Biomimetic Nanoengineered Materials for Advanced Drug Delivery is an indispensable guide for new developments in biomimetic nanoengineering for advanced drug delivery applications. Focusing on the fundamentals of a new type of nanocarriers for drug delivery in the most recent miRNA therapeutics, the book provides readers with detailed knowledge from the basics, to the most recent innovations. Early chapters of the book discuss a range of drug delivery techniques, including nanofibers, biomimetic polymers, 3D bioprinting, nanotechnology and radiofrequency sensitive nanocarriers. Later chapters explore miRNA therapeutics, magnetic nanoparticles, nanogel-based and ROS-mediated drug delivery systems. The book is a vital reference for biomaterials and nanomedicine researchers and clinicians with an interest in advanced drug delivery. Analyzes nanoparticle-plasma protein interactions, making it one of the first books on this topic Includes the latest trends in nanotherapeutic drug delivery Presents comprehensive chapters that cover a specific drug delivery carrier and its mode of operation, stimuli and the target site of action Provides an essential tool for researchers in nanomedicine and nanobiomaterials
|Author||: Masoud Mozafari|
|Release Date||: 2020-06-17|
|ISBN 10||: 0081029861|
|Pages||: 820 pages|
Nanoengineered Biomaterials for Advanced Drug Delivery explores the latest advances in the applications of nanoengineered biomaterials in drug delivery systems. The book covers a wide range of biomaterials and nanotechnology techniques that have been used for the delivery of different biological molecules and drugs in the human body. It is an important resource for biomaterials scientists and engineers working in biomedicine and those wanting to learn more on how nanoengineered biomaterials are being used to enhance drug delivery for a variety of diseases. Nanoengineered biomaterials have enhanced properties that make them more effective than conventional biomaterials as both drug delivery agents, and in the creation of new drug delivery systems. As nanoengineering becomes more cost-effective, nanoengineered biomaterials have become more widely used within biomedicine. Offers an informed overview on how nanoengineering biomaterials enhance their properties for drug delivery applications Discusses the major applications of nanoengineered biomaterials for drug delivery Outlines the major challenges for successfully implementing nanoengineered biomaterials into existing drug delivery systems
This book compiles all aspects of biomimetics from fundamentalprinciples to current technological advances and their futuretrends in the development of nanoscale biomaterials and tissueengineering. The scope of this book is principally confined tobiologically-inspired design of materials and systems for thedevelopment of next generation nanobiomaterials and tissueengineering. The book addresses the state-of-the-art of researchprogress in the applications of the principles, processes, andtechniques of biomimetics. The prospective outcomes of currentadvancements and challenges in biomimetic approaches are alsopresented.
Stem Cell Nanoengineering reviews the applications of nanotechnology in the fields of stem cells, tissue engineering, and regenerative medicine. Topics addressed include various types of stem cells, underlying principles of nanobiotechnology, the making of nano-scaffolds, nano tissue engineering, applications of nanotechnology in stem cell tracking and molecular imaging, nano-devices, as well as stem cell nano-engineering from bench to bedside. Written by renowned experts in their respective fields, chapters describe and explore a wide variety of topics in stem cell nanoengineering, making the book a valuable resource for both researchers and clinicians in biomedical and bioengineering fields.
Regenerative medicine focuses on using stem cell biology to advance medical therapies for devastating disorders. Musculoskeletal degeneration and complications from injuries have become more prevalent as people live longer and increasingly participate in rigorous athletic and recreational activities. Additionally, defects in skeletal tissues may immobilize people and cause inflammation and pain. Musculoskeletal regeneration research provides solutions to repair, restore or replace skeletal elements and associated tissues that are affected by acute injury, chronic degeneration, genetic dysfunction and cancer-related defects. The goal of musculoskeletal regeneration medicine research is to improve quality of life and outcomes for people with musculoskeletal injury or degradation. Nanoengineering in Musculoskeletal Regeneration provides the reader an updated summary of therapeutic pipeline from biomedical discovery to clinical implementation, improving treatments for patients with conditions of the muscles, tendons, cartilage, meniscus and bone. This text presents novel, significant, and interdisciplinary theoretical and experimental results related to nanoscience and nanotechnology in the musculoskeletal regeneration. Content includes basic, translational, and clinical research addressing musculoskeletal repair and regeneration for the treatment of diseases and injuries of the skeleton and its associated tissues.
|Author||: Materials Research Society. Meeting|
|Publisher||: Cambridge Univ Pr|
|Release Date||: 2004-09-09|
|ISBN 10||: 9781558997707|
|Pages||: 420 pages|
This book combines the proceedings of Symposium O, Advanced Microsystems - Integration with Nanotechnology and Biology, and Symposium R, Three-Dimensional Nanoengineered Assemblies II, both from the 2004 MRS Spring Meeting in San Francisco. The book addresses scientific and technology challenges in materials science for advanced nano- and Microsystems - self-assembled materials; interfacial sciences and novel microsystems/microdevices; nanoparticle synthesis and applications; nanomaterials and nanofabrications in microsystems and microdevices; tissue engineering; integrated microanalysis; and nano- and biomicrosystems and devices. Symposium R aimed to advance the practice and progress of nanoengineering in three dimensions. Novel approaches to materials processing and applications for >2D structures that will advance present practice, even if they cannot yet be applied to the nanometer scale, are featured. Included are contact-based processing schemes such as soft lithography, template transfer, self-assembly, biological or biomimetic interactions, and various mass transport processes. The manipulation of nanoparticles and plasmon processes is also addressed, as are three-dimensional photonic structures - even if they are not yet on the nanoscale.
|Author||: Ali Khademhosseini|
|Publisher||: Artech House|
|Release Date||: 2008-02-28|
|ISBN 10||: 1596931493|
|Pages||: 627 pages|
Supported with 140 illustrations, the volume exhaustively covers the micro- and nano-system technologies involved in developing cell-based bioengineering applications. You get full details on efforts to engineer the soluble and insoluble cell microenvironments, including the latest advances in microfluidic devices, surface patterning, 3D scaffolds, and techniques for engineering cellular mechanical properties and topography.
Biopolymer-Based Composites: Drug Delivery and Biomedical Applications presents a comprehensive review on recent developments in biopolymer-based composites and their use in drug delivery and biomedical applications. The information contained in this book is critical for the more efficient use of composites, as detailed up-to-date information is a pre-requirement. The information provided brings cutting-edge developments to the attention of young investigators to encourage further advances in the field of bio-composite research. Currently, biopolymers are being investigated for the design of various drug delivery and biomedical devices due to their non-toxic, biodegradable and biocompatible nature. Mostly, biopolymer-based solid orals, gels, hydrogel beads, and transdermal matrices have been designed in order to control drug/protein release in simulated bio-fluids. Presents the most updated information in the field of pharmaceutical and biological sciences Contains color figures and illustrations to help users understand key topics Useful guide for young researchers working towards new innovations Includes chapters covered by eminent scientists in the field
The combination of conductive polymer technology with the ability to produce nanofibres will facilitate major new developments in biotechnology and information technology, benefiting such areas as scaffolds for tissue engineering and drug delivery systems; wires, capacitors, transistors and diodes; sensor technology; biohazard protection; and energy transport, conversion and storage. The work on nanofibrous materials presented here is designed, first of all, to instruct scientists in the most advanced methods for the formation of nanofibres and nanotubes. The second section covers the physics and chemistry of nanofibres, while the third deals with computer simulation and modelling. The applications described in section 4 include biomedical applications, nanotube-based devices, electronic applications of nanotubes and nanofibres, nanofluidics, and composites. Finally, the fifth section discusses recent developments in nanomaterials, nanoparticles and nanostructures.
|Author||: Sabu Thomas,Yves Grohens,Neethu Ninan|
|Publisher||: William Andrew|
|Release Date||: 2015-01-03|
|ISBN 10||: 0323353037|
|Pages||: 336 pages|
Tissue engineering involves seeding of cells on bio-mimicked scaffolds providing adhesive surfaces. Researchers though face a range of problems in generating tissue which can be circumvented by employing nanotechnology. It provides substrates for cell adhesion and proliferation and agents for cell growth and can be used to create nanostructures and nanoparticles to aid the engineering of different types of tissue. Written by renowned scientists from academia and industry, this book covers the recent developments, trends and innovations in the application of nanotechnologies in tissue engineering and regenerative medicine. It provides information on methodologies for designing and using biomaterials to regenerate tissue, on novel nano-textured surface features of materials (nano-structured polymers and metals e.g.) as well as on theranostics, immunology and nano-toxicology aspects. In the book also explained are fabrication techniques for production of scaffolds to a series of tissue-specific applications of scaffolds in tissue engineering for specific biomaterials and several types of tissue (such as skin bone, cartilage, vascular, cardiac, bladder and brain tissue). Furthermore, developments in nano drug delivery, gene therapy and cancer nanotechonology are described. The book helps readers to gain a working knowledge about the nanotechnology aspects of tissue engineering and will be of great use to those involved in building specific tissue substitutes in reaching their objective in a more efficient way. It is aimed for R&D and academic scientists, lab engineers, lecturers and PhD students engaged in the fields of tissue engineering or more generally regenerative medicine, nanomedicine, medical devices, nanofabrication, biofabrication, nano- and biomaterials and biomedical engineering. Provides state-of-the-art knowledge on how nanotechnology can help tackling known problems in tissue engineering Covers materials design, fabrication techniques for tissue-specific applications as well as immunology and toxicology aspects Helps scientists and lab engineers building tissue substitutes in a more efficient way
|Author||: Sarat Kumar Swain,Mohammad Jawaid|
|Release Date||: 2019-06-15|
|ISBN 10||: 0128168927|
|Pages||: 552 pages|
Nanostructured Polymer Composites for Biomedical Applications addresses the challenges researchers face regarding the creation of nanostructured polymer composites that not only have superior performance and mechanical properties, but also have acceptable biological function. This book discusses current efforts to meet this challenge by discussing the multidisciplinary nature of nanostructured polymer composite biomaterials from various fields, including materials science, polymer science, biomedical engineering and biomedicine. This compilation of existing knowledge will lead to the generation of new terminology and definitions across individual disciplines. As such, this book will help researchers and engineers develop new products and devices for use in effective medical treatment. Summarizes the most recent strategies to develop nanostructured polymer composite biomaterials for biomedicine Outlines the major preparation and characterization techniques for a range of polymer nanocomposites used in biomedicine Explores the design of new types of nanostructured polymer composites for applications in drug delivery, tissue engineering, gene therapy and bone replacement
This book covers a wide range of topics relating to carbon nanomaterials, from synthesis and functionalization to applications in advanced biomedical devices and systems. As they possess unique and attractive chemical, physical, optical, and even magnetic properties for various applications, considerable effort has been made to employ carbon nanomaterials (e.g., fullerenes, carbon nanotubes, graphene, nanodiamond) as new materials for the development of novel biomedical tools, such as diagnostic sensors, imaging agents, and drug/gene delivery systems for both diagnostics and clinical treatment. Tremendous progress has been made and the scattered literature continues to grow rapidly. With chapters by world-renowned experts providing an overview of the state of the science as well as an understanding of the challenges that lie ahead, Carbon Nanomaterials for Biomedical Applications is essential reading not only for experienced scientists and engineers in biomedical and nanomaterials areas, but also for graduate students and advanced undergraduates in materials science and engineering, chemistry, and biology.
|Author||: Venkatram Prasad Shastri,George Altankov,Andreas Lendlein|
|Publisher||: Springer Science & Business Media|
|Release Date||: 2010-08-14|
|ISBN 10||: 9048187885|
|Pages||: 406 pages|
This book summarizes the NATO Advanced Research Workshop (ARW) on “Nanoengineered Systems for Regenerative Medicine” that was organized under the auspices of the NATO Security through Science Program. I would like to thank NATO for supporting this workshop via a grant to the co-directors. The objective of ARW was to explore the various facets of regenerative me- cine and to highlight role of the “the nano-length scale” and “nano-scale systems” in defining and controlling cell and tissue environments. The development of novel tissue regenerative strategies require the integration of new insights emerging from studies of cell-matrix interactions, cellular signalling processes, developmental and systems biology, into biomaterials design, via a systems approach. The chapters in the book, written by the leading experts in their respective disciplines, cover a wide spectrum of topics ranging from stem cell biology, developmental biology, ce- matrix interactions, and matrix biology to surface science, materials processing and drug delivery. We hope the contents of the book will provoke the readership into developing regenerative medicine paradigms that combine these facets into cli- cally translatable solutions. This NATO meeting would not have been successful without the timely help of Dr. Ulrike Shastri, Sanjeet Rangarajan and Ms. Sabine Benner, who assisted in the organization and implementation of various elements of this meeting. Thanks are also due Dr. Fausto Pedrazzini and Ms. Alison Trapp at NATO HQ (Brussels, Belgium). The commitment and persistence of Ms.
|Author||: Yashwant V Pathak|
|Release Date||: 2019-03-11|
|ISBN 10||: 3030061159|
|Pages||: 499 pages|
This unique book is the only one to discuss various new techniques developed to enhance the application of nanoparticulate drug delivery systems using surface modification of nanoparticles. The understanding of the surface characteristics nano-particles is growing significantly with the advent of new analytical techniques. Polymer chemistry is contributing to the development of many new versatile polymers which have abilities to accommodate many different, very reactive chemical groups, and can be used as a diagnostic tool, for better targeting, for more effective therapeutic results as well as for reducing the toxic and side effects of the drugs. Surface modification of such polymeric nanoparticles has been found by many scientists to enhance the application of nanoparticles and also allows the nano particles to carry specific drug molecule and disease /tumor specific antibodies which refine and improve drug delivery. Surface Modification of Nanoparticles for Targeted Drug Delivery is a collection essential information with various applications of surface modification of nanoparticles and their disease specific applications for therapeutic purposes.
|Author||: Christopher M. Jewell|
|Release Date||: 2008|
|Pages||: 316 pages|
|Author||: Challa S.S.R. Kumar|
|Publisher||: Springer Nature|
|Release Date||: 2019-11-22|
|ISBN 10||: 3662595966|
|Pages||: 464 pages|
Ninth volume of a 40 volume series on nanoscience and nanotechnology, edited by the renowned scientist Challa S.S.R. Kumar. This handbook gives a comprehensive overview about Nanotechnology Characterization Tools for Tissue Engineering and Medical Therapy. Modern applications and state-of-the-art techniques are covered and make this volume an essential reading for research scientists in academia and industry.
Nanoengineering: Global Approaches to Health and Safety Issues provides a global vision on the impact of engineered nanomaterials both for the consumer/general public and in occupational settings. The book also presents a hint on what can be expected for the future from nanomaterials and their effects on our lives, both at home and at work. In addition, users will find valuable information on nanomaterials' irreplaceable value and their risks for health, safety, and environmental issues. Case studies illustrate key points and provide information on important processes. Provides a global vision on the different aspects related to nanosafety and a synthesis of the information available Gives all the information required for precision decision-making in a single book, offering both general public and occupational aspects Contains separate chapters on each subject written by world-renowned contributors Presents a complete vision of the problem, with perspectives on global approaches Includes case studies that illustrate important processes
Biocatalytic Technology & Nanotechnology
This book fills the gap between fundamental and applied research in the use of nanomaterials in biomedical applications, covering the most relevant areas, such as the fundamental concepts of the preparation of nanostructures and regulatory requirements for their safe use in biomedical devices. It also critically discusses what has been achieved in the field, and what needs to be urgently addressed and reviews the state-of-the-art medical uses of nanomaterials for treating damaged organs and tissues. Combining the expertise of clinical researchers working in the field of tissue engineering and novel materials, the book explores the main topics regarding the characterization of materials, specific organ-oriented biomaterials and their applications, as well as regulations and safety. Further, it also examines recent advances, difficulties, and clinical requirements in terms of human bone, cornea, heart, skin and the nervous system, allowing readers to gain a clear and comprehensive understanding of current nanomaterial use in biomedical applications and devices, together with the challenges and future trends. This book is a valuable tool for multidisciplinary scientists and experts interested in fundamental concepts and synthetic routes for preparing nanomaterials. It is also of interest to students and researchers involved in cross-disciplinary research in nanomaterials for clinical applications and offers practical insights for clinicians as well as engineers and materials scientists working in nanoengineering.