...this is a valuable addition to the food analyst;s library. It brings together a well balanced account of the methods available an the literature cited will provide the analyst with all the details needed for setting up water-soluble vitamin assays and further reading to understand why these vitamins are important to those concerned with human nutrition. ' - International Journal of Food Science and Technology This book is of practical use as a tool and reference work of laboratory managers, senior analysts and laboratory technicians in food and vitamin manufactrurinf companies, for those in govenment and research institutes and for medical researchers, public analyst and nutritionist, It can also be recommended for a broad audience including lectures, students of natural sciences and food technologist. - lesbensm Wiss und Technol.'I recommend Water-soluble vitamins Assays in Human Nutrition not only to scientist in academia and industry and students in all food related fields as a valuable and easily used reference... it wll most likely be the first book I reach for when the inevitable question arises.April 1994Price: 115.00UK

Foods are ingested and become part of our body. This book describes the science and procedure behind the materials in foods that impart their desirable properties. The book can serve as a text in a course in food materials science at the senior or graduate level or as a supplemental text in an advanced food technology course. It cac also serve as a reference book for professionals in the food industry.

Providing overview, depth, and expertise, Essentials of Functional Foods is the key resource for all involved in the exciting and rapidly growing arena of functional foods. Every important aspect of functional foods and ingredients is covered, from technology, product groups, and nutrition, to safety, efficacy, and regulation. The editors and their expert contributors emphasize broadly based principles that apply to many functional foods. This book is essential reading for food scientists, researchers, and professionals who are developing, researching, or working with functional foods and ingredients in the food, drug, and dietary supplement industry.

Starch hydrolysis products are arguably the most versatile of all food sugar ingredients because they can be designed to meet many different nutritional and technological requirements. This book covers all aspects of starch production, from its hydrolysis to the analysis of the finished product. In addition, the most important derivatives of starch hydrolysis products are described and their applications in the food and, increasingly pharmaceutical industries are detailed. This book is essential reading for industrial food scientists and technologists, particularly those in processing and will be of interest to those involved in the formulation of pharmaceutical products. It is also a valuable reference source for food scientists and nutritionists in academic research institutes.

The prevalence of metabolic syndrome (MS) is rising in developing countries and developed countries at such high rates that it is now considered a worldwide public health problem of pandemic proportions. Yet its spread can usually be mitigated by diet and lifestyle behavior. Nutritional Intervention in Metabolic Syndrome brings together coverage of dietary patterns and dietary components to create a complete understanding of the mechanisms by which these diets and components may improve metabolic syndrome. It then presents information on how to treat MS through lifestyle change and nutritional intervention. Witten by experts, the book focuses on diet therapy, nutritional intervention, and oxidative stress in metabolic syndrome. It presents information on dietary patterns in metabolic syndrome, including Mediterranean style diets, DASH, and low calorie diets. The text then provides an understanding of the physiopathology mechanisms in metabolic syndrome and strategies to treat these conditions through nutritional intervention. Chapters cover prevalence of MS, pathophysiology, MS in systemic lupus erythematosus and rheumatoid arthritis, gene-nutrient interactions, MS in adolescents and children, lifestyle change and physical activity, and various effects of dietary components in MS. Research studies examining food groups are important, and there is a trend in the literature to verify the relationship between dietary patterns and cardiovascular risk factors. However, studies examining dietary components, such as olive oil, soy-based products, n-3 polyunsaturated fatty acids, berries, whole grains, nuts, dairy foods, tea, coffee, and alcoholic beverages are also important. The coverage of both in this book gives you an understanding of the pathophysiology underlying MS that you can use to develop strategies to prevent and treat these conditions through nutritional intervention.

This is a work on the role of fungi in processed and unprocessed foods. In addition to offering practical and applied information on fungi associated with food and beverages this second edition now covers poisonous mushrooms. Topics include water activity, specific commodities, fungi and metabolities as human dietary components, health hazards and mycotoxin producers, and mycotoxin and fungal contaminant detection.

Applying recent advances in biological and physical sciences, food scientists have created "novel food ingredients" enzymatically, chemically or microbiologically. Chief among these are "novel proteins and polysaccharides" which, like the more established traditional macromolecules, can perform multifunctional roles such as thickening, stabilization, gelation or encapsulation and in this way determine to a large extent the shelf life, texture and nutritional value of natural and processed foods. Featuring the latest advances on chemistry, structure and functional properties of "novel proteins and polysaccharides," with an emphasis on fundamental structure-function relationships, this book will be valuable to all those working in product development and fundamental food research.

The objective of this book is to introduce, organize, and document the scientific, technical and practical aspects involved with the man ufacture, storage, distribution and marketing of minimally pro cessed refrigerated (MPR) fruits and vegetables. The overall func tion of these foods is to provide a convenient, like-fresh product for food service and retail consumers. A high level of quality accom panied by superior safety are essential requisites of MPR fruits and vegetables. Since refrigeration or chilling is essential to the quality and safety of these food products, "refrigeration" is included in the title of this book, i.e. MPRefrigerated fruits and vegetables. This swiftly emerging area of processing requires organization and unification of thinking concerning fruit and vegetable food products which are not considered commercially sterile from a classical stand point. Fruits and vegetables require very special attention because of the multitude of enzymic and respiratory factors as well as mi crobiological concerns which impact on the safety of low acid and acidified vegetables and on the economic viability of high acid fruit products of all kinds."

Fundamentals of Cheese Science provides comprehensive coverage of the scientific aspects of cheese, emphasizing fundamental principles. The book's 23 chapters cover the chemistry and microbiology of milk for cheesemaking, starter cultures, coagulation of milk by enzymes or by acidification, the microbiology and biochemistry of cheese ripening, the flavor and rheology of cheese, processed cheese, cheese as a food ingredient, public health and nutritional aspects of cheese, and various methods used for the analysis of cheese. The book contains copious references to other texts and review articles. This broadly based resource is written for personnel involved in various production and quality control functions in the cheese industry, senior undergraduates, and post-graduate students.

This book illustrates the major trends in applied microbiology research with immediate or potential industrial applications. The papers proposed reflect the diversity of the application fields. New microbial developments have been done as well in the food and health sectors than in the environmental technology or in the fine chemical production. All the microbial genera are involved : yeast, fungi and bacteria. The development of biotechnology in parallel with the industrial microbiology has enabled the application of microbial diversity to our socio-economical world. The remarkable properties of microbes, inherent in their genetic and enzymatic material, allow a wide range of applications that can improve our every day life. Recent studies for elucidating the molecular basis of the physiological processes in micro-organisms are essential to improve and to control the metabolic pathways to overproduce metabolites or enzymes of industrial interest. The genetic engineering is of course one of the disciplines offering new horizons for the " fantastic microbial factory " . Studies of the culture parameter incidence on the physiology and the morphology are essential to control the response of the micro-organisms before its successful exploitation at the industrial scale. For this purpose, fundamental viewpoints are necessary. Development of novel approaches to characterise micro-organisms would also facilitate the understanding of the inherent metabolic diversity of the microbial world, in terms of adaptation to a wide range of biotopes and establishment of microbial consortia.

Advances in Food Research, the leading publication for comprehensive reviews on important topics in food science, has evolved into Advances in Food and Nutrition Research under the editorial direction ofJohn E. Kinsella. This expanded title recognizes the integral relationships between food science and nutrition and presents reviews of topics in nutrition as well as food science. This change also encourages nutritionists and food scientists to become more familiar with relevant advances in these interrelated areas

Probiotic microorganisms have a long history of use, and their health benefits for hosts are well documented. This Microbiology Monographs volume provides an overview of the current knowledge and applications of probiotics. Reviews cover the biology and probiotic potential of the thoroughly studied prokaryotic genera Lactobacillus and Bifidobacterium, several eukaryotic microorganisms, probiotic strain characterization, and the analytical methods (such as FISH, microarray, and high throughput sequencing) required for their study. Further chapters describe the positive effects of probiotics on malabsorption disorders such as diarrhea and lactose intolerance, and document the clinical evidence of benefits in treating allergies and lung emphysema, and in dermatological applications. Also addresses are topics such as genetically engineered strains, new carriers for probiotics, protection techniques, challenges of health claims, safety aspects, and future market trends.

This new book updates and expands Harold Burton's classic book, UHT Processing of Milk and Milk Products, to provide comprehensive, state-of-the-art coverage of thermal processing of liquid and particulate foods. The food products covered now include soups, sauces, fruit juices, and other beverages, in addition to milk and milk products. Pasteurization, sterilization, and aseptic processing are all discussed, with emphasis on the underlying principles and problems of heat treatment of more viscous fluids, where streamline flow conditions are likely to prevail, and of products containing particles. Pasteurization and heat treatments designed to further extend the shelf life of pasteurized products are also discussed, and the pasteurization and sterilization processes are compared to highlight similarities and differences. Throughout, factors influencing the safety and quality of heated foods are emphasized. This book contains over 100 illustrations and 50 tables, as well as extensive cross-referencing and a comprehensive reference section.

As was the case with Charles Ross's Packaging of Pharmaceuticals published by the UK Institute of Packaging in 1975 it is assumed that the reader of this book already has a broad understanding of the basics of packaging. If not the Packaging Users Handbook and the Handbook of Food Packaging are recommended. The packaging needs of pharmaceuticals are different in degree only from those of other perishable products such as processed foods. Because the required action of a medication can be nullified by any deterioration in its active principles the protection required from its packaging is at least an order of magnitude greater than that needed by foods for example. Functional efficiency is therefore of prime importance. Conversely the need for the packaging to 'sell' the medication is much less, hence the graphics required need only provide the right 'image' for the product when presented for use in hospital or surgery. Even when on sale at the pharmacy the 'appeal' required is that of providing hygiene and confidence more than anything else. Thus, the textual requirements are paramount including traceability (batch numbers, date-coding etc) in case of recall; while striking appearance to attract customer attention is in lower key. And with the increase in malicious tampering nowadays recall is more frequent.

Fifteen years have passed since the 3rd edition of Antimicrobials in Food was published. It was arguably considered the "must-have" reference for those needing information on chemical antimicrobials used in foods. In the years since the last edition, the food industry has undergone radical transformations because of changes on several fronts. Reported consumer demands for the use of "natural" and "clean-label" antimicrobials have increased significantly. The discovery of new foodborne pathogen niches and potentially hazardous foods, along with a critical need to reduce food spoilage waste, has increased the need for suitable antimicrobial compounds or systems. Novel natural antimicrobials continue to be discovered, and new research has been carried out on traditional compounds. These and other related issues led the editors to develop the 4th edition of Antimicrobials in Food. In the 4th edition, the editors have compiled contemporary topics with information synthesized from internationally recognized authorities in their fields. In addition to updated information, new chapters have been added in this latest release with content on the use of bacteriophages, lauric arginate ester, and various systems for antimicrobial encapsulation and delivery. Comprehensive revisions of landmark chapters in previous editions including naturally occurring antimicrobials from both animal and plant sources, methods for determining antimicrobial activity, new approaches to multifactorial food preservation or "hurdle technology," and mechanisms of action, resistance, and stress adaptation are included. Complementing these topics is new information on quantifying the capability of "clean" antimicrobials for food preservation when compared to traditional food preservatives and industry considerations when antimicrobials are evaluated for use in food manufacture. Features Covers all food antimicrobials, natural and synthetic, with the latest research on each type Contains 5,000+ references on every conceivable food antimicrobial Guides in the selection of appropriate additives for specific food products Includes innovations in antimicrobial delivery technologies and the use of multifactorial food preservation with antimicrobials

Eggs are one of the most popular foods in the worldwide, due to their great taste and versatility, economical value and high nutritional content. The egg plays an important role in human diets, both for the nutritional value of its many components (e.g., proteins, vitamins, minerals, choline, specific long chain fatty acids) as well for its wide range of functional characteristics, including foaming, gelling and emulsifying properties. The egg sector is a vibrant field with many new developments in terms of production, processing and commercialization as well research. Since the beginning of the 21st century, the global production of eggs has grown by 69.5%, farm production systems have evolved to improve the welfare of laying hens, many shell egg and egg products have been developed to address the changing demands of consumers and our knowledge of the composition of the egg has been boosted by the use of the latest gene-based technologies. Information on the science and technology of egg and egg processing is essential to the work of governments, academia, and industry. The Handbook of Egg Science and Technology aims to be the first book providing a complete source of information about egg science and technology, covering topics such as world egg production, marketing of eggs, chemistry of egg components, functional properties of egg components, egg processing, egg product development, shell egg quality, grading, egg microbiology, egg pasteurization, egg nutrition and bioactive, egg biotechnology, and sustainability of egg production. Key Features: Includes the most current and comprehensive scientific and technical information about egg science and technology. Presents an ideal guide for professionals in related food industries, egg business consultants, regulatory agencies, and research groups Answers the need for a comprehensive textbook for upper-level undergraduate and graduate courses in food science, animal science, and poultry departments A global panel of experts in the field of egg science was gathered with the aim to provide the most updated information and development on many topics likely to interest readers ranging from academia and food science students to managers working in the food production and egg processing sectors. This handbook is an excellent resource for the food and poultry industry R&D sectors as well as for experts in the field of food and nutrition.

This book compiles a diverse and interdisciplinary range of scientific literature, laboratory developments, industrial implications and future prospects covering Entomophagy in 3D food printing to fight against hunger and nutritional deficiencies. Recent developments in Entomphagy in 3D printing of Drosophila based materials, and their nutritional, social, economic, scientific and environmental aspects. are comprehensively covered. Readers will also find shortcomings, guidelines, and industrial prospects for these materials, with emphasis on processing methods for the extraction of sustainable materials through 3D food printing.  3D Printing of Sustainable Insect Materials focuses on the methodology, technology and processing used for utilizing insects in 3D food printing applications, establishing technology-driven knowledge to fight against hunger. Chapters cover the principles for Entomophagy, insect processing methods, modern 3D food printing technologies, and the theoretical and practical aspects of Emtomophagy in 3D printing, with a special focus on future prospects and technologies. This ground-breaking book will serve knowledge to researchers and industry professionals across the food industry with broad coverage of emerging technologies, materials developed through Entomophagy, functional characterization and the technical details required to produce sustainable insect-based materials through 3D food printing.

This comprehensive, edited book explores carotenoids and their important functional roles in yeast, bacteria and plants and a profound exposition on the structures of carotenoid molecules, focusing in the first of three parts on the biosynthesis of carotenoids. The regulation of carotenoid biosynthesis in photosynthesis as well as in plant, fruits, storage roots and algae is central to the second part, and discoveries about the function of carotenoids in human health feature in the third and final part. Many helpful illustrations, explanations, overviews and examples help to bring readers up to date on relevant themes including carotenogenic genes, carotenoids in fruits and metabolic engineering. The book explores where carotenoids are synthesized in nature, including in carrots and algae. Contributing expert authors examine enzyme functions and plant models, and analyze the structure of carotenoid molecules. The function of carotenoids in photosynthesis and in photosynthetic organs as well as during fruit ripening are then explored. A whole chapter is dedicated to the latest research on apocarotenoids and further chapters cover interesting and novel themes on plastid development and the epigenetic regulation that affects carotenoid synthesis in plants. The metabolic engineering of carotenoids that has been done in fruits, plants, and seeds is another area that readers can explore, along with evidences on the function of carotenoids in human nutrition, as antioxidants, as in the control of lipid metabolism and in the absorption of carotenoids. This is a highly informative and wide-ranging work which will update researchers in the field, as well as supporting students of plant physiology and biotechnology, as supplementary reading.

The second edition of the book begins with the description of the diversity of wine-related microorganisms, followed by an outline of their primary and energy metabolism. Subsequently, important aspects of the secondary metabolism are dealt with, since these activities have an impact on wine quality and off-flavour formation. Then chapters about stimulating and inhibitory growth factors follow. This knowledge is helpful for the growth management of different microbial species. The next chapters focus on the application of the consolidated findings of molecular biology and regulation the functioning of regulatory cellular networks, leading to a better understanding of the phenotypic behaviour of the microbes in general and especially of the starter cultures as well as of stimulatory and inhibitory cell-cell interactions during wine making. In the last part of the book, a compilation of modern methods complete the understanding of microbial processes during the conversion of must to wine.This broad range of topics about the biology of the microbes involved in the vinification process could be provided in one book only because of the input of many experts from different wine-growing countries.

This book on frozen food, as its title suggests, is written for the food technologist and food scientist in the frozen food industry, which includes both food and equipmentmanufacturers. The information will also be useful for otherdisciplines within the food industry as awhole, and for studentsoffood technology. The book, the aimofwhich is to provide an up-to-date reviewofthe technologyofthe frozen food industry, has been divided into two parts, dealing with generic industry issues and specific product areas, respectively. The first section opens with a chapter on the physics and chemistryoffreezing, including a review ofglassy states. The practical realisationoffreezing is covered in the next chapter, which also covers frozen distribution and storage. Chapter 3 deals with packaging and packaging machinery, a sector where there has recently of product safety is been considerable technological progress. The key area discussed in detail in chapter 4, and includes microbiology and hygienic factory design, as well as consumer reheating, particularly microwave reheating. Health and dietary considerations have become much more important to consumers, and chapter 5 reviews the current nutritional status of frozen foods and their role in a modem diet. The driving force for scientific and technological change in frozen foods is the massive market for its products and the consequent competitive pressures, and the first part ofthe book concludes with a chapter on development ofnew frozen products, and how to apply the technical knowledge, both generic and product specific, to innovate in a consumer-driven market.

The fish processing industry is still far from the levels of scientific and technological development that characterize other food processing oper ations. It has also been slow in finding uses for by-products and processing wastes, compared with the meat and poultry industries. The utilization of fisheries by-products or wastes constitutes an area in which the application of modern techniques could potentially improve profitability. At present, increased attention is being focused on the application of new biotechnological methods to operations related to the seafood industry, with the objective of increasing its general efficiency. Because fish processing operations are commonly carried out in the vicinity of the sea, most of the resulting fish wastes have been disposed of by returning them to it. Pollution control measures and a better understanding of the valuable composition of the products extracted from the sea are expected to encourage their recovery and the develop ment of new products from them. In the past, fisheries wastes and species not used for food have been generally utilized through techno logical processes with a low level of sophistication, such as those for the production of animal feed and fertilizer. Limited economic success has accompanied the application of physi cal and chemical processes for the recovery of non-utilized fisheries biomass and for the production of quality products from them."

Specialist Periodical Reports provide systematic and detailed review coverage of progress in the major areas of chemical research. Written by experts in their specialist fields the series creates a unique service for the active research chemist, supplying regular critical in-depth accounts of progress in particular areas of chemistry. For over 80 years the Royal Society of Chemistry and its predecessor, the Chemical Society, have been publishing reports charting developments in chemistry, which originally took the form of Annual Reports. However, by 1967 the whole spectrum of chemistry could no longer be contained within one volume and the series Specialist Periodical Reports was born. The Annual Reports themselves still existed but were divided into two, and subsequently three, volumes covering Inorganic, Organic and Physical Chemistry. For more general coverage of the highlights in chemistry they remain a 'must'. Since that time the SPR series has altered according to the fluctuating degree of activity in various fields of chemistry. Some titles have remained unchanged, while others have altered their emphasis along with their titles; some have been combined under a new name whereas others have had to be discontinued. The current list of Specialist Periodical Reports can be seen on the inside flap of this volume.

Comprehensive Gut Microbiota, Three Volume Set provides new insights into gut microbiota as a critical mediator of human health and well-being. Comprehensive chapters, split across three volumes, present trusted and authoritative sources of information for novel human gut microbiome and health research. The book focuses on the fascinating intestinal microbiome and its interaction with food, food bioactive components, nutrition and human health. Chapters address the core science in the microbiota field and draw links between the microbiome, food, nutrition and health interaction. The text reflects the current state of evidence available in the field of microbiota, its regulation at the individual and population level, and the importance of the microbiome to human health. Each section includes introductory chapters that present key concepts about the section objective. Later sections focus on the novel findings of the gut microbiome, food and nutrition science. Human studies and systematic literature reviews are also discussed throughout the work.