This book is a comprehensive guide to forensic analytical toxicology for trainees in forensic medicine and forensic scientists. The second edition has been fully revised to provide clinicians with the latest developments and research in the field. New chapters covering the latest analytical instruments have been added to this edition. Beginning with guidance on setting up a modern toxicology laboratory, the next sections, with the help of flow charts, explain the procedures for collection, preservation, extraction, and clean up; and screening and colour tests for various poisons. The following chapters describe numerous major and minor analytical instruments and techniques, and their application in forensic toxicology. The text is further enhanced by clinical images, figures and tables. The previous edition (9789351522249) published in 2014.

Fruit and Vegetable Waste Utilization and Sustainability presents strategies to address the amount of waste generated from the industrial processing of fruits and vegetables. Sections address the valorization of fruit and vegetable waste for high-value products, the techno-economic assessment of fruit and vegetable biorefinery/valorization, environmental impacts through real-life examples of lifecycle assessment, and content on integrated biorefineries, policies and case studies. Food scientists and nutrition researchers, as well as food industry professionals working toward zero waste and academics and students studying related fields, are sure to benefit from this reference.

Nutritional Composition and Antioxidant Properties of Fruits and Vegetables provides an overview of the nutritional and anti-nutritional composition, antioxidant potential, and health benefits of a wide range of commonly consumed fruits and vegetables. The book presents a comprehensive overview on a variety of topics, including inflorescence, flowers and flower buds (broccoli, cauliflower, cabbage), bulb, stem and stalk (onion, celery, asparagus, celery), leaves (watercress, lettuce, spinach), fruit and seed (peppers, squash, tomato, eggplant, green beans), roots and tubers (red beet, carrots, radish), and fruits, such as citrus (orange, lemon, grapefruit), berries (blackberry, strawberry, lingonberry, bayberry, blueberry), melons (pumpkin, watermelon), and more. Each chapter, contributed by an international expert in the field, also discusses the factors influencing antioxidant content, such as genotype, environmental variation and agronomic conditions.

Food Packaging and Preservation: Antimicrobial Materials and Technologies provides a scaffolded introduction to principles of biological science (food contamination and their effect on human health) as well as nanomaterials, natural antimicrobials and emerging non-thermal processing methods. The book's goal is to help users develop sustainable usage of these materials and technologies. It is designed to help researchers in food technology, materials science, nanoscience, and polymer science, but it will also be ideal for researchers and developers who develop antimicrobial technologies for food industry applications, in particular food packaging and the preservation of food products.

As populations in many developed countries age and the burden of chronic disease increases, there remains a need to establish effective preventative measures. Fruit and vegetables are a natural source of vitamins and minerals which can contribute to good health. Understanding and optimising the nutraceutical properties of fruit and vegetables reviews the associated health benefits of key horticultural crops, including apples, broccoli and cranberries. The book provides authoritative discussions on the nutraceutical properties of the major phytochemical compounds, including antioxidants and flavonoids, and how these properties can be optimised to prevent the onset of chronic diseases. By providing a comprehensive insight into the human health benefits of fruit and vegetables, the book highlights the emergence of a more sustainable, alternative method to preventing the onset of disease with less reliance on overburdened healthcare systems.

The processing of food generally implies the transformation of the perishable raw food to value-added products. It imparts benefits, such as the destruction of surface microflora, and inactivation of deleterious enzymes, such as peroxidase, leading to a greater shelf life of the food. It also enhances color and texture while maintaining quality of products and makes them edible. However, it also has an inevitable impact on nutritional quality attributes, such as increase or decrease in certain vitamins and bioactive metabolites among others. Food Processing Technologies: Impact on Product Attributes covers a range of food processing technologies and their effect on various food product attributes, such as bioactive compounds, safety, and sensory and nutritional aspects of the food upon processing. There are eight major parts in the book. Part I covers the conventional processing technologies. Parts II, III, IV, and V deal with various novel processing technologies, including impingement processing technologies, electro-magnetic processing technologies, physico-mechanical processing technologies, and electro-technologies. Part VI introduces chemical processing technologies. Part VII comprise irradiation processing technology, and the final part is focused on biological processing technology, detailing the application of enzymes in food processing. Numerous studies were carried out to find the impact of these processing technologies on various aspects of food and associated health promotion properties. Both positive and negative results were obtained based on nature of foods, processing type, and duration of processing, and this book covers these results in depth.