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The book is a useful resource for scientists, professionals, and students engaged in academic and industrial research pertaining to chitin, chitosan, and polysaccharides.
This book presents a comprehensive and authoritative review of the recent developments and advances in biodegradable polymers and their biomedical applications. Following an interdisciplinary approach, it combines the medical and pharmaceutical fields in conjunction with biomedical engineering, polymer science, materials science, and pharmacological aspects of biodegradable polymers. The text covers the synthesis, properties, and characterization of biodegradable polymers and systems and their applications in sustained drug delivery, anticancer therapy, vaccine delivery, gene delivery, surgery, wound care, cardiology, dentistry, orthopedics, medical devices, tissue engineering, and cosmeceuticals. It also details the safety aspects, market economy, challenges, and opportunities related to biodegradable polymers, providing an understanding of the commercial and translational aspects of these crucial biomaterials. Edited and authored by renowned scientists working on biodegradable polymers, biocomposites, biodegradable systems, and implants, the book is an important resource for academicians, researchers, students, professionals, and general readers interested in exploring the potential biomedical applications of biodegradable polymers.
Bionanomaterials for Industrial Applications is a comprehensive guide to the current state of bionanomaterials research and their prospective applications in a variety of industrial sectors. The book discusses the properties of bionanomaterials, types and their potential applications in various disciplines, such as biomedicine, food industry, environment, etc. It provides a comprehensive overview of the current state of bionanomaterials research and their potential applications, making it an indispensable resource for anyone interested in learning more about this dynamic and rapidly developing field. Features: - Discusses properties, classifications, and synthesis of bionanomaterials in addition to industrial applications. - Covers circular economy and life cycle assessment of bionanomaterials. - Explores impact of bionanomaterials on environment and human health. - Includes individual chapters specifically focusing on a particular application of bionanomaterials. - Reviews detailed industrial applications in particular field viz. environmental, food sciences, biomedical, and so forth. This book is designed for researchers, scientists, engineers, and graduate students working in the field of bionanomaterials, as well as industrial professionals who could benefit from the use of bionanomaterials.
Over the course of 20 years, gastroenterologist and entrepreneur Dr. Shakeel Ahmed has grown his own healthcare enterprise into one of the largest Ambulatory Surgery Centers franchise in the Midwest. The secret to his success is his thorough awareness of the administrative process and his intimate understanding of the surgical process as a working physician, a level of firsthand knowledge and insight that has allowed him to effectively and efficiently navigate and manage what is a highly complex field. In addition to his internationally renowned expertise in the ASC industry, Dr. Ahmed has also been instrumental in creating a wide variety of medical ventures as part of his multi-state portfolio, a portfolio that includes multiple medical practices, imaging centers, surgical centers, and other related entities. He is the author of Success in Ambulatory Surgery Centers, The Next Gold Rush, The Healthcare Entrepreneur: A Handbook of Investing in the Medical Industry, the author of hundreds of published articles, and has been featured on the cover of internationally renowned surgical magazines.In his third book on the business of outpatient surgery, Dr. Ahmed offers a first-of-its kind, exhaustive, and meticulous analysis of the diverse range of surgeries that can be effectively carried out in Ambulatory Surgery Centers. He delves deeply into the nuances of the operational costs and equipment requirements, delineating both the clinical and financial aspects of performing advanced surgical cases with clarity and precision. Additionally, he extends his discussion to an in-depth examination of the billing practices and reimbursement processes associated with different surgical specialties. His detailed exposition covers the myriad factors that influence specialty surgeries, including the billing and coding of surgical services, financial pitfalls involved in advanced surgeries, the resources utilized, and the holy grail to follow to profit in this complex field. His thorough approach offers a valuable perspective on the financial dynamics of Ambulatory Surgery Centers, making this book not only informative but also essential for professionals in the healthcare sector.
Characterization Techniques for Bionanocomposites: Advances, Challenges, and Applications provides a detailed review of current techniques used for the characterization of bionanocomposites. The chapters cover physical, chemical, thermal, and electrical characterization techniques as well as spectroscopic and microscopic methods. There is also an entire section dedicated to biodegradability and biological characterization. With its numerous case studies and practical examples, researchers will find this book a valuable information resource that enables them to identify which specialized characterization tools can be applied to different materials for a broad range of biological, environmental, and industrial applications.
This book comprehensively covers various aspects of biobased nanomaterials, including their types, fabrication methods, characterization techniques, and applications in different fields. The book starts with an introduction to biobased nanomaterials, highlighting their significance in various fields due to their unique properties. The first few chapters cover the different types of biobased nanomaterials, their properties, and how they are extracted from various natural sources. The methods of fabrication of biobased nanomaterials are discussed in detail, including the techniques for controlling their size, shape, and composition. It then delves into the characterization of biobased nanomaterials, discussing the different techniques used to determine their properties, including their morphology, size, structure, and composition. The subsequent chapters explore the various applications of biobased nanomaterials in different fields such as environmental applications, wound healing, tissue engineering, food industry, agriculture, sensing technology, biomedical applications, and energy storage devices. The advantages of biobased nanomaterials over traditional nanomaterials are highlighted, including their biodegradability and sustainability. The environmental concerns associated with biobased nanomaterials, as well as the health and safety concerns, are also discussed. The book concludes by looking at the prospects of biobased nanomaterials and how they can contribute to sustainable development. Overall, the book is an informative and comprehensive book that provides a thorough understanding of biobased nanomaterials and their various applications. It is a valuable resource for researchers, students, and professionals in various fields such as materials science, chemistry, biology, and environmental science. alike.
Marine Biopolymers: Processing, Functionality and Applications focuses on recent developments in the isolation, characterization, and processability of these materials for biomedical, nutraceutical, cosmetic, and regenerative medicine applications.The marine environment represents a huge single resource for the development of natural biobased materials with enhanced, well-characterized and multi-functional properties. The isolation, characterization, and processability of these materials are crucial for the development of the marine biotechnological industries. In recent years, novel biobased materials have been extracted from marine habitats that have been proven to have exceptional wound-healing characteristics and anti-cancer therapeutic benefits. Moreover, some components based on marine resources can play a key role in medicinal food applications, in cosmetics as well as in the pharmaceutical sector.Marine Biopolymers: Processing, Functionality and Applications is a valuable reference resource for scientific and academic researchers, industrial R&D and those working in the marine biotechnology industries that produce microalgae and natural bioproducts. The book will also be relevant for researchers working in aquaculture, biology, bioenergy, and biofuels production, as well as food and nutrition, cosmetics, and the pharmaceutical industry.
This book provides a comprehensive and authoritative review of recent developments in bio-based packaging materials along with an array of their industrial applications. It offers an interdisciplinary approach, combining food engineering, polymer science, materials science, and sustainable aspects of bio-based materials with their synthesis, properties, characterization, and applications in packaging materials. The book encloses chapters covering fundamental concepts, manufacturing, properties, characterization, and interaction of bio-based materials. It also discusses topics related to the different usage of bio-based materials, their environmental impact, regulations, safety aspects, circular economy, challenges, and opportunities allied to bio-based materials. It is an essential resource for academicians, researchers, students, and professionals interested in exploring the potential bio-based materials in food packaging.
Nanotechnology has been emerging as an important tool in the nutraceutical and food industries to improve the overall quality of life. Nanotechnology has established a new horizon by bestowing modified properties on nanomaterials and applying them to the production of nanoformulations, nutritional supplements, and the food industry. The Handbook of Nanotechnology in Nutraceuticals highlights the impact of nanotechnology on the food industries.The book focuses on the application of nanotechnology in nutraceuticals and the food industry to improve the overall quality of life. The book also addresses some important applications of nano-nutraceuticals in the treatment of different diseases, such as oxidative stress, cancer, neurodegenerative disorders, cardiovascular diseases, and so on.Features Presents a scientometric approach to analyze the emergence of nano-nutraceuticals in cancer prevention and treatment Examines various strategies employed to prepare nanocarrier systems, such as nanoparticles, nanostructure lipids, phospholipid-based nanocarriers, polysaccharide-based nanostructures, and metal nanoparticles Discusses various regulatory issues related to nanotechnology and their application in different fieldsThis book is a valuable reference for nanotechnologists, scientists, and researchers working in the field of food technology, food science, pharmaceuticals, and nutraceuticals.a a a
This book presents key topics on biopolymers, including their synthesis, characterization, and physiochemical properties, and discusses their applications in key areas such as biomedicine, agriculture, and environment engineering.
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