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Phytochemicals are plant derived chemicals which may bestow health benefits when consumed, whether medicinally or as part of a balanced diet. Given that plant foods are a major component of most diets worldwide, it is unsurprising that these foods represent the greatest source of phytochemicals for most people. Yet it is only relatively recently that due recognition has been given to the importance of phytochemicals in maintaining our health. New evidence for the role of specific plant food phytochemicals in protecting against the onset of diseases such as cancers and heart disease is continually being put forward. The increasing awareness of consumers of the link between diet and health has exponentially increased the number of scientific studies into the biological effects of these substances. The Handbook of Plant Food Phytochemicals provides a comprehensive overview of the occurrence, significance and factors effecting phytochemicals in plant foods. A key of objective of the book is to critically evaluate these aspects. Evaluation of the evidence for and against the quantifiable health benefits being imparted as expressed in terms of the reduction in the risk of disease conferred through the consumption of foods that are rich in phytochemicals. With world-leading editors and contributors, the Handbook of Plant Food Phytochemicals is an invaluable, cutting-edge resource for food scientists, nutritionists and plant biochemists. It covers the processing techniques aimed at the production of phytochemical-rich foods which can have a role in disease-prevention, making it ideal for both the food industry and those who are researching the health benefits of particular foods. Lecturers and advanced students will find it a helpful and readable guide to a constantly expanding subject area.
This new volume highlights a selection of novel applications for food processing, food preservation, and food decontamination methods. It discusses the principles, benefits, and techniques used and presents recent developments and applications of ultrasonication. It explores supercritical fluid extraction and supercritical fluid chromatography, extrusion technology, advanced drying and dehydration technologies, and encapsulation methods as important tools in the processing of food. It addresses the basic membrane processing technologies along with their advantages and disadvantages. The volume presents the application and use of mathematical models for measuring and regulating fermentation procedures. It also provides an understanding of how the hydration kinetics of grains can help in optimization and scaling of processes on a large industrial scale. Topics on decontamination methods for foods are included, such as an overview of concepts, basic principles, potential applications, and prospects and limitations of cold plasma technology and irradiation in the food processing sector.
Trying to determine the truth about her husband's death, Lucy Greene discovers dangerous secrets about a government-sponsored biological warfare program that has maimed her past and threatens her future.
With ever-increasing health consciousness among consumers in the worldwide in the last decades, great attention has been paid on the application of biotechnology methods in the agricultural and food industry. Especially for plant-based foods production, which exhibit co-benefits to human the health and climate. Traditional fermented foods play a crucial role in human diets around the world because of their unique flavors, great nutritional value, and health-beneficial effects. Fermentation is one of the most traditional but still prevalent bio-processing approaches in the food industry, with the great potential to improve the flavor, sensory, nutritional value and biological activity (including antioxidant capacity, anti-cancer, anti-diabetic anti-inflammatory, regulating intestinal flora properties) of food products. The application of microbial food processing method has attracted the interest of researchers and industries due to its simple, environmentally friendly, and cost-efficiently advantages. The use of fermentation and selected generally recognized as safe (GRAS) starters, such as lactic acid bacteria, yeasts and filamentous fungi has been considered as an excellent method to improve the nutritional value or biological activity of foods by the biosynthesis/biotransformation/generation of bioactive compounds (e.g., phenolic compounds, oligosaccharide), or by the degradation of anti-nutritional factors. In the last years, the exploitation of microbes isolated from traditional fermented foods or as the result of the inoculation of selected starters was conducted to produce novel fermented plant-based foods with beneficial viable microorganisms and/or their metabolites that positively impact on human health. This Research Topic aims to focus on the application of microorganisms in processing of fermented plant-based foods to improve nutritional profile and/or biological activity. In particular, it is welcome focusing on matrices fermentation by beneficial microorganisms, processing for food substrate/by-product valorization, augmentation of food matrix bioactive compounds via fermentation. We invite authors to submit different types of manuscripts (e.g., Original Research Articles, short communications, and Review Articles) that focus on but are not limited to the following topics:  Microbial metabolic pathways associated with the accumulation of bioactive compounds of fermented foods.  Innovative fermentation approaches to improve the nutritional and functional properties in the final products.  Valorization of plant-based food matrices/by-products via fermentation.  Plant-based anti-nutritional factors degradation by microorganisms.  Development of high added-value and novel fermented products.  Production of bioactive compounds with health beneficial effects.  Human intestinal flora simulated effect on plant-based food.