This edited collection gives practitioners the information they need to put their theoretical nutrition knowledge into practice, to help move their patient back towards health. It includes ten different case studies, case histories and answers to common questions.
A practical reference and teaching book of case studies for nutrition practitioners and other healthcare professionals, demonstrating how to apply the latest evidence-informed principles of personalized nutrition. Covering a range of complex cases such as autoimmunity and inflammation, hormonal disruption, mental health concerns and more, this edited collection explains the most recent developments in nutrition science and how these can inform patient management. Complete with in-depth case histories, Q&As with the practitioner and explaining the clinical reasoning behind decisions, this is the most comprehensive guide to help put theoretical knowledge of personalized nutrition into practice.
The ideal companion resource to ‘Manual of Dietetic Practice’, this book takes a problem-based learning approach to dietetics and nutrition with cases written and peer reviewed by registered dietitians, drawing on their own experiences and specialist knowledge Each case study follows the Process for Nutrition and Dietetic Practice published by the British Dietetic Association in 2012 Includes case studies in public health, an increasingly important area of practice
“Personalised Nutrition” represents any initiative that attempts to provide tailor-made healthy eating advice based on the nutritional needs of each individual, as these are dictated by the individual’s behaviour, phenotype and/or genotype, and their interactions. This Special Issue of Nutrients is dedicated to the development, implementation and assessment of the effectiveness of evidence-based “Personalised Nutrition” strategies. In this regard, a selection of reviews and original research manuscripts will bring together the latest evidence on how lifestyle habits, physiology, nutraceuticals, gut microbiome and genetics can be integrated into nutritional solutions, specific to the needs of each individual, for maintaining health and preventing diseases.
On December 5, 2017, the National Academies of Sciences, Engineering, and Medicine hosted a public workshop titled Nutrigenomics and the Future of Nutrition in Washington, DC, to review current knowledge in the field of nutrigenomics as it relates to nutrition. Workshop participants explored the influence of genetic and epigenetic expression on nutritional status and the potential impact of personalized nutrition on health maintenance and chronic disease prevention. This publication summarizes the presentations and discussions from the workshop.
Today's knowledge of human health demands a multidisciplinary understanding of medically related sciences, and Case Studies in the Physiology of Nutrition answers the call. Dedicated to the integration of nutrition science with physiology, this text cohesively incorporates descriptions of human problems in order to stimulate students' critical thin
Nutrigenomics is the rapidly developing field of science that studies nutrient-gene interaction. This field has broad implications for understanding the interaction of human genomics and nutrition, but can also have very specific implications for individual dietary recommendations in light of personal genetics. Predicted applications for nutrigenomics include genomics-based dietary guidelines and personalized nutrition based on individual genetic tests. These developments have sweeping ethical, legal and regulatory implications for individuals, corporations and governments.This book brings together experts in ethics, law, regulatory analysis, and communication studies to identify and address relevant issues in the emerging field of nutritional genomics. Contributing authors are experts in the social aspects of biotechnology innovation, with expertise in nutrigenomics. From addressing the concern that nutrigenomics will transform food into medicine and undermine pleasures associated with eating to the latest in the science of nutrigenomics, this book provides a world-wide perspective on the potential impact of nutrigenomics on our association with food. - Explores the rapidly developing, yet not fully understood, impact of nutrigenomics on the relationship to food medicalization, genetic privacy, nutrition and health - Provides ground for further exploration to identify issues and provide analysis to aid in policy and regulation development - Provides ethical and legal insights into this unfolding science, as well as serving as a model for thinking about issues arising in other fields of science and technology
These three volumes sort out the science behind nightly news reports and magazine cover stories, and help define the interdisciplinary field of lifestyle medicine and health.
This is the comprehensive guide to utilising nutrigenomics in clinical practice. A cutting-edge field, nutrigenomics examines the effects of foods on gene expression. From a comprehensive patient history and appropriate testing, practitioners can work with the patient to correct underlying biochemical imbalances that may predispose to a disease, using nutrigenomics as a guidance tool. The book covers everything a practitioner needs to know, from the difference between nutrigenomics and epigenetics to what to consider when incorporating nutrigenomics with functional medicine. The book is highly practical, guiding the reader through the realities of using genetic testing in clinical practice.
The food industry has seen many changes over the last several decades — new technologies have been introduced into the way we cook, manufacture, and present food products to consumers. Digital gastronomy, which combines new computational abilities such as three-dimensional (3D) printing with traditional food preparation, has allowed consumers to design and manufacture food with personalized shapes, colours, textures, and even nutrition. In addition to the personalization of food, 3D printing of food has other advantages such as promoting automation in food preparation and food sustainability through 3D-printed cell-based meats and alternative proteins. Entire meals can be constructed just by 3D food printing alone.In this textbook, the background, principles, commercial food printers, materials, regulations, business development, as well as the emerging technologies and future outlook of 3D food printing are explored. In terms of 3D-printed materials, four main classes are reviewed: namely, desserts / snacks (comprising dairy products, chocolate, sugars, and dough), fruits / vegetables, meats /alternative proteins, and pharmaceuticals / nutraceuticals.This textbook has been written to offer readers keen to learn more about 3D food printing in terms of concepts, processes, applications, and developments of 3D food printing. No prior knowledge is required. At the end of each chapter, a set of problems offers undergraduate and postgraduate students practice on the main ideas discussed within the chapter. For tertiary-level lecturers and university professors, the topic on 3D food printing can be associated to other subjects in food and nutrition, pharmaceutical and nutraceutical sciences, and food engineering.Related Link(s)