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The aim of "Novel Approaches in Biopreservation for Food and Clinical Purposes" is to provide cutting-edge information on biopreservation methods for both food and medical applications. The book has one chapter dedicated to each major food category (milk and dairy, vegetables, meat, fish, bread, flours and beverages) and brief chapters covering preservation approaches for pharmaceuticals, embryos, gametes, cells and tissues. This book assumes a basic understanding of microbiology and food science, aiming to offer an overview of the most commonly and updated techniques currently used, including protective cultures and fermentation starters, bacterial metabolites, essential oils, bacteriophages or endolysins. By presenting this comprehensive overview, the book aims to advance knowledge in the field of biopreservation and foster its implementation in both food and clinical contexts.
The aim of "Novel Approaches in Biopreservation for Food and Clinical Purposes" is to provide cutting-edge information on biopreservation methods for both food and medical applications. The book has one chapter dedicated to each major food category (milk and dairy, vegetables, meat, fish, bread, flours and beverages) and brief chapters covering preservation approaches for pharmaceuticals, embryos, gametes, cells and tissues. This book assumes a basic understanding of microbiology and food science, aiming to offer an overview of the most commonly and updated techniques currently used, including protective cultures and fermentation starters, bacterial metabolites, essential oils, bacteriophages or endolysins. By presenting this comprehensive overview, the book aims to advance knowledge in the field of biopreservation and foster its implementation in both food and clinical contexts.
Moving rapidly from science fiction to science fact, cryopreservation is an integral part of many research, development, and production processes in industry and academia. The preservation sciences have emerged as an interdisciplinary platform that incorporates the fundamentals of cell and molecular biology, and bioengineering, with the classic met
ADVANCED FERMENTATION AND CELL TECHNOLOGY A comprehensive and up-to-date reference covering both conventional and novel industrial fermentation technologies and their applications Fermentation and cell culture technologies encompass more than the conventional microbial and enzyme systems used in the agri-food, biochemical, bioenergy and pharmaceutical industries. New technologies such as genetic engineering, systems biology, protein engineering, and mammalian cell and plant cell systems are expanding rapidly, as is the demand for sustainable production of bioingredients, drugs, bioenergy and biomaterials. As the growing biobased economy drives innovation, industrial practitioners, instructors, researchers, and students must keep pace with the development and application of novel fermentation processes and a variety of cell technologies. Advanced Fermentation and Cell Technology provides a balanced and comprehensive overview of the microbial, mammalian, and plant cell technologies used by the modern biochemical process industry to develop new and improved processes and products. This authoritative volume covers the essential features of advanced fermentation and cell technology, and highlights the interaction of food fermentation and cell culture biopharmaceutical actives. Detailed chapters, organized into five sections, cover microbial cell technology, animal and plant cell technology, safety issues of new biotechnologies, and applications of microbial fermentation to food products, chemicals, and pharmaceuticals. Written by an internationally-recognized expert in food biotechnology, this comprehensive volume: Covers both conventional and novel industrial fermentation technologies and their applications in a range of industries Discusses current progress in novel fermentation, cell culture, commercial recombinant bioproducts technologies Includes overviews of the global market size of bioproducts and the fundamentals of cell technology Highlights the importance of sustainability, Good Manufacturing Practices (GMP), quality assurance, and regulatory practices Explores microbial cell technology and culture tools and techniques such as genome shuffling and recombinant DNA technology, RNA interference and CRISPR technology, molecular thermodynamics, protein engineering, proteomics and bioinformatics, and synthetic biology Advanced Fermentation and Cell Technology is an ideal resource for students of food science, biotechnology, microbiology, agricultural sciences, biochemical engineering, and biochemistry, and is a valuable reference for food scientists, researchers, and technologists throughout the food industry, particularly the dairy, bakery, and fermented beverage sectors.
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.
While also addressing the need for more effective processing technologies for increased safety and quantity, the dairy industry needs to address the growing customer demand for new and innovative dairy foods with enhanced nutritional value. This volume looks at new research, technology, and applications in the engineering of milk products, specifically covering functional bioactivities to add value while increasing the quality and safety of milk and fermented milk products. Chapters in the book look at the functional properties of milk proteins and cheese, functional fermented milk-based beverages, biofunctional yoghurt, antibiotic resistant pathogens, and other probiotics in dairy food products.
Microbial Biomolecules: Emerging Approach in Agriculture, Pharmaceuticals and Environment Management explores and compiles new aspects of microbial-based biomolecules such as microbial enzymes, microbial metabolites, microbial surfactants, exopolysaccharides, and bioactive compounds and their potential applications in the field of health-related issues, sustainable agriculture and environment contamination management. Written for researchers, scientists, and graduate and PhD students in the areas of Microbiology, Biotechnology, Environmental Science and Pharmacology, this book covers the urgent need to explore eco-friendly and sustainable approaches to healthcare, agriculture and environmental contamination management. - Explores eco-friendly and sustainable approaches to healthcare, agriculture and environmental contamination management - Compiles new aspects of microbial-based biomolecules - Proves that the use of microbes or microbial products are suitable alternatives to manage the current challenges of healthcare issues, chemical pesticides and environmental contamination
The problem of creating microbiologically-safe food with an acceptable shelf-life and quality for the consumer is a constant challenge for the food industry. Microbial decontamination in the food industry provides a comprehensive guide to the decontamination problems faced by the industry, and the current and emerging methods being used to solve them.Part one deals with various food commodities such as fresh produce, meats, seafood, nuts, juices and dairy products, and provides background on contamination routes and outbreaks as well as proposed processing methods for each commodity. Part two goes on to review current and emerging non-chemical and non-thermal decontamination methods such as high hydrostatic pressure, pulsed electric fields, irradiation, power ultrasound and non-thermal plasma. Thermal methods such as microwave, radio-frequency and infrared heating and food surface pasteurization are also explored in detail. Chemical decontamination methods with ozone, chlorine dioxide, electrolyzed oxidizing water, organic acids and dense phase CO2 are discussed in part three. Finally, part four focuses on current and emerging packaging technologies and post-packaging decontamination.With its distinguished editors and international team of expert contributors, Microbial decontamination in the food industry is an indispensable guide for all food industry professionals involved in the design or use of novel food decontamination techniques, as well as any academics researching or teaching this important subject. - Provides a comprehensive guide to the decontamination problems faced by the industry and outlines the current and emerging methods being used to solve them - Details backgrounds on contamination routes and outbreaks, as well as proposed processing methods for various commodities including fresh produce, meats, seafood, nuts, juices and dairy products - Sections focus on emerging non-chemical and non-thermal decontamination methods, current thermal methods, chemical decontamination methods and current and emerging packaging technologies and post-packaging decontamination
Reducing the intake of sodium is an important public health goal for Americans. Since the 1970s, an array of public health interventions and national dietary guidelines has sought to reduce sodium intake. However, the U.S. population still consumes more sodium than is recommended, placing individuals at risk for diseases related to elevated blood pressure. Strategies to Reduce Sodium Intake in the United States evaluates and makes recommendations about strategies that could be implemented to reduce dietary sodium intake to levels recommended by the Dietary Guidelines for Americans. The book reviews past and ongoing efforts to reduce the sodium content of the food supply and to motivate consumers to change behavior. Based on past lessons learned, the book makes recommendations for future initiatives. It is an excellent resource for federal and state public health officials, the processed food and food service industries, health care professionals, consumer advocacy groups, and academic researchers.
Due to the indigenous knowledge of pre-Colombian indigenous tribes and the new methods introduced by the immigrants arriving from Europe and other continents, a wide variety of fermented foods are produced in Latin America. In this book, we have collected information about the Latin American experience in the production of dairy, meat and wine. Special focus has been given to fermented fruits and vegetables as it is part of the genetic heritage of the South American continent. Pre-Columbian knowledge on preparation of various fermented food products is covered in the book.