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This selection of key presentations from the Food Structures, Digestion and Health conference is devoted to the unique and challenging interface between food science and nutrition, and brings together scientists across several disciplines to address cutting-edge research issues. Topics include modeling of the gastrointestinal tract, effect of structures on digestion, and design for healthy foods. New knowledge in this area is vital to enable the international food industry to design of a new generation of foods with enhanced health and sensory attributes. The multidisciplinary approach includes research findings by internationally renowned scientists, and presents new research findings important and pertinent to professionals in both the food science and nutrition fields. - Describes the science underpinning typical food structures providing guidance on food structure in different conditions - Includes novel approaches to the design of healthy foods using real-world examples of applied research and design written by top leaders in the area - Describes and validates model systems for understanding digestion and predicting digestion kinetics
Food structure at the molecular level and how it impacts on health, taste, texture and shelf life is becoming an increasingly important area of science. Food Colloids: Self-Assembly and Material Science describes new developments in the theory and practice of the formulation of food emulsions, dispersions, gels and foams. Particular emphasis is placed on the self-assembly of surfactants and biopolymers in food. Topics include: colloid science in food nutrition and the relationship of texture to sensory perception of food materials. It also discusses the exploitation of surfactant mesophases for nanoscale encapsulation, the interfacial rheological properties of mixed interfaces, the dynamics and microrheology of gels and emulsions, the stability of droplets and bubbles, the effects of thermal and mechanical processing on food colloid stability and the electrostatic interactions of proteins with polysaccharides. This authoritative book will serve as a guide and reference to researchers in the field of food colloids.
The field of food colloids is concerned with the structural and dynamic aspects of multi-phase food systems - dispersions, emulsions, foams, gels - viewed from a physical chemistry perspective as assemblies of molecules and particles in various states of organisation. The main molecular components of food colloids are proteins, lipids and polysaccharides. The primary objective of the field is to relate the structural, stability and rheological properties of such systems to the interactions between constituent components and to their distribution between the bulk phases and various kinds of interfaces. This volume records most of the lecture programme at the international conference on "Food Colloids - Proteins, Lipids and Polysaccharides" held in Sweden on 24-26th April 1996.
Food-Borne Delivery Systems of Functional Substances for Precision Nutrition, Volume 112 highlights new advances in the field, with this new volume presenting interesting chapters on a range of topics, including Biological activity, limitations, and steady-state delivery of functional substances for precision nutrition, Nanoparticles delivery systems of functional substances for precision nutrition, Micelles delivery systems of functional substances for precision nutrition, Microgel delivery systems of functional substances for precision nutrition, Emulsions delivery systems of functional substances for precision nutrition, and Microencapsule delivery systems of functional substances for precision nutrition, and much more.Other chapters focus on Liposomes' delivery systems of functional substances for precision nutrition, Hydrogel delivery systems of functional substances for precision nutrition, Vesicle delivery systems of functional substances for precision nutrition, and Future development trend of food-borne delivery systems of functional substances for precision nutrition. - Provides the latest information on food substances and nutrition - Covers biological activity, limitations, and steady-state delivery of functional substances for precision nutrition - Includes content on topics such as microgel delivery systems and emulsions delivery systems
For the first time, this singular and comprehensive text presents a focus on quantitative studies aiming to describe food digestion and the tools that are available for quantification. A case study relevant to real-world applications places this theoretical knowledge in context and demonstrates the different ways digestion studies can be used to develop food products. Interdisciplinary Approaches to Food Digestion undertakes a multidisciplinary approach to food digestion studies, placing them in context and presenting relevant phenomena plus the challenges and limitations of different approaches. This book presents a unique, useful reference work to scientists, students, and researchers in the area of food science, engineering, and nutrition. Over the last two decades there has been an increasing demand for foods that deliver specific nutritional values. In addition, the dramatic increase of food related diseases such as obesity requires the development of novel food products that control satiety and glycemic response. Overall, digestion studies are gaining increasing attention in recent years, especially as the link between diet and health/well-being becomes more evident. However, digestion is a complex process involving a wide range of disciplines such as medicine, nutrition, chemistry, materials science, and engineering. While a significant body of work exists within each discipline, there is a lack of a multidisciplinary approach on the topic which will provide a holistic view of the process. With Interdisciplinary Approaches to Food Digestion, researchers are finally presented with this much needed approach.
Food Structure Engineering and Design for Improved Nutrition, Health and Wellbeing presents new insights on the development of new healthy foods and the understanding of food structure effect on nutrition, health and wellbeing. Sections cover a) New ingredients, typicity and ethnicity of foods in different cultures and geographic regions; b) New and innovative strategies for food structure development; c) Strategies to address the challenges for healthier food products, such the reduction of sugar, salt and fats; d) Assessment of health effect of foods by in vitro and in vivo tests, and more. Edited by experts in the field, and contributed by scientists of different areas such as nutritionists and food engineers, this title offers a broad overview of the field to the readers, boosting their capability to integrate different aspects of product development. - Brings examples and strategies on how to improve the nutritional value of foods through food engineering and design - Includes a broad vision of food trends and their impact in new product development - Features the newest methodologies and techniques for the analysis of developed food products
Nanotechnology can be used to address challenges faced by the food and bioprocessing industries for developing and implementing improved or novel systems that can produce safer, nutritious, healthier, sustainable, and environmental-friendly food products. This book overviews the most recent advances made on the field of nanoscience and nanotechnology that significantly influenced the food industry. Advances in Processing Technologies for Bio-Based Nanosystems in Food provides a multidisciplinary review of the complex mechanisms involved in the research, development, production and legislation of food containing nanostructures systems. Features: Presents the most recent advances made in the field of nanoscience and nanotechnology as applied to the food industry Discusses innovative approaches and processing technologies Shows how nanotechnology can be used to produce safer, nutritious, healthier, sustainable and environmental-friendly food products Covers the complex mechanisms involved in the research, development, production and legislation of food containing nanostructures Selected examples of nanotechnology applications in food industry are shown, focusing on advanced aspects of food packaging, processing and preservation; followed by one contribution that presents the potential commercialization and the main challenges for scale-up. Comprised of 15 chapters, this book provides much-needed and up-to-date information on the use of emergent technologies in bio-based nanosystems for foods, and serves as an ideal reference for scientists, regulators, industrialists, and consumers that conduct research and development in the food processing industry.