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Food Bioactives: Functionality and Applications in Human Health

This valuable volume addresses the growing consumer demand for novel functional food products and for high-value, nutritionally rich products by focusing on the sources and applications of bioactives from food. The chapters in the book describe functional properties and discuss applications of the selected food ingredients obtained from various sources, including culinary banana, phalsa, pseudocereals, roselle calyces, asparagus, and more.Several chapters address the resurgence of interest in pseudocereals due to their excellent nutritional and biological values, gluten-free composition, and the presence of some health-promoting compounds. The book also looks at utilizing industrial byproducts for making functional and nutraceutical ingredients. The chapters on prebiotics and probiotics highlight different functional properties, and a chapter on food allergens discusses advancements in detection and management in the food manufacturing industries.

Food Bioactives: Extraction and Biotechnology Applications

This book focuses on various types of bioactive compounds, including secondary metabolites, oligosaccharides, polysaccharides, flavonoids, peptides/proteins, carotenoid pigments, quinones, terpenes, and polyunsaturated fatty acids, and presents an overview of their nutraceutical activities. It covers the current status and future potential of food compounds, as well as extraction technologies for bioactives derived from plant, fungi and marine-derived bioactive agents. Finally, health-promoting effects of plant, fungi and marine-derived bioactive agents are discussed. Chapters come from top researchers in this area from around the globe. The volume caters to the needs of undergraduate and post-graduate students in the area of food biotechnology, food bioprocessing, biotechnology, food engineering, etc., and also contains information pertinent to researchers.

Food Bioactives and Health (Food Bioactive Ingredients Ser.)

Bioactive natural compounds have gained attention in recent years due to their potential health benefits, including reducing the risk of diabetes, cancer, and cardiovascular diseases. These benefits derive from bioactive compounds' anti-tumor, anti-inflammatory, anti-oxidative, anti-hypertensive and anti-hyperlipidemic activities, which serve in addition to their basic nutritional functions. Over the last decade, researchers have investigated the health impact of bioactive compounds in detail, and the development of food applications has attracted great interest. Consumer demand has surged for functional foods (nutraceuticals), superfoods, and tailor-made foods, generated by supplementing traditional food products with bioactive ingredients. Food Bioactives and Health offers comprehensive coverage of the properties and health effects of food bioactives in view of new trends in processing, food science and food technology. Starting with the metabolic characteristics of polyphenols, glucosinolates, and other food bioactives, the text then dives into their impact on human health and recent applications in the world of food technology. For food scientists, food technologists, and product developers looking to understand the role of food bioactives in health and develop applications in personalized nutrition, functional foods and nutraceuticals, Food Bioactives and Health serves as a one-stop reference.

Food Biochemistry: Biochemistry And Agriculture (Ellis Horwood Series in Food Science and Technology)

What I have said will go to prove that true science is the, one which teaches us to increase our satisfaction by drawing out the best from nature's productions. M. Henri Braconnot Nancy, 4th April 1830 (Extract from the Note on Casein and Milk, Annales de Chimie et de Physique (1830) 43, 351.) The main objective of this work is to provide a biochemical approach for students of food science and technology. It may also be useful to biologists generally and to biochemists in particular in providing a source of reference to help resolve some of their problems. Finally, professionals in the food industry will find here detailed information on aspects of biotechnology. With the continuing development of teaching in this field in the mainstream courses of Instituts Universitaires de Technologiet, Universities and Grandes Ecoles:j: in France, the need for an Abn?ge (Essential Guide) has become urgent. Students have to refer to various specialist works, which are considerable in number, expensive and often out of date. The authors were faced with the task of selecting material and presenting it in such a way that the finished book would be reduced to a size in keeping with the spirit of the Abrege collection.

Food Biodeterioration and Preservation

Biodeterioration can be defined as the breakdown of food by agents of microbiological origin, either directly or from products of their metabolism. Microbiological sources can be present in foods prior to packaging or on the surfaces of packaging materials. The shelf life and safety of the food will depend on the type and quantity of microorganism, as well as the hurdles to their growth offered by various preservation techniques. This book discusses how the agents of food biodeterioration operate, and examines the commercially-used industrial methods available to control them, allowing the production of safe and wholesome foods. There is an emphasis on the equipment employed to carry out the various methods of preservation. The introductory chapter describes in detail the microorganisms and mechanisms of food breakdown intrinsic to various key food types; dairy, meat and fish, fruit, and vegetables. Direct microorganism action will be covered in addition to enzymatic breakdown. The second chapter addresses HACCP, including food safety legislation. Subsequent chapters outline the principal, commercially-used methods of preserving foods. These chapters follow a common structure: theoretical background; flow sheets of operations; food preparation/processing equipment; special features of hygiene; packaging; shelf life; and product safety. Food Biodeterioration and Preservation is directed at food scientists and technologists in industry and academia. Since it covers all the commonly-used methods of food preservation, it will be relevant across the entire food manufacturing industry.

Food Biofortification Technologies (Contemporary Food Engineering)

Biofortification, which can be defined as the process of increasing the content/density of essential nutrients and/or its bioavailability of food with valuable compounds, is a promising means of increasing nutrient intakes. Traditional fortification practices in which exogenous nutrients are added to food can increase the content of nutrients but the use of biofortified foods with nutrients also may deliver the compounds in a more available form, as well as boost the overall relative effectiveness of these foods in raising nutrients status. Food Biofortification Technologies presents the state of the art in the field of novel methods of fortification and agricultural treatments as a way to improve the quality of obtained food products or compounds enriched with valuable nutrients. The book deals with fortification methods and agricultural treatments, which can improve the quality of food products or other agricultural compounds, providing them with a higher density of valuable nutrients. The utilization of novel products, such as feed additives and fertilizers, can avert nutrients depletion in food products. The book describes new and conventional methods of introducing valuable compounds into food components and presents the application of biosorption, bioaccumulation, and utilization of fertilizers in obtaining designer food. Attention is paid to the use of biomass as the carrier of nutrients such as microelements into the food components. The chapters are dedicated to specific food products and their nutrient components. The first chapter discusses the agronomic biofortification with micronutrients where the fertilization strategies are pointed out as a key to plant/cereals fortification. Other chapters present the fortification of animal foodstuffs such as meat, fish, milk, and eggs as well as the fortification of plant foodstuffs such as vegetables, fruits, and cereals. The book also explores advances in food fortification with vitamins and co-vitamins, essential minerals, essential fatty and amino acids, phytonutrients, and enzymes.

Food Biofortification Technologies (Contemporary Food Engineering)

Biofortification, which can be defined as the process of increasing the content/density of essential nutrients and/or its bioavailability of food with valuable compounds, is a promising means of increasing nutrient intakes. Traditional fortification practices in which exogenous nutrients are added to food can increase the content of nutrients but the use of biofortified foods with nutrients also may deliver the compounds in a more available form, as well as boost the overall relative effectiveness of these foods in raising nutrients status. Food Biofortification Technologies presents the state of the art in the field of novel methods of fortification and agricultural treatments as a way to improve the quality of obtained food products or compounds enriched with valuable nutrients. The book deals with fortification methods and agricultural treatments, which can improve the quality of food products or other agricultural compounds, providing them with a higher density of valuable nutrients. The utilization of novel products, such as feed additives and fertilizers, can avert nutrients depletion in food products. The book describes new and conventional methods of introducing valuable compounds into food components and presents the application of biosorption, bioaccumulation, and utilization of fertilizers in obtaining designer food. Attention is paid to the use of biomass as the carrier of nutrients such as microelements into the food components. The chapters are dedicated to specific food products and their nutrient components. The first chapter discusses the agronomic biofortification with micronutrients where the fertilization strategies are pointed out as a key to plant/cereals fortification. Other chapters present the fortification of animal foodstuffs such as meat, fish, milk, and eggs as well as the fortification of plant foodstuffs such as vegetables, fruits, and cereals. The book also explores advances in food fortification with vitamins and co-vitamins, essential minerals, essential fatty and amino acids, phytonutrients, and enzymes.

Food biopolymers: Structural, functional and nutraceutical properties

Food biopolymers: Structural, functional and nutraceutical properties provides valuable coverage of all major food biopolymers from plant, animal and marine sources. The text focuses on the structural characteristics of biopolymers including starch, non-starch polysaccharides, proteins and fats. A full section is dedicated to the nutraceutical potential and applications of these polymers. Further sections provide comprehensive overviews of the development of functional food products and important data on biopolymer behavior and nutraceutical potential during processing. Researchers hoping to gain a basic understanding of the techno-functional, nutraceutical potential and applications of food biopolymers will find a singular source with this text. The first section of this work focuses on the the structure, functions, bioactivity and applications of starches. The next chapters cover non-starch polysaccharides. Further sections are dedicated to proteins, lipids and oils. A detailed overview is provided for each, followed by application procedures, specifics on individual types, proteins and enzymes, and nutraceutical properties. This work can be used as a singular source for all relevant information on food biopolymers and their structural and functional properties, including their potential to increase food quality, improve shelf life, and reduce pollution and waste in the food industry.

Food Biopreservation (SpringerBriefs in Food, Health, and Nutrition)

The purpose of this Brief is to provide a global view of the concept of biopreservation and its potential and existing applications in the different food sectors. Biopreservation, an approach already experimented with by our ancestors, has been used empirically for centuries and now the rationale behind it is becoming increasingly popular, applied singly or in combination with novel and classical food processing technologies. The growing world population, together with the globalization of the food market and consumer demand for foods that are ready to eat, lightly preserved, fresh-tasting, and rich in flavor, nutrients, and bioactive compounds, is forcing the food industry to develop less aggressive food preservation methods.

Food Biotechnology (Advances in Biochemical Engineering/Biotechnology #111)

Food Biotechnology in Ethical Perspective (The International Library of Environmental, Agricultural and Food Ethics #10)

This revised edition updates Thompson’s trail-blazing study of ethical and philosophical issues raised by biotechnology. The 1997 book was the first by a philosopher to address food and agricultural biotechnology, discussing ethical issues associated with risk assessment, labelling, animal transformation, patents, and impact on traditional farming communities. The new edition addresses the debates of the intervening decade, including cloning, the Precautionary Principle, and the biotechnology debate between the United States and Europe.

Food Bites: The Science of the Foods We Eat

Food Bites is an easy-to-read, often humorous book on the scientific basis of the foods we eat, and answers those pesky, niggling questions such as: Is the quality of beer really affected by the type of water used? and Processed foods: good or bad? Readers will be captivated by this superbly written book, especially so as their guides are Professor Richard Hartel, professor of Food Engineering at UW-Madison, along with his daughter, AnnaKate Hartel. Professor Hartel has for the last four years penned a witty and illuminating column on all aspects of food science for the Capital Times of Madison, and his weekly wisdom has now been collected into a single publication. With a huge and growing interest in the science of food, this treasure trove of knowledge and practical information, in 60 bite-sized chunks, is sure to be a bestseller.

Food-Borne Parasitic Zoonoses: Fish and Plant-Borne Parasites (World Class Parasites #11)

Humans suffer from numerous parasitic foodborne zoonoses, many of which are caused by helminths. The helminth zoonoses of concern in this book were once limited to diseases of animals, but have now become transmissible to humans. This book reviews not only the prevalence and distribution of these zoonoses, including available health and economic impact data, but highlights gaps in our knowledge that must be filled in order to assess the importance of a particular zoonosis.

Food By-Product Based Functional Food Powders (Nutraceuticals)

The by-products of food processing operations may still contain many valuable substances. Nowadays, the potential utilization of these major components has been the focus of increasing attention. Food by-products or food industry shelf-stable coproducts in liquid, pomace, or powder forms can be obtained by processing fruits, vegetables, meat, seafood, milk and dairy, cereal, nuts, fats, and oils; drying by-products and converting them into powder offers a way to preserve them as useful and valuable products. Food By-product Based Functional Food Powders discusses food powders derived from food by-products and waste as well as their chemical characterization, functional properties, unique bioactive features, enhancing technologies, processing of food by-product powders, and utilization. The book discusses how these by-products may be evaluated as a source of dietary phytochemicals including phenolic antioxidants, carotenoids, other bioactive polyphenols, and dietary fiber; as a source of proteins, peptides, and amino acids; as extruded products; as a source of collagen and gelatin; and as a source of various food additive materials.

Food By-Product Based Functional Food Powders (Nutraceuticals)

The by-products of food processing operations may still contain many valuable substances. Nowadays, the potential utilization of these major components has been the focus of increasing attention. Food by-products or food industry shelf-stable coproducts in liquid, pomace, or powder forms can be obtained by processing fruits, vegetables, meat, seafood, milk and dairy, cereal, nuts, fats, and oils; drying by-products and converting them into powder offers a way to preserve them as useful and valuable products. Food By-product Based Functional Food Powders discusses food powders derived from food by-products and waste as well as their chemical characterization, functional properties, unique bioactive features, enhancing technologies, processing of food by-product powders, and utilization. The book discusses how these by-products may be evaluated as a source of dietary phytochemicals including phenolic antioxidants, carotenoids, other bioactive polyphenols, and dietary fiber; as a source of proteins, peptides, and amino acids; as extruded products; as a source of collagen and gelatin; and as a source of various food additive materials.

Food Byproducts Management and Their Utilization

Food byproducts derived from industrial processing is a serious worldwide problem because it generates environmental pollution and results in significant food and economic losses from food waste. This new volume shows how food byproducts can be value-added renewable sources with the application of novel biotechnologies that avoid hazardous chemicals. The volume discusses the importance of valorizing food wastes and illustrates their value-added properties for industry. It explains the significant progress in bioresources processing for compound extraction and production as well as the increasing interest of food ingredients development, in which health care, environment, and economics play an essential part in biotechnological research. It considers the waste byproducts of various crops, such as tomato, melon, maize, berries, soybean, coffee, and their uses in the generation of health-benefiting bioactive compounds. The volume goes on to explore the various biotechnological strategies to extract, produce, and recover bioactive compounds along with the cost-effectiveness of these methods. Key features: Describes technological aspects in consolidated processing and bioprocessing of food by-products Discusses technological aspects in biotechnology for food byproducts treatment and the richness of their biomolecules Looks at the nutraceutical and health benefit aspects of such biomolecules from food waste byproducts Provides attractive and sustainable methodologies for bioproduct extraction and recovery for industrial application This volume, Food Byproducts Management and Their Utilization, presents strategies that are of interest in food engineering, green chemistry, biotechnology, and some other areas, while paying special attention to biorefinery approaches and new challenges that industries are dealing with in the era of sustainable development. It aims to encourage not only researchers but also governmental and enterprise sectors to recognize the value and applications of food byproducts and waste.

Food Byproducts Management and Their Utilization

Food byproducts derived from industrial processing is a serious worldwide problem because it generates environmental pollution and results in significant food and economic losses from food waste. This new volume shows how food byproducts can be value-added renewable sources with the application of novel biotechnologies that avoid hazardous chemicals. The volume discusses the importance of valorizing food wastes and illustrates their value-added properties for industry. It explains the significant progress in bioresources processing for compound extraction and production as well as the increasing interest of food ingredients development, in which health care, environment, and economics play an essential part in biotechnological research. It considers the waste byproducts of various crops, such as tomato, melon, maize, berries, soybean, coffee, and their uses in the generation of health-benefiting bioactive compounds. The volume goes on to explore the various biotechnological strategies to extract, produce, and recover bioactive compounds along with the cost-effectiveness of these methods. Key features: Describes technological aspects in consolidated processing and bioprocessing of food by-products Discusses technological aspects in biotechnology for food byproducts treatment and the richness of their biomolecules Looks at the nutraceutical and health benefit aspects of such biomolecules from food waste byproducts Provides attractive and sustainable methodologies for bioproduct extraction and recovery for industrial application This volume, Food Byproducts Management and Their Utilization, presents strategies that are of interest in food engineering, green chemistry, biotechnology, and some other areas, while paying special attention to biorefinery approaches and new challenges that industries are dealing with in the era of sustainable development. It aims to encourage not only researchers but also governmental and enterprise sectors to recognize the value and applications of food byproducts and waste.

Food Carbohydrate Chemistry: Water, Proteins, Enzymes, Lipids, And Carbohydrates (Institute of Food Technologists Series #48)

Not since "Sugar Chemistry" by Shallenberger and Birch (1975) has a text clearly presented and applied basic carbohydrate chemistry to the quality attributes and functional properties of foods. Now in Food Carbohydrate Chemistry, author Wrolstad emphasizes the application of carbohydrate chemistry to understanding the chemistry, physical and functional properties of food carbohydrates. Structure and nomenclature of sugars and sugar derivatives are covered, focusing on those derivatives that exist naturally in foods or are used as food additives. Chemical reactions emphasize those that have an impact on food quality and occur under processing and storage conditions. Coverage includes: how chemical and physical properties of sugars and polysaccharides affect the functional properties of foods; taste properties and non-enzymic browning reactions; the nutritional roles of carbohydrates from a food chemist's perspective; basic principles, advantages, and limitations of selected carbohydrate analytical methods. An appendix includes descriptions of proven laboratory exercises and demonstrations. Applications are emphasized, and anecdotal examples and case studies are presented. Laboratory units, homework exercises, and lecture demonstrations are included in the appendix. In addition to a complete list of cited references, a listing of key references is included with brief annotations describing their important features. Students and professionals alike will benefit from this latest addition to the IFT Press book series. In Food Carbohydrate Chemistry, upper undergraduate and graduate students will find a clear explanation of how basic principles of carbohydrate chemistry can account for and predict functional properties such as sweetness, browning potential, and solubility properties. Professionals working in product development and technical sales will value Food Carbohydrate Chemistry as a needed resource to help them understand the functionality of carbohydrate ingredients. And persons in research and quality assurance will rely upon Food Carbohydrate Chemistry for understanding the principles of carbohydrate analytical methods and the physical and chemical properties of sugars and polysaccharides.

Food Carbohydrate Chemistry (Institute of Food Technologists Series #48)

Not since "Sugar Chemistry" by Shallenberger and Birch (1975) has a text clearly presented and applied basic carbohydrate chemistry to the quality attributes and functional properties of foods. Now in Food Carbohydrate Chemistry, author Wrolstad emphasizes the application of carbohydrate chemistry to understanding the chemistry, physical and functional properties of food carbohydrates. Structure and nomenclature of sugars and sugar derivatives are covered, focusing on those derivatives that exist naturally in foods or are used as food additives. Chemical reactions emphasize those that have an impact on food quality and occur under processing and storage conditions. Coverage includes: how chemical and physical properties of sugars and polysaccharides affect the functional properties of foods; taste properties and non-enzymic browning reactions; the nutritional roles of carbohydrates from a food chemist's perspective; basic principles, advantages, and limitations of selected carbohydrate analytical methods. An appendix includes descriptions of proven laboratory exercises and demonstrations. Applications are emphasized, and anecdotal examples and case studies are presented. Laboratory units, homework exercises, and lecture demonstrations are included in the appendix. In addition to a complete list of cited references, a listing of key references is included with brief annotations describing their important features. Students and professionals alike will benefit from this latest addition to the IFT Press book series. In Food Carbohydrate Chemistry, upper undergraduate and graduate students will find a clear explanation of how basic principles of carbohydrate chemistry can account for and predict functional properties such as sweetness, browning potential, and solubility properties. Professionals working in product development and technical sales will value Food Carbohydrate Chemistry as a needed resource to help them understand the functionality of carbohydrate ingredients. And persons in research and quality assurance will rely upon Food Carbohydrate Chemistry for understanding the principles of carbohydrate analytical methods and the physical and chemical properties of sugars and polysaccharides.

Food Carotenoids: Chemistry, Biology and Technology (Institute of Food Technologists Series)

Carotenoids were first studied as natural pigments, then as precursors of vitamin A, and then as bioactive compounds against chronic diseases. These compounds have been and continue to be the subject of intense research worldwide, now with an expanded scope. Food Carotenoids: Chemistry, Biology and Technology gathers all the important information about these major compounds which impact both food quality and human health. It integrates in one volume various aspects of food carotenoids, such as: Structures and physicochemical properties Biosynthetic pathways and metabolism Analysis and composition of foods Stability and reactions during processing Commercial production as food colorants and precursors of aroma compounds Bioavailability and health benefits Having worked with carotenoids in various aspects for 44 years, Delia Rodriguez-Amaya is uniquely placed to pass on her wealth of knowledge in this field. This book will serve as solid background information for professionals in Food Science, Food Technology, Nutrition, Agriculture, Biology, Chemistry and Medical Sciences, whether in the academe, industry, governmental and non-governmental agencies.

Food Carotenoids: Chemistry, Biology and Technology (Institute of Food Technologists Series)

Carotenoids were first studied as natural pigments, then as precursors of vitamin A, and then as bioactive compounds against chronic diseases. These compounds have been and continue to be the subject of intense research worldwide, now with an expanded scope. Food Carotenoids: Chemistry, Biology and Technology gathers all the important information about these major compounds which impact both food quality and human health. It integrates in one volume various aspects of food carotenoids, such as: Structures and physicochemical properties Biosynthetic pathways and metabolism Analysis and composition of foods Stability and reactions during processing Commercial production as food colorants and precursors of aroma compounds Bioavailability and health benefits Having worked with carotenoids in various aspects for 44 years, Delia Rodriguez-Amaya is uniquely placed to pass on her wealth of knowledge in this field. This book will serve as solid background information for professionals in Food Science, Food Technology, Nutrition, Agriculture, Biology, Chemistry and Medical Sciences, whether in the academe, industry, governmental and non-governmental agencies.

Food Chain Security (NATO Science for Peace and Security Series C: Environmental Security)

The pilot study on Food Chain Security was launched in 2003 by NATO Public Diplomacy Division Science for Peace and Security Section (SPS) under the leadership of Turkey. The purpose of the study was to study the safety and security of food stuffs in the face of their careless/ignorant handling as well as against expected terrorist attacks at the system which may destroy and/or degrade it at the source during distribution, processing and in the consumption phase. The study included the protective and response measures which may have to be taken to reduce the risk and mitigate the consequences of these threats to the food system. The final outputs of this pilot study were agreed to be mainly: To allow comparison between country partners To identify common weaknesses of the food systems As a result of the terrible September 11, 2001 attacks in the United States the nature of the terrorist threat appears to be more uncertain and diffused, therefore the terrorist threat against the food system which comprises production, processing, distribution, restaurants, and retail can be very diverse and unpredictable and involve chemical, biological, and radiological agents of various kinds. Preparing for all possible contingencies was not practical, so a “risk management approach” was used in this study based on risk management principles that acknowledge while risk generally cannot be eliminated, enhancing protection from known or potential threats can reduce it.

Food Chemical Hazard Detection: Development and Application of New Technologies

Food chemical safety remains a serious concern to the food industry. Risks such as adulteration, the existence of toxic and allergenic compounds in foods, and poor regulation of postharvest processing indicate that food chemical safety is not fully guaranteed. With the increasing trend of globalization in the import and export of food products, the importance of employing accurate and reliable analytical instruments to rapidly detect chemical hazards in foods has become paramount. In recent years, many new applications for using a range of analytical methods to detect food chemical hazards have emerged. Food Chemical Hazard Detection: Development and Application of New Technologies aims to cover the major developments and applications in this field. With a far-reaching scope, this book includes sections dedicated to chromatography tandem mass spectrometry, immunoassay, biophotonics, nanotechnology, biosensors and microfluidic based “lab-on-a-chip”. A team of expert authors from major academic institutions in the USA, Canada and China bring a wealth of research experiences to bear in this major new work, which will be required reading for anyone interested in food chemical hazards and their effective detection and intervention strategies. Food Chemical Hazard Detection: Development and Application of New Technologies is aimed at a diverse audience, including food safety testing laboratories, scientists and managers in the global food supply chain, academic institutions, governmental regulatory agencies and food safety training providers. Readers will receive not only the fundamentals about different detection techniques, but will also gain insights into the current and future applications of each technique.

Food Chemical Hazard Detection: Development and Application of New Technologies

Food chemical safety remains a serious concern to the food industry. Risks such as adulteration, the existence of toxic and allergenic compounds in foods, and poor regulation of postharvest processing indicate that food chemical safety is not fully guaranteed. With the increasing trend of globalization in the import and export of food products, the importance of employing accurate and reliable analytical instruments to rapidly detect chemical hazards in foods has become paramount. In recent years, many new applications for using a range of analytical methods to detect food chemical hazards have emerged. Food Chemical Hazard Detection: Development and Application of New Technologies aims to cover the major developments and applications in this field. With a far-reaching scope, this book includes sections dedicated to chromatography tandem mass spectrometry, immunoassay, biophotonics, nanotechnology, biosensors and microfluidic based “lab-on-a-chip”. A team of expert authors from major academic institutions in the USA, Canada and China bring a wealth of research experiences to bear in this major new work, which will be required reading for anyone interested in food chemical hazards and their effective detection and intervention strategies. Food Chemical Hazard Detection: Development and Application of New Technologies is aimed at a diverse audience, including food safety testing laboratories, scientists and managers in the global food supply chain, academic institutions, governmental regulatory agencies and food safety training providers. Readers will receive not only the fundamentals about different detection techniques, but will also gain insights into the current and future applications of each technique.

Food Chemical Risk Analysis

Food Chemical Risk Analysis provides an introduction to the sciences of food chemistry and risk analysis and demonstrates how the potential hazards associated with food chemicals can be assessed and managed. Food scares are never far from the news and particular attention is therefore focused on the consumer perception of risk and risk communication. Leading international experts provide unique insights in the future of food chemical risk analysis. Chapters on alternatives to animal testing show how emerging methods offer the prospect of a more rational human-based approach to toxicity testing. Discussions about relative risks and protective factors highlight the possibility that risks from food can be over-estimated and approaches to avoid such risks are proposed. The science of risk management is presented as more than just a method for translating science into policy by demonstrating how social, psychological, economic ethical and other factors can, and should be taken into account. The book makes it clear that if risk communication is to be effective, an integrated approach to risk analysis must be adopted.