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New scientific advances in different areas have allowed the design of more precise strategies for the prevention and treatment of metabolic disorders through nutrition. In this context emerges the term Precision Nutrition, a new approach that takes advantage of scientific knowledge about the interaction of internal and external environmental factors to develop dynamic and precise nutritional recommendations. Therefore, Precision Nutrition includes personalized advice based on genetics and well-documented gene-nutrient-phenotype interactions, as well as other factors such as individual metabolome, transcriptome, and microbiota profile; food behavior; and dietary, physical activity, and life-style habits; and the resulting interactomes. Precision Nutrition should be based at least on three sequential steps: conventional nutritional approaches (considering age, gender, and physiological states); the incorporation of nutritional and health status information (e.g., metabolites, physical and nutritional behavior); and the genetic baggage including multiomics functional integration.
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Inequity starts before birth and is programmed in part by nutritional exposures. If these exposures occur around the time of conception, during pregnancy, and/or in infancy or childhood (all critical periods of development) they may alter a child's health trajectory and impact risk for impaired cognition and learning, and cardiometabolic, immune, and neuropsychiatric diseases and disorders. This Special Issue on "Early Life Nutrition and Future Health" has the following aims: 1. understand the origins of offspring health inequities from an early nutritional perspective; 2. uncover new insights into the environmental, biological, and social mechanisms that underpin these health outcomes in offspring; and 3. present novel targets and approaches to optimise health trajectories and prevent chronic diseases and disorders in later life and across generations. The research projects included herein highlight novel mechanistic, epidemiologic, and intervention studies that target key windows where nutrition has the greatest influence on future health (preconception, prenatal, and postnatal periods) and that explore vulnerable populations and animal models of early life nutritional programming.
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Inequity starts before birth and is programmed in part by nutritional exposures. If these exposures occur around the time of conception, during pregnancy, and/or in infancy or childhood (all critical periods of development) they may alter a child's health trajectory and impact risk for impaired cognition and learning, and cardiometabolic, immune, and neuropsychiatric diseases and disorders. This Special Issue on "Early Life Nutrition and Future Health" has the following aims: 1. understand the origins of offspring health inequities from an early nutritional perspective; 2. uncover new insights into the environmental, biological, and social mechanisms that underpin these health outcomes in offspring; and 3. present novel targets and approaches to optimise health trajectories and prevent chronic diseases and disorders in later life and across generations. The research projects included herein highlight novel mechanistic, epidemiologic, and intervention studies that target key windows where nutrition has the greatest influence on future health (preconception, prenatal, and postnatal periods) and that explore vulnerable populations and animal models of early life nutritional programming.
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