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Innovative Food Analysis presents a modern perspective on the development of robust, effective and sensitive techniques to ensure safety, quality and traceability of foods to meet industry standards. Significant enhancements of analytical accuracy, precision, detection limits and sampling has expanded the practical range of food applications, hence this reference offers modern food analysis in view of new trends in analytical techniques and applications to support both the scientific community and industry professionals. This reference covers the latest topics across existing and new technologies, giving emphasis on food authenticity, traceability, food fraud, food quality, food contaminants, sensory and nutritional analytics, and more. - Covers the last ten years of applications across existing and new technologies of food analytics - Presents an emphasis on techniques in food authenticity, traceability and food fraud - Discusses bioavailability testing and product analysis of food allergens and foodomics
Edible oils and fats are derived from plants and animals and have several health benefits. Edible oils and fats consist of many health-promoting bioactive compounds such as polyunsaturated fatty acids, monounsaturated fatty acids, polyphenols, flavonoids, phytosterols, vitamins, and inorganic compounds. The chemical compounds present in edible oils and fats are known for their possible health risks such as coronary heart disease and metabolic diseases, which is why there is a need to check the quality, purity, and safety of edible oils and fats. Bioactive Compounds of Edible Oils & Fats: Health Benefits, Risks, and Analysis provides an overview of different edible oils and fats, health benefits, associated risks, and analytical techniques for qualitative and quantitative guidelines for ensuring their quality and safety using modern analytical tools and techniques. This book will provide an important guideline for controlling quality, safety, and efficacy issues related to edible oils and fats. Key Features: Provides a detailed overview of different edible oils and fats of plant and animal origin, chemistry, and identification methods. Describes their health benefits, risks, and the use of different analytical techniques in quality control. Describes the applicability of sophisticated analytical techniques such as GC-FID, GC-MS, and HPLC for quality control of edible oils and fats. Emphasizes the use of recent techniques such as LC-MS and FTIR-chemometrics in the analysis and quality control of edible oils and fats.
Welcome to "Advanced Pharmacognosy - I (MPG 102T)," an intellectually stimulating and comprehensive course that delves into the fascinating world of pharmacognosy at an advanced level. Pharmacognosy, the study of natural products obtained from plants, animals, and microorganisms, has been an integral part of traditional and modern medicine for centuries. This course is designed to provide students with a deeper understanding of the complex and multifaceted field of pharmacognosy. In "Advanced Pharmacognosy - I," students will embark on an enriching journey through the intricate facets of natural product chemistry, the isolation and characterization of bioactive compounds, the exploration of medicinal plants, and the significance of phytopharmaceuticals in modern healthcare. The course aims to equip learners with the knowledge and skills necessary to recognize, evaluate, and harness the therapeutic potential of natural products, ensuring that they become proficient in the art and science of pharmacognosy. This preface sets the stage for an engaging exploration of pharmacognosy's advanced concepts and practical applications. By the end of this course, students will not only appreciate the invaluable role of natural products in drug discovery but also grasp their importance in the broader context of sustainable healthcare and the preservation of our natural environment. We encourage students to approach this course with curiosity and enthusiasm, as it promises to be a rewarding academic experience. We extend our gratitude to the educators and experts who have contributed their knowledge and insights to make this course a reality. We hope that "Advanced Pharmacognosy - I (MPG 102T)" will inspire students to further their understanding of pharmacognosy and contribute to the advancement of pharmaceutical science and healthcare
Presenting an up-to-date review of the state-of-the-art and main applications of omics technologies to current hot topics in food sciences, this book is divided into four convenient sections. The first section represents an introduction to the development of foodomics and will provide a general overview of DNA-based and protein-based methods. The second section is focused on the main applications of omics to food safety issues, such as chemical hazards, foodborne pathogens, phages, food authentication or GMO detection. The third section is focused on specific food groups and how omics have revolutionized the investigation of dairy and meat products, seafood, agricultural and fermented food products. Finally, the fourth section is devoted to the link between foodomics and health: hot topics such as nutrimetabolomics, food allergy or probiotics are reviewed here. The book brings together work from top international scientists to produce the most significant academic book for some years on omics and food for a broad audience. It presents unique features not covered so far by other books, such as a detailed description of different strategies and applications of omics techniques to many food sectors and provides a welcome addition to the cutting-edge literature in this area for researchers and professionals in food science and food chemistry.
This volume details protocols on mass spectrometry and associated techniques. Chapters guide readers through micro- and macronutrients analysis, mass spectrometry-related methodologies, direct insertion, matrix-assisted laser desorption ionization (MALDI), gas chromatography (uni- and bi-dimensional), liquid chromatography, plasma mass spectrometry (ICP-MS), and analyses in food samples. Authoritative and cutting-edge, Mass Spectrometry for Food Analysis aims to provide comprehensive and updated state-of-art methodologies and models for food analysis.
Water Extraction of Bioactive Compounds: From Plants to Drug Development draws together the expert knowledge of researchers from around the world to outline the essential knowledge and techniques required to successfully extract bioactive compounds for further study. The book is a practical tool for medicinal chemists, biochemists, pharmaceutical scientists and academics working in the discovery and development of drugs from natural sources. The discovery and extraction of bioactive plant compounds from natural sources is of growing interest to drug developers, adding greater fuel to a simultaneous search for efficient, green technologies to support this. Particularly promising are aqueous based methods, as water is a cheap, safe and abundant solvent. Water Extraction of Bioactive Compounds: From Plants to Drug Development is a detailed guide to the fundamental concepts and considerations needed to successfully undertake such processes, supported by application examples and highlighting the most influential variables. Beginning with an introduction to plants as sources of drugs, the book highlights the need for a move towards both more rational and greener techniques in the field, and presents multiple innovative water-based strategies for the discovery and extraction of bioactive constituents of botanicals. A broad range of available techniques are reviewed, including conventional and pressurized hot water extraction techniques, intensified processes such as microwave-assisted, ultrasound-assisted processes, and enzyme assisted extraction, and processes using combined techniques. - Covers the theoretical background and range of techniques available to researchers, helping them to select the most appropriate extraction method for their needs - Presents up-to-date and cutting edge applications by international experts - Highlights current use and future potential for industrial scale applications - Offers a thorough introduction to plants as sources of drugs, highlighting strategies for the discovery of novel bioactive constituents of botanicals
This new volume focuses on the technology of bioactive compounds and nutraceuticals from fruit and vegetable sources, from cereal grain sources, and from cereal processing by-products. The chapters look at the extraction technologies, analytical techniques, and potential health prospects specifically from fruits and vegetables sources. They cover plants such plantation crops, roots, and tubers, as well as fruit and vegetable processing byproducts. They also consider bioactive compounds and nutraceuticals from major and minor cereal grain sources and from cereal processing byproducts. This new book provides valuable insight for food technologists and those in related areas of research. Bioactive Compounds and Nutraceuticals from Plant Sources: Extraction Technology, Analytical Techniques, and Potential Health Prospects is the companion volume to Bioactive Compounds and Nutraceuticals from Dairy, Marine, and Nonconventional Sources: Extraction Technology, Analytical Techniques, and Potential Health Prospects by the same editors.
Natural Bioactive Compounds: Technological Advancements deals with the latest breakthroughs in the field of screening, characterization and novel applications of natural bioactive compounds from diverse group of organisms ranging from bacteria, viruses, cyanobacteria, algae, fungi, bryophytes, higher plants, sponges, corals and fishes. Written by some of the most reputed scientists in the field, this book introduces the reader to strategies and methods in the search for bioactive natural products. It is an essential read for researchers and students interested in bioactive natural products, their biological and pharmacological properties, their possible use as chemopreventive or chemotherapeutic agents, and other future potential applications. - Explores natural sources of bioactive compounds, including cyanobacteria, bacteria, viruses, fungi and higher plants - Discusses the potential applications of biological products, such as their use in medicine (antibiotics, cancer research, immunology), as food additives, supplements and technological substances - Analyzes the contributions of emerging or developing technologies for the study of bioactive natural compounds (characterization and purification)
Given the continuous consumer demand for products of high quality and specific origin, there is a great tendency toward the application of multiple instrumental techniques for the complete characterization of foodstuffs or related natural products. Spectrometric techniques usually offer a full and rapid screenshot of a product’s composition and properties by the determination of specific biomolecules such as sugars, minerals, polyphenols, volatile compounds, amino acids, and organic acids. The present Special Issue aimed firstly to enhance the advances of the application of spectrometric techniques such as gas chromatography coupled to mass spectrometry (GC-MS), inductively coupled plasma optical emission spectrometry (ICP-OES), isotope-ratio mass spectrometry (IRMS), nuclear magnetic resonance (NMR), Raman spectroscopy, or any other spectrometric technique, in the analysis of foodstuffs such as meat, milk, cheese, potatoes, vegetables, fruits/fruit juices, honey, olive oil, chocolate, and other natural products. An additional goal was to fill the gap between food composition/food properties/natural product properties and food/natural product authenticity, using supervised and nonsupervised chemometrics.
Most bioactive compounds have antioxidant activity, particularly tocochromanols, phenolics (flavonoids and phenolic acids), methylxantines and capsaicinoids. Some of these compounds have also other properties important for human health. For example, vitamin E protects against oxidative stress, but it is also known for its “non-antioxidant” functions, including cell signalling and antiproliferation. Selenium compounds and indoleamins are the components of the antioxidant enzymes. Selenium makes vitamin E acquisition easier and controls its physiological functions. In taking part in enzymatic reactions and protecting the cell against free radicals, selenium shows immunomodulative, antiphlogistic, and antiviral activity. Capsaicinoids possess not only antioxidant, but also antibacterial, analgesic, weight-reducing and thermoregulation properties. Studies have also demonstrated their gastroprotective and anticancer properties. Analytical Methods in the Determination of Bioactive Compounds and Elements in Food explores both the influence of particular compounds on human health and the methods used for their determination. Chapters describe various aspects of food and plant analysis, including chromatographic and non‐chromatographic approaches as well as hyphenated techniques. Readers of this book will gain a comprehensive understanding of the important groups of bioactive compounds relevant to human health.