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This book details the advances in drug discovery and delivery and the present need for emerging technologies. Throughout the text new micro and nanofabrication techniques are described, including methods such as electrohydrodynamic processes, additive manufacturing, and microfluidics, which have the potential to produce drug delivery systems that were not possible a few years ago. This book is of great use to both entry-level and experienced researchers in the field of emerging technologies for the manufacturing of drug delivery devices. Features: Describes technologies that are significantly enhancing the delivery of drugs and biologics Presents new data on mobile and wearable point-of-care testing systems Features hot topics such as electrospinning, 3D printing and micro-needles Focuses on additive manufacturing (AM) which can be used to provide customized treatment for patients Will appeal to experienced researchers and those considering entering the field of emerging technologies for the manufacturing of drug delivery devises
Emerging Nanotechnologies for Diagnostics, Drug Delivery and Medical Devices covers the modern micro and nanotechnologies used for diagnosis, drug delivery, and theranostics using micro, nano, and implantable systems. In-depth coverage of all aspects of disease treatment is included. In addition, the book covers cutting-edge research and technology that will help readers gain knowledge of novel approaches and their applications to improve drug/agent specificity for diagnosis and efficient disease treatment. It is a comprehensive guide for medical specialists, the pharmaceutical-industry, and academic researchers discussing the impact of nanotechnology on diagnosis, drug delivery, and theranostics. - Gives readers working in immunology, drug delivery, and medicine a greater awareness on how novel nanotechnology orientated methods can help improve treatment - Provides readers with backgrounds in nanotechnology, chemistry, and materials science an understanding on how nanotechnology is used in immunology and drug delivery - Includes focused coverage of the use of nanodevices in diagnostics, therapeutics, and theranostics not offered by other books
First of all, I would like to share the great pleasure of the successful five-day symposium with every participant in the 5th Iketani Conference which was held in Kagoshima from April1S (Tuesday) to 22 (Saturday), 1995. Outstanding speakers enthusiastically presented their up-to-the-minute results. Relatively little time was allotted for each presentation to ensure asdnuch time· as possible for intensive discussions on the particular topics that had just been p~esented: I was delighted to see that the lectures were of high quality, and the discu,ssionswere lively, exciting, and productive in a congenial atmosphere. We also had 92 papers in the poster ·session, in which young (and relatively young) scientists made every effort to present the novel results of their research in advanced biomaterials and drug delivery systems (DDS). I believe some of the research is most promising and will become noteworthy in the twenty-first century. It was a privilege for me to deliver a lecture at the special session of the symposium. In my introductory remarks, I pointed out five key terms in multifaceted biomaterials research: materials design, concept or methodology, devices, properties demanded, and fundamentals. I am confident that innovative progress in device manufacturing for end-use, e.g., artificial organs, vascular grafts, and DDS, can be brought about only through properly designed advanced materials that exhibit the desired functionality at the interface with any living body.
Materials for Biomedical Engineering: Nanomaterials-Based Drug Delivery highlights the progress made in the field of nanostructures bioactive materials and their impact on efficient drug delivery towards personalized medicine. Drug delivery is a well investigated and challenging bio-medical field, with promising perspectives in medicine and engineering. This book brings together the latest research findings regarding nanostructured materials and their potential in designing highly efficient and personalized drug delivery systems. - Provides a valuable resource of recent scientific progress, highlighting the most well-known applications of nanostructures in drug delivery systems - Includes novel opportunities and ideas for developing or improving technologies in composites by companies, biomedical industries, and in related sectors - Features at least 50% of references from the last 2-3 years
Engineering of Biomaterials for Drug Delivery Systems: Beyond Polyethylene Glycol examines the combined issues of PEGylation and viable biomaterials as alternatives. With a strong focus on polymeric biomaterials, the book first reviews the major issues associated with PEGylation and its use in vivo. Chapters then focus on alternative polymer systems for drug delivery systems. Finally, nanoparticles and future perspectives are examined. This book is a valuable resource for scientists and researchers in biomaterials, pharmaceuticals and nanotechnology, and all those who wish to broaden their knowledge in this field. - Provides a self-contained work for the field of biomaterials for drug delivery - Summarizes the current knowledge on PEGylation and strategies for bypassing it - Presents research on an important, though under-represented issue in biomaterials - Written by a world-class team of research scientists, engineers and clinicians
Materials for Biomedical Engineering: Organic Micro- and Nanostructures provides an updated perspective on recent research regarding the use of organic particles in biomedical applications. The different types of organic micro- and nanostructures are discussed, as are innovative applications and new synthesis methods. As biomedical applications of organic micro- and nanostructures are very diverse and their impact on modern and future therapy, diagnosis and prophylaxis of diseases is huge, this book presents a timely resource on the topic. Users will find the latest information on cancer and gene therapy, diagnosis, drug delivery, green synthesis of nano- and microparticles, and much more. - Provides knowledge of the range of organic micro- and nanostructures available, enabling the reader to make optimal materials selection decisions - Presents detailed information on current and proposed applications of the latest biomedical materials - Places a strong emphasis on the characterization, production and use of organic nanoparticles in biomedicine, such as gene therapy, DNA interaction and cancer management
Biomedical Applications of Nanoparticles describes the most interesting and investigated biomedical applications of nanoparticles, emphasizing their therapeutic impact. Progress made in the therapy of severe diseases, such as cancer and difficult infections is strictly correlated to the scientific progress and technological development in the field of materials science. Nanoparticles have numerous therapeutic applications, starting with the design of new drugs, delivery systems, therapeutic materials, and their contribution to the development of preventive strategies. The book highlights the impact of nanoparticles on the therapy of infections, antimicrobial effect and also anti-cancer strategies. Successful examples are given throughout the book, along with analysis in order to improve future outcomes of novel therapies. - Highlights the term nanotherapeutics and presents several classifications of nanotherapeutics from different points-of-view - Presents the recent progress related to nanotherapeutics in the oral cavity - Provides the recent progress in the field of biomedical nanoparticles
The book presents to the reader an interdisciplinary vision of microspheres including its concepts and applications. The book ranges from the preparation of microspheres using different methodologies (such as sol-gel processes) through different characterisation techniques as well as the use of these systems for diagnostic diseases (cancer and hemodynamics fields). In addition, this book discusses aspects of the use of microspheres in: i) catalysis and separation sciences; ii) theoretical studies for applications in optical devices; iii) development of new systems aiming biomedical applications and iv) development of carrier systems for bioactive compounds. Thus this book covers a wide range of areas such as physics, chemistry, mathematics, biology, biomedical engineering, medical, and food, among others. This book presents new advances in the use of microspheres and, in this way, we intend to contribute to students, teachers, researchers, research centres, companies, and industries which have interest in these topics. The book is organised into eleven chapters written in a clear and concise form with illustrations that will help readers comprehend all subjects. Furthermore, this book will contribute to the generation of knowledge in this field.
Engineers have long been architects of progress, erecting massive buildings that touch the skies and designing technologies that redefine realms of known possibility. In this era of rapid change, keeping pace with innovation is the main challenge. Emerging Engineering Technologies and Industrial Applications is a comprehensive research book that delves deep into the heart of a relentless technological revolution within modern industry. From the limitless potential of the Internet of Things (IoT) to the cognitive wonders of Artificial Intelligence (AI), from the microscopic marvels of Nanotechnology to the precision and agility of Robotics, and from the revolutionary advancements in 3D Printing to the transformative capabilities of blockchain, this book explores emerging technologies. This book is an indispensable resource for professionals and researchers working in the field of emerging engineering technologies and their industrial applications. It caters to a diverse range of disciplines, including computer science and information technology, environmental, agricultural, and physical sciences, medical, healthcare, and life sciences, as well as science and engineering, and anyone seeking to navigate the current technological progress in the 21st century.
The fact that good manufacturing practice (GMP) audits in the pharmaceutical and biotechnology industries have to be evaluated, and with very limited resources, has created a gap in this field. The lack of trained and qualified GMP auditors is on the rise in all organizations that are required to implement FDA, EMA, MHRA, WHO, TGA, and PIC/S regulations. This volume is an essential reference source for those organizations operating in the field of health and presents the basic knowledge needed to perform audits. The author also provides useful tips and a selection of samples about GMP audits that are indispensable for professionals and health inspectors working in industry and health authorities. Features • An essential reference source for those organizations operating in the field of health and presents the basic knowledge needed to perform audits. • Anyone working in the manufacturing sector needs to be aware of GMP, be able to identify operational flaws as well as legal violations, and have a clear understanding of how to meet GMP standards. • Assists readers in understanding the importance of GMP and how they can apply each aspect in their working environment. • Covers a global regulatory landscape. • Suitable for relevant degree courses including industrial pharmaceutics and pharmaceutical biotechnology.