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Although the aim of cooking foods is to make them more appetizing and microbiologically safe, it is now known that cooking and food processing at high temperatures generate various kinds of toxic substances, such as heterocyclic amines and acrylamide, via the Maillard reaction. Summarising the latest research in this field, this important collection discusses both the formation of health-hazardous compounds during heat treatment of foods and practical methods to minimise their formation. Part one analyses the formation of hazardous compounds in heat-treated foods such as meat, potatoes, cereal and coffee. Part two discusses the health risks posed by heat-induced toxicants. It includes chapters on bio-monitoring, exposure assessment and risk assessment, as well as chapters on the risks of specific compounds. The final part of the book is concerned with the key area of minimising the formation of harmful compounds in food products. This can be achieved by controlling processing conditions and modifying ingredients, among other methods. With its distinguished editors and international team of contributors with unrivalled academic and industry experience, Acrylamide and other hazardous compounds in heat-treated foods, is invaluable for all those concerned with this crucial safety issue throughout the food industry.
Although the aim of cooking foods is to make them more appetizing and microbiologically safe, it is now known that cooking and food processing at high temperatures generate various kinds of toxic substances, such as heterocyclic amines and acrylamide, via the Maillard reaction. Summarising the latest research in this field, this important collection discusses both the formation of health-hazardous compounds during heat treatment of foods and practical methods to minimise their formation.Part one analyses the formation of hazardous compounds in heat-treated foods such as meat, potatoes, cereal and coffee. Part two discusses the health risks posed by heat-induced toxicants. It includes chapters on bio-monitoring, exposure assessment and risk assessment, as well as chapters on the risks of specific compounds. The final part of the book is concerned with the key area of minimising the formation of harmful compounds in food products. This can be achieved by controlling processing conditions and modifying ingredients, among other methods.With its distinguished editors and international team of contributors with unrivalled academic and industry experience, Acrylamide and other hazardous compounds in heat-treated foods, is invaluable for all those concerned with this crucial safety issue throughout the food industry. - Analyses the formation of health hazardous compounds during heat treatment of foods - Discusses practical methods to minimise formation - Distinguished editors and international team of contributors
Acrylamide in Food: Analysis, Content and Potential Health Effects provides the recent analytical methodologies for acrylamide detection, up-to-date information about its occurrence in various foods (such as bakery products, fried potato products, coffee, battered products, water, table olives etc.), and its interaction mechanisms and health effects. The book is designed for food scientists, technologists, toxicologists, and food industry workers, providing an invaluable industrial reference book that is also ideal for academic libraries that cover the domains of food production or food science. As the World Health Organization has declared that acrylamide represents a potential health risk, there has been, in recent years, an increase in material on the formation and presence of acrylamide in different foods. This book compiles and synthesizes that information in a single source, thus enabling those in one discipline to become familiar with the concepts and applications in other disciplines of food science. - Provides latest information on acrylamide in various foods (bakery products, fried potato products, coffee, battered products, water, table olives, etc.) - Explores acrylamide in the food chain in the context of harm, such as acrylamide and cancer, neuropathology of acrylamide, maternal acrylamide and effects on offspring and its toxic effects in tissues - Touches on a variety of subjects, including acrylamide, high heated foods, dietary acrylamide, acrylamide formation, N-acetyl-S-(2-carbamoylethyl)-cysteine (AAMA), acrylamide removal, L-asparaginase, and acrylamide determination - Presents recent analytical methodologies for acrylamide determination, including liquid chromatographic tandem mass spectrometry and gas chromatography-mass spectrometry
Process-Induced Food Toxicants combines the analytical, health, and risk management issues relating to all of the currently known processing-induced toxins that may be present in common foods. It considers the different processing methods used in the manufacture of foods, including thermal treatment, drying, fermentation, preservation, fat processing, and high hydrostatic pressure processing, and the potential contaminants for each method. The book discusses the analysis, formation, mitigation, health risks, and risk management of each hazardous compound. Also discussed are new technologies and the impact of processing on nutrients and allergens.
Chemical contaminants are a major concern for the food industry. Chemical contaminants and residues in food provides an essential guide to the main chemical contaminants, their health implications, the processes by which they contaminate food products, and methods for their detection and control.Part one focuses on risk assessment and analytical methods. Gas chromatography and mass spectroscopy techniques for the detection of chemical contaminants and residues are discussed, as are applications of HPLC-MS techniques and cell-based bioassays. Major chemical contaminants are then discussed in part two, including dioxins and polychlorinated biphenyls, veterinary drug and pesticide residues, heat-generated and non-thermally-produced toxicants, D- and cross-linked amino acids, mycotoxins and phycotoxins, and plant-derived contaminants. Finally, part three goes on to explore the contamination of specific foods. Chemical contamination of cereals, red meat, poultry and eggs are explored, along with contamination of finfish and marine molluscs.With its distinguished editor and international team of expert contributors, Chemical contaminants and residues in food is an invaluable tool for all industrial and academic researchers involved with food safety, from industry professionals responsible for producing safe food, to chemical analysts involved in testing the final products. - Provides an essential guide to the main chemical contaminants, their health implications, the processes by which they contaminate food products, and methods for their detection and control - Sections provide in-depth focus on risk assessment and analytical methods, major chemical contaminants, and the contamination of specific foods - Chemical contamination of cereals, red meat, poultry and eggs are explored, along with contamination of finfish and marine molluscs
Examining the full cycle from farm to fork, this book reviews the current status of green processing in the agriculture and agri-food sector, and provides strategies for enhancing the use of environmentally-friendly technologies for production and processing.
This handbook is intended to be a comprehensive reference for the various chemical aspects of foods and food products. Apart from the traditional knowledge, this book covers the most recent research and development of food chemistry in the areas of functional foods and nutraceuticals, organic and genetically modified foods, nonthermal food processing as well as nanotechnology. This handbook contains both the basic and advanced chemistry both for food research and its practical applications in various food related industries and businesses. This book is appropriate for undergraduates and postgraduates in the academics and professionals from the various disciplines and industries who are interested in applying knowledge of food chemistry in their respective fields.
Ensuring Global Food Safety: Exploring Global Harmonization, Second Edition, examines the policies and practices of food law which remain top contributors to food waste. This fully revised and updated edition offers a rational and multifaceted approach to the science-based issue of "what is safe for consumption?" and how creating a globally acceptable framework of microbiological, toxicological and nutritional standards can contribute to the alleviation of hunger and food insecurity in the world. Currently, many laws and regulations are so stringent that healthy food is destroyed based on scientifically incorrect information upon which laws and regulations are based. This book illuminates these issues, offering guidelines for moving toward a scientifically sound approach to food safety regulation that can also improve food security without putting consumers at risk. - Presents the progress and current status of regulatory harmonization for food standards - Provides a science-based foundation for global regulatory consensus - Approaches challenges from a risk-benefit approach, also including safety assurance - Includes global perspectives from governmental, academic and industry experts
Due to its high sensitivity and selectivity, liquid chromatography–mass spectrometry (LC–MS) is a powerful technique. It is used for various applications, often involving the detection and identification of chemicals in a complex mixture. Ultra Performance Liquid Chromatography Mass Spectrometry: Evaluation and Applications in Food Analysis presents a unique collection of up-to-date UPLC-MS/MS methods for the separation and quantitative determination of components, contaminants, vitamins, and aroma and flavor compounds in a wide variety of foods and food products. The book begins with an overview of the history, principles, and advancement of chromatography. It discusses the use of UHPLC techniques in food metablomics, approaches for analysis of foodborne carcinogens, and details of UPLC-MS techniques used for the separation and determination of capsaicinoids. Chapters describe the analysis of contaminants in food, including pesticides, aflatoxin, perfluorochemicals, and acrylamide, as well as potentially carcinogenic heterocyclic amines in cooked foods. The book covers food analysis for beneficial compounds, such as the determination of folate, vitamin content analysis, applications for avocado metabolite studies, virgin olive oil component analysis, lactose determination in milk, and analysis of minor components of cocoa and phenolic compounds in fruits and vegetables. With contributions by experts in interdisciplinary fields, this reference offers practical information for readers in research and development, production, and routing analysis of foods and food products.
Stored product insects and other pests represent a major hygiene and safety issue to many industries, from food production to building infestation, and issues for timber pallets and packaging. Beds bugs are rapidly becoming a public health issue in hotels, hostels and houses in many parts of the world. While fumigation has been one of the prevalent routes for pest control, there remain issues with the toxicity of the chemicals used and potential exposure to humans therefore heat treatment has proven to be a successful alternative when used correctly. It is well known that excessive heat is dangerous to life. There is a difference between the amount of heat required to kill microbes such as bacteria and viruses and that required to kill larger life forms such as insects or mammals. This book focuses on the use of heat to kill insects and mites in food production, storage and other facilities. Heat Treatment for Insect Control examines how controlled heat treatment kills all stages of pest insect life across species and without causing damage to surrounding structures or electronics. The advantages of heat treatment include no health & safety hazards, a completely controllable and environmentally friendly process, reduced treatment time of fumigation (hours verses days), as well as no factory shutdown or exclusion of staff from adjacent areas during treatment. Part I reviews the principles of heat treatment, with chapters covering the fundamentals, planning, best practice and costs of integrated pest management. Part II looks at heat treatment applications in food production, storage, food materials and fresh produce. Part III examines the other applications in clothing, small rooms, buildings, and transportation. - Provides a comprehensive and systematic reference on the heat treatment for insect control - Reviews the development of heat treatment processes and technology as part of integrated pest management approaches