Hazard Analysis and Risk-Based Preventive Controls: Improving Food Safety in Human Food Manufacturing for Food Businesses is a comprehensive, first of its kind resource for the retail food industry on the Hazard Analysis and Risk-based Preventive Controls (PCHF) regulations of the Food Safety Modernization Act (FSMA). This book covers all aspects of PCHF, including the legislation's intent, applications to ensure safe food production, and resources to keep up-to-date on new food safety hazards and regulatory guidance. Written for food safety professionals and food business leaders, its emphasis on what the retail food industry needs to know about PCHF make it an indispensable resource for organizations buying food from companies required to demonstrate compliance with PCHF. PCHF implementation is (or soon will be) required for human food companies along the supply chain in the United States, as well as all food companies that import ingredients and products for human consumption into the U.S.

Basic Laboratory Methods for Biotechnology, Third Edition is a versatile textbook that provides students with a solid foundation to pursue employment in the biotech industry and can later serve as a practical reference to ensure success at each stage in their career. The authors focus on basic principles and methods while skillfully including recent innovations and industry trends throughout. Fundamental laboratory skills are emphasized, and boxed content provides step by step laboratory method instructions for ease of reference at any point in the students' progress. Worked through examples and practice problems and solutions assist student comprehension. Coverage includes safety practices and instructions on using common laboratory instruments. Key Features: Provides a valuable reference for laboratory professionals at all stages of their careers. Focuses on basic principles and methods to provide students with the knowledge needed to begin a career in the Biotechnology industry. Describes fundamental laboratory skills. Includes laboratory scenario-based questions that require students to write or discuss their answers to ensure they have mastered the chapter content. Updates reflect recent innovations and regulatory requirements to ensure students stay up to date. Tables, a detailed glossary, practice problems and solutions, case studies and anecdotes provide students with the tools needed to master the content. To succeed in the lab, it is crucial to be comfortable with the math calculations that are part of everyday work. This accessible introduction to common laboratory techniques focuses on the basics, helping even readers with good math skills to practice the most frequently encountered types of problems. Basic Laboratory Calculations for Biotechnology, Second Edition discusses very common laboratory problems, all applied to real situations. It explores multiple strategies for solving problems for a better understanding of the underlying math. Primarily organized around laboratory applications, the book begins with more general topics and moves into more specific biotechnology laboratory techniques at the end. This book features hundreds of practice problems, all with solutions and many with boxed, complete explanations; plus hundreds of "story problems" relating to real situations in the lab. Additional features include: Discusses common laboratory problems with all material applied to real situations Presents multiple strategies for solving problems help students to better understand the underlying math Provides hundreds of practice problems and their solutions Enables students to complete the material in a self-paced course structure with little teacher assistance Includes hundreds of "story problems"that relate to real situations encountered in the laboratory

The limited aqueous solubility of bioactive pharmaceutical ingredients presents a tremendous challenge in the development of new drugs. In recent years, methods have been developed to protect these sensitive bioactive compounds, namely antioxidants, with the aim of increasing the public sanitation grades. Emulsion-based systems are particularly interesting as colloidal delivery encapsulation systems, because they can easily be created from food-grade ingredients using relatively simple processing protocols. It is one of the most favorable delivery systems to increase the solubility of phytochemicals, nutraceuticals and food additives. Emulsion-based Encapsulation of Antioxidants: Design and Performance advances the field of colloid science through the investigation of the effects of formulation and process parameters that influence emulsion production. The book offers a deeper comprehension of the technological and biological aspects of the incorporation of encapsulated compounds in food matrices and explication of their activity. Chapters provide an overview of the status of emulsion-based formulations to encapsulate antioxidants, fabrication, properties, applications, and biological fate with emphasis on systems suitable for utilization within industry. Special emphasis is placed on the antioxidant activity of the carriers being the key advantage of these emulsion-based systems. The main aim of the book is to inspire and to guide fellow scientists and students in this field. Filled with illustrations, figures, case studies, practical examples, and historical perspectives, the book can also be used as a practical handbook or graduate textbook. For industry professionals, the book presents easy-to-achieve approaches to industrial pharmaceutical production.

Wheat Quality for Improving Processing and Human Health brings together an international group of leading wheat scientists to outline highly relevant and diverse aspects and the latest advances in understanding of the world's most consumed cereal. Topics covered include LMW glutenins, starch-related proteins, and the impact of processing on composition and consumer health. Individual chapters focus on important factors such as FODMAPs, protein structure, dough viscoelasticity and fumonisins. The environmental effects on allergen content are comprehensively covered, as are phenolic compounds and molecular markers. The major quality screening tools and genetic resources are reviewed in depth. Gluten is a major focus of this work with chapters dedicated to health effects, analytical methods and standards, proteomics and mutant proteins. Starting in 2015, wheat quality scientists from across the globe have united to develop the Expert Working Group for Improving Wheat Quality for Processing and Health under the umbrella of the Wheat Initiative. This joint effort provides a framework to establish strategic research and organisation priorities for wheat research at the international level in both developed and developing countries. This Expert Working Group aims to maintain and improve wheat quality for processing and health under varying environmental conditions. The Group focuses on a broad range of wheat quality issues including seed proteins, carbohydrates, nutrition quality and micronutrient content, grain processing and food safety. Bioactive compounds are also considered, both those with negative effects such as allergens and mycotoxins, and those with positive effects such as antioxidants and fibre. The Group also works in the development of germplasm sets and other tools that promote wheat quality research. Wheat quality specialists working on the wheat value chain, and nutritionists will find this book a useful resource to increase and update their knowledge of wheat quality, nutrition and health issues.

This book focuses on the preparation and characterisation of polyvinyl alcohol (PVA)/ halloysite nanotube (HNT) bionanocomposite films with different HNT contents for potential use in food packaging. It examines the effect of material composition and nanofiller content on mechanical, thermal and optical properties in relation to their morphological structures, and also comprehensively describes the water resistance, biodegradation and migration rates of such bionanocomposites, as well as their barrier properties in terms of water vapour transmission, and water vapour, air and oxygen permeabilities. Further, this book discusses the use of Nielsen model and Cussler model to predict the relative permeability of bionanocomposites, demonstrating that Nielsen model is more effective and in better agreement with experimental data obtained. Lastly, it discusses the application of bionanocomposite films in food packaging to prolong the shelf life of freshly cut avocados and peaches.

Sustained Energy for Enhanced Human Functions and Activity addresses the basic mechanistic aspects of energy metabolisms, the chemistry, biochemistry and pharmacology of a variety of botanical ingredients, micronutrients, antioxidants, amino acids, selected complexes, and other nutracueticals which have demonstrated a boost in and the sustainability of functional energy. The role of exercise and physical activity is also discussed, and the conclusion addresses paradigm shifts in the field and envisions the future. Intended for researchers and industry professionals, the book is as an essential reference on the impact of proper nutrient balance on sustained energy.

Food Safety Engineering is the first reference work to provide up-to-date coverage of the advanced technologies and strategies for the engineering of safe foods. Researchers, laboratory staff and food industry professionals with an interest in food engineering safety will find a singular source containing all of the needed information required to understand this rapidly advancing topic. The text lays a solid foundation for solving microbial food safety problems, developing advanced thermal and non-thermal technologies, designing food safety preventive control processes and sustainable operation of the food safety preventive control processes. The first section of chapters presents a comprehensive overview of food microbiology from foodborne pathogens to detection methods. The next section focuses on preventative practices, detailing all of the major manufacturing processes assuring the safety of foods including Good Manufacturing Practices (GMP), Hazard Analysis and Critical Control Points (HACCP), Hazard Analysis and Risk-Based Preventive Controls (HARPC), food traceability, and recalls. Further sections provide insights into plant layout and equipment design, and maintenance. Modeling and process design are covered in depth. Conventional and novel preventive controls for food safety include the current and emerging food processing technologies. Further sections focus on such important aspects as aseptic packaging and post-packaging technologies. With its comprehensive scope of up-to-date technologies and manufacturing processes, this is a useful and first-of-its kind text for the next generation food safety engineering professionals.

Discrimination Testing in Sensory Science: A Practical Handbook is a one-stop-shop for practical advice and guidance on the performance and analysis of discrimination testing in sensory science. The book covers all aspects of difference testing: the history and origin of different methods, the practicalities of setting up a difference test, replications, the statistics behind each test, dealing with the analysis, action standards, and the statistical analysis of results with R. The book is written by sensory science experts from both academia and industry, and edited by an independent sensory scientist with over twenty years of experience in planning, running and analyzing discrimination tests. This is an essential text for academics in sensory and consumer science and any sensory scientist working in research and development in food, home, and personal care products, new product development, or quality control.

This book is based on selected papers from keynote and symposium sessions given at the 16th International Union of Food Science and Technology (IUFoST) World Congress, held in Foz do Iguacu, Brazil August, 2012. The theme of the Congress was the challenges faced by food science in both the developed and developing regions of the world. The symposia featured prominent world-renowned keynote and plenary speakers, young researchers, and the technical sessions covered the whole spectrum of basic and applied food science and technology, including consumer issues and education, diets and health, ethnic foods, and R&D.

Dairy in Human Health and Disease across the Lifespan addresses the contribution of milk to the human diet and health throughout the life span. This comprehensive book is divided into three sections and presents a balanced overview of dairy's impact on nutrition from infancy to adulthood. Summaries capture the most salient points of each chapter, and the book provides coverage of dairy as a functional food in health and disease.

Nanoencapsulation of Food Bioactive Ingredients: Principles and Applications brings different nanoencapsulated food bioactive ingredients, their structure, applications, preparation, formulations and encapsulation methodologies, covering a wide range of compounds and giving detailed examples of the issues faced in their nano-encapsulation. The book addresses findings related to the study of natural food colorants, vitamins, antimicrobial agents, phenolic compounds, antioxidants, flavors, essential oils, fish oil and essential fatty acids, and other related ingredients. As a definitive manual for researchers and industry personnel working, or interested in, various branches of encapsulation for food ingredients and nutraceutical purposes, users will find this a great reference.

This book offers comprehensive information on the developments and applications of the solid phase microextraction (SPME) technique. The first part of the book briefly introduces readers to the fundamentals of SPME, while subsequent sections describe the applications of SPME technique in detail, including environmental analysis (air, water, soil/sediments), food analysis (volatile/nonvolatile compounds), and bioanalysis (plants, animal tissues, body fluids). The advantages and future challenges of the SPME technique are also discussed. Including recent research advances and further developments of SPME, the book offers a practical reference guide and a valuable resource for researchers and users of SPME techniques. The target audience includes analytical chemists, environmental scientists, biological scientists, material scientists, and analysts, as well as students at universities/institutes in related fields. Dr. Gangfeng Ouyang is a Professor at the School of Chemistry and Chemical Engineering, Sun Yat-sen University, China. Dr. Ruifen Jiang is an Associate Professor at the School of Environment, Jinan University, China.

A Primer in Financial Data Management describes concepts and methods, considering financial data management, not as a technological challenge, but as a key asset that underpins effective business management. This broad survey of data management in financial services discusses the data and process needs from the business user, client and regulatory perspectives. Its non-technical descriptions and insights can be used by readers with diverse interests across the financial services industry. The need has never been greater for skills, systems, and methodologies to manage information in financial markets. The volume of data, the diversity of sources, and the power of the tools to process it massively increased. Demands from business, customers, and regulators on transparency, safety, and above all, timely availability of high quality information for decision-making and reporting have grown in tandem, making this book a must read for those working in, or interested in, financial management.

This book describes practices used on farms and in farmers markets selling foods directly to consumers in U.S. and international markets. It identifies hazards associated with those practices that could put consumers at increased risk for foodborne illness. It also provides tools for identifying hazards on farms and in markets and guidance for establishing food-safe markets. The local food movement, inspired by initiatives such as the USDA's "Know Your Farmer, Know Your Food"; "Farm to School"; "Farm to Pre-school"; and "The People's Garden", is sweeping the country. Nowhere is this interest more evident than at farmers markets. The number of farmers markets has increased almost 400% since the early 1990s, with over 8,600 farmers markets listed in the USDA's market directory in 2016. Many of the customers for local markets are senior adults, people who may have health concerns, and mothers with young children shopping for foods they perceive to be healthier and safer than those available in grocery stores. This means that many of the customers may be in population groups that are most at risk for foodborne illness and the serious complications that can result. In surveys, however, farmers selling directly to consumers self-reported practices that could increase risk for foodborne illnesses. These included use of raw manure as fertilizer without appropriate waiting periods between application and harvest, as outlined in the National Organic Program, a lack of sanitation training for farm workers handling produce, a lack of proper cleaning and sanitizing of surfaces that come in contact with produce, and use of untested surface water for rinsing produce before taking it to market. Surveys of market managers found that many had limited experience and most had no food safety plans for their markets. Observational studies in markets have corroborated self-reported practices that could increase foodborne illness risks, including lack of handwashing, lack of access to well-maintained toilet and handwashing facilities, use of materials that cannot be cleaned and sanitized appropriately, and lack of temperature control for foods that must have time and temperature controlled for safety. These potential food safety risks are not only seen in U.S. farmers markets, but also have been identified in international markets. This book is unique in that it provides evidence-based information about food safety hazards and potential risks associated with farmers markets. It presents an overview of farm and market practices and offers guidance for enhancing food safety on farms and in markets for educators, farmers, producers, vendors and market managers. Dr. Judy A. Harrison is a Professor in the Department of Foods and Nutrition at the University of Georgia (UGA) where she has been named a Walter Bernard Hill Fellow for distinguished achievement in public service and outreach. Serving as a food safety specialist for UGA Cooperative Extension, she has provided 25 years of food safety education for a variety of audiences across the food system.

The sales of organic products have increased significantly over the last five years in Europe and the USA. This, along with the EU's definition of organic in 1993, has prompted the publication of a practical guide which describes what is involved in the processing and production of organic food ingredients and products. This handbook emphasizes technological, economic and regulatory issues, and includes a directory of companies which sell and produce organic foods and ingredients. It should interest organic food manufacturers, retailers, wholesalers, organic farmers and growers, and those in academic research institutions.

Advances in Food and Nutrition Research, Volume 82 provides updated knowledge on nutrients in foods and how to avoid deficiency. Topics covered in this latest release include Phenolic Compounds and its Bioavailability: In Vitro Bioactive Compounds or Health Promoters?, Health Risks of Food Oxidation, Metabolomics, Nutrition, and Potential Biomarkers of Food Quality, Intake, and Health Status, Improvement of Soybean Products Through the Response Mechanism Analysis Using Proteomic Technique, and Nanotechnology for Food Packaging and Food Quality Assessment. This resource is especially useful for those interested in the essential nutrients that should be present in the diet to reduce disease risk and optimize health. It provides the latest advances on the identification and characterization of emerging bioactive compounds with putative health benefits, as well as up-to-date information on food science, including raw materials, production, processing, distribution and consumption, with an emphasis on nutritional benefits and health effects.

Proteomics in Food Science: From Farm to Fork is a solid reference providing concepts and practical applications of proteomics for those in various disciplines of food science. The book covers a range of methods for elucidating the identity or composition of specific proteins in foods or cells related to food science, from spoilage organisms, to edible components. A variety of analytical platforms are described, ranging from the usage of simple electrophoresis, to more sophisticated mass spectrometry and bio-informatic platforms. The book is designed for food scientists, technologists, food industry workers, microbiologists, and public health workers, and can also be a valuable reference book for students.

What 200 products can be made from a dead chicken?What should turkey really taste like?How can you make a ready-made meal appear less manufactured?How do you market a "folk-pizza"?This fascinating and entertaining book examines the strategies and struggles of the young professionals who are responsible for marketing a variety of ready-made food products for a major Norwegian food manufacturer. This setting provides the empirical focus for the analysis of the key tensions and contradictions which are to be found in modernity.Through a detailed description of "everyday-life" in the marketing department, the book critically examines many of the features which are believed to characterise modernity, such as authenticity, ambivalence and the quest for order. The setting also allows the author to explore key economic terms such as "the market," "product," "brand" and "consumer."Drawing on comparative material, the author suggests that modernity may be characterized, not so much by an effort at making order, but rather by specific ways of dealing with ambivalence, and demonstrates that features generally associated with modernity may not be so modern after all.

Applications of High Resolution Mass Spectrometry: Food Safety and Pesticide Residue Analysis is the first book to offer complete coverage of all aspects of high resolution mass spectrometry (HRMS) used for the analysis of pesticide residue in food. Aimed at researchers and graduate students in food safety, toxicology, and analytical chemistry, the book equips readers with foundational knowledge of HRMS, including established and state-of-the-art principles and analysis strategies. Additionally, it provides a roadmap for implementation, including discussions of the latest instrumentation and software available. Detailed coverage is given to the application of HRMS coupled to ultra high-performance liquid chromatography (UHPLC-HRMS) in the analysis of pesticide residue in fruits and vegetables and food from animal origin. The book also discusses extraction procedures and the challenges of sample preparation, gas chromatography coupled to high resolution mass spectrometry, flow injection-HRMS, ambient ionization, and identification of pesticide transformation products in food. Responding to the fast development and application of these new procedures, this book is an essential resource in the food safety field.

Proteomics, like other post-genomics tools, has been growing at a rapid pace and has important applications in numerous fields of science. While its use in animal and veterinary sciences is still limited, there have been considerable advances in this field in recent years, in areas as diverse as physiology, nutrition and food of animal origin processing. This is mainly as a consequence of a wider availability and better understanding of proteomics methodologies by animal and veterinary researchers. This book provides a comprehensive, state-of-the-art account of the status of farm-animal proteomics research, focusing on the principles behind proteomics methodologies and its specific applications and offering clear example.

This book introduces recovery and stabilization of common bioactive materials in foods as well as materials science aspects of engineering stable bioactive delivery systems. The book also describes most typical unit operations and processes used in recovery and manufacturing of food ingredients and foods with stabilized bioactive components. The 15 chapters of the book discuss in detail substances that need to be protected and delivered via foods and beverages to achieve good stability, bioavailability and efficacy. Dedicated chapters present current and novel technologies used for stabilization and delivery of bioactive components. The material included covers formulation, stability, digestive release, bioaccessability and bioavailability. The text features a special emphasis on the materials science and technological aspects required for stabilization and successful production of foods with bioactive components. Consumer demand for healthier, yet satisfying food products is posing increasingly tough challenges for the food industry. Scientific research reveals new bioactive food components and new functionalities of known components. Food materials science has also developed to a stage where food materials can be designed and produced to protect sensitive components for their delivery in complex food products. Such delivery systems must meet high safety and efficacy requirements and regulations, as well as economic viability criteria and consumer acceptance.