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Postbiotics: Science, Technology, and Applications explains fundamental and applied knowledge about postbiotics. Chapters cover the definition and classification of postbiotics, principal methods for preparing them, information about the main postbiotic constituents and their biological activities and their clinical health benefits. The authors also familiarize the reader with potential applications of postbiotics in the food industry, pharmaceutical chemistry, medicine, and veterinary practice. The text is supported by informative illustrations, tables, and references for further reading. This comprehensive reference, with its emphasis on both basic and applied knowledge, is useful for researchers, academics, veterinarians, and students in the field of microbiology, immunology, pharmacology, biotechnology, food science, and agriculture.
This book covers all aspects of probiotic bacteria and their metabolites, as well as their role and significance in human and animal health. Given the role of probiotic bacterial strains in the production of short chain fatty acids, butyrate etc probiotics may be considered as an alternative approach for the prevention or treatment of intestinal dysbiosis, cancers, cardiovascular diseases, hypertensions. Additionally, the significance of probiotics added in aquaculture systems for improving health, performance and growth of aquatic organisms has been highlighted. In this book, the multi-functional role of probiotics and their post-biotic metabolites in improving overall health status of man and animals, is discussed. It is a comprehensive compilation useful for researchers, academics, veterinarians and students in the field of microbiology, food technology and biotechnology.
Postbiotics: Health and Industry provides a detailed overview on the fundamentals, biological and therapeutic properties, safety, and application of postbiotics in health and industry. Sections cover the fundamentals of postbiotics, which include insights on probiotic microorganisms, postbiotics, and host–microbe interaction, analysis, and characterization of postbiotics. The book goes on to delve into the different types of postbiotics and their mechanisms. Remaining sections explore various health, pharmaceutical, and industrial applications of postbiotics. - Provides an overview on the separation, characterization, and identification of postbiotics from probiotic microbes - Includes classes of postbiotics and their mechanisms of action - Discusses the safety of postbiotics in humans and animals and the use of multiomics to understand the effect of postbiotics on human physiology - Analyzes existing regulatory framework for postbiotics
An increasing number of studies on probiotics have found strong evidence that bacterial viability is not essential for imparting health benefits. It has been demonstrated in many studies that inactivated bacteria, bacterial cell components (peptidoglycans, lipoteichoic acids), or probiotic-derived metabolites (vitamins, polyphenols, bacteriocin, exopolysaccharides, short-chain fatty acids) can significantly improve host health. In 2021, the International Scientific Association for Probiotics and Prebiotics (ISAPP) convened a panel of experts specializing in nutrition, microbial physiology, gastroenterology, pediatrics, food science and microbiology to propose a useful definition of “postbiotic”, which was defined as a “preparation of inanimate microorganisms and/or their components that confers a health benefit on the host.” Postbiotics have been proven to be excellent health effectors with multiple functions, including alleviating inflammatory bowel syndrome, eradicating Helicobacter pylori residing from the stomach, abrogating the negative effects of stress, anti-inflammation, anti-bacteria, alleviating asthma, anti-infection, anti-tumor, anti-allergy, and so on. In addition to these beneficial effects listed above, postbiotics have several advantages over probiotics, including higher safety, a longer shelf life, and more sites of action (e.g., gut, skin, oral cavity, urogenital tract, or nasopharynx), which will broaden their application fields.
This book explains the potential value of microbiome and microbiome composition associated with human health and diseases. The opening chapters describe the current state of knowledge regarding the human microbiome structure, function, and diversity. The mechanisms of action and the various putative uses of human microbiome are then examined specific to healthy and disease conditions. Readers will find detailed information on its manipulation of human microbiome studies as well as its applied and translational aspects in the current field. The latest knowledge on probiotics, prebiotics, synbiotics, and postbiotics is presented, and specific cases to date are discussed. This book features knowledge from leading researchers working on different aspects of the human microbiome and its manipulation for better health. Overall, this book is an excellent source for microbiome researchers and students from all levels seeking the most up-to-date advancements in the field and also to point toward the future directions.
Probiotics in The Prevention and Management of Human Diseases: A Scientific Perspective addresses the use of probiotics and their mechanistic aspects in diverse human diseases. In particular, the mechanistic aspects of how these probiotics are involved in mitigating disease symptoms (novel approaches and immune-mechanisms induced by Probiotics), clinical trials of certain probiotics, and animal model studies will be presented through this book. In addition, the book covers the role of probiotics in prevention and management aspects of crucial human diseases, including multidrug resistant infections, hospital acquired infections, allergic conditions, autoimmune diseases, metabolic disorders, gastrointestinal diseases, neurological disorders, and cancers. Finally, the book addresses the use of probiotics as vaccine adjuvants and as a solution for nutritional health problems and describes the challenges of using probiotics in management of human disease conditions as well as their biosafety concerns. Intended for nutrition researchers, microbiologists, physiologists, and researchers in related disciplines as well as students studying these topics require a resource that addresses the specific role of probiotics in the prevention and management of human disease. - Contains information on the use of probiotics in significant human diseases, including antibiotic resistant microbial infections - Presents novel applications of probiotics, including their use in vaccine adjuvants and concept of pharmabiotics - Includes case studies and human clinical trials for probiotics in diverse disease conditions and explores the role of probiotics in mitigation of the symptoms of disease
A holistic approach covering a wide range of environmental microbial applications along with current and future trends In Microbial Biotechnology: Role in Ecological Sustainability and Research, a team of distinguished researchers delivers an authoritative overview of the role of microbial biotechnology in the pursuit of environmental and ecological sustainability. The book provides readers with compelling presentations of microbial technology, including its applications in the removal of environmental pollutants, and sustainable agriculture using microbial biocontrol agents or bio-fertilizers. Readers will also be able to explore the microbial reduction of greenhouse gases and a wide range of other cutting-edge applications, including the removal of various toxic environmental contaminants, such as antibiotics, pesticides, dyes, and heavy metals. Microbial Biotechnology provides: A thorough introduction to microorganisms, their metabolic engineering, the human microbiome, and other foundational topics An in-depth exploration of environmental management, including bioremediation through a nexus approach A fulsome treatment of current trends in microbial biotechnology and its role in sustainable production Perfect for professionals in applied microbiology, biotechnology, environmental engineering, green chemistry, and soil science, Microbial Biotechnology: Role in Ecological Sustainability and Research will also earn a place in the libraries of research scholars, scientists, and academicians with an interest in environmental microbiology and ecology.
This volume details state-of-the-art protocols on manufacturing functional probiotic foods and beverages. Chapters guide readers through processing procedures, probiotic strains, probiotic cheese, probiotic fermented milk, probiotic ice cream manufacturing, probiotic butter, plant-based beverages, probiotic plant-based cheeses, probiotic-fermented vegetables, Kombucha, probiotic beer, Friolano-type sausage, delivery of probiotics through bakery goods, synbiotic chocolate, methods on encapsulation of probiotics, paraprobiotics, and protocols for food products with psychobiotic potential. Written in the format of the Methods and Protocols in Food Science series, chapters list necessary materials and methods for readily reproducible protocols. Authoritative and cutting-edge, Probiotic Foods and Beverages: Technologies and Protocols aims to be a comprehensibly guide with well-established protocols and procedures.
The dairy industry faces challenges that impact the quality, safety, nutrition, and consumer acceptability of dairy products. The most important dairy product is milk, which is one of the most nutritious of all foods and is widely consumed worldwide. As such, it is important to optimize processes and innovation to convert milk into value-added products to ensure consumer well-being and food security for the growing global population. This book provides a comprehensive overview of the science and technology of dairy processing. It includes eight chapters that discuss recent issues, technology updates, and unique topics in the field. Topics include starter cultures in fermentation, camel milk, milk-borne infectious disease, lactic acid bacteria, and much more.