Brazilian Society for Food and Nutrition position statement: nutrigenetic tests

Position statement: The Brazilian Society for Food and Nutrition (SBAN) bases the following position statement on acritical analysis of the literature on nutritional genomics and nutrigenetic tests: (1) Nutrigenetic tests are predictive and not diagnostic, should not replace other evaluations required to treatment, and should only be used as an additional tool to nutritional prescription; (2) Nutritionists/registered dietitians and other health professionals must be able to interpret the nutrigenetic tests and properly guide their patients, as well as build their professional practice ongeneral ethical principles and those established by regulatory authorities; (3) It is extremely important to highlight that them is interpretation of nutrigenetic tests can cause psychological and health problems to the patient; (4) Currently, there is insufficient scientific evidence for the recommendation of dietary planning and nutritional supplementation based only on nutrigenetic tests. This position statement has been externally reviewed and approved by the board of SBAN and has not gone through the journal's standard peer review process.

Nutrigenomics and Nutrigenetics: Concepts and Applications in Nutrition Research and Practice.

Nutrigenomics refers to the application of genomic principles in nutritional research, enables us to formulate associations between specific nutrients and genetic factors, e.g. the way in which food or food ingredients influence gene expression. It aims to identify the genes that influence the risk of diet-related diseases and also helpful to solve the mechanisms that underlie these genetic predispositions. In contrast, nutrigenetics reveals the coordination of genetic makeup of individuals with their responses to various dietary nutrients. It clarifies different responses to same nutrient by different individuals. Interaction of genetic background and diet with regard to development of chronic conditions as obesity, cardiovascular disease, hypertension and cancer are discussed in present review. These two branches of nutrition resemble with two sides of a coin, facing towards opposite sides but simultaneously, they are intimately attached with each other. Collective efforts by the scientific community are needed to strictly follow guidelines put forth regarding experimental designs, analysis, and data storage for nutritional research. This strategy will be helpful to generate a sound database useful for clinicians and dietetic practitioners.

Nutrição no pós-genoma: fundamentos e aplicações de ferramentas ômicas / Nutrition in the post-genome era: 'omic' tools basics and applications

Após seqüenciamento do genoma humano, os estudos genômicos têm se voltado à elucidação das funções de todos os genes, bem como à caracterização de suas interações com fatores ambientais. A nutrigenômica surgiu no contexto do pós-genoma humano e é considerada área-chave para a nutrição nesta década. Seu foco de estudo baseia-se na interação gene-nutriente. Esta ciência recente tem como objetivo principal o estabelecimento de dietas personalizadas, com base no genótipo, para a promoção da saúde e a redução do risco de doenças crônicas não transmissíveis como as cardiovasculares, o câncer, o diabetes, entre outras. Nesse contexto, é fundamental a aplicação na área de nutrição das ferramentas de genômica funcional para análise do transcritoma (transcritômica), do proteoma (proteômica) e do metaboloma (metabolômica). As aplicabilidades dessas metodologias em estudos nutricionais parecem ilimitadas, pois podem ser conduzidas em cultura de células, modelos de experimentação em animais, estudos pré-clinicos e clínicos. Tais técnicas apresentam potencial para identificar biomarcadores que respondem especificamente a um determinado nutriente ou composto bioativo dos alimentos e para estabelecer as melhores recomendações dietéticas individuais para redução do risco das doenças crônicas não transmissíveis e promoção da saúde.

After sequencing the human genome, genomic studies have been focusing on elucidating the function of all genes, as well as characterizing their interactions with environmental factors. Nutrigenomics emerged in the pos-genome era and is considered a key-area for nutrition in the present decade. Its research focus is nutrient-gene interaction. The main objective of this recent science is to establish personalized genotype-based diets that promote health and reduce the risk of non-communicable chronic diseases such as cardiovascular diseases, cancer, diabetes and others. In this context, it is essential to use functional genomic tools to analyze the transcriptome (transcriptomics), proteome (proteomics) and metabolome (metabolomics) in the field of nutrition. The applicabilities of such methodologies in nutritional studies seem unlimited since they can be conducted in cell cultures, animal models and pre-clinical and clinical studies. Such techniques may allow one to identify biomarkers that respond specifically to a certain dietary nutrient or bioactive compound and to establish the best individual dietary advice to reduce the risk of non-communicable chronic diseases and promote health.