The impact of nutrition on maternal and foetal health has been deepened to the molecular level, where the interplay between maternal functional nutrients uptake and foetal-Omics has brought to us several key pathways to better understand the maternal nutrigenomics, foetal early life programming, and the maternal nutrition-foetal programming either through placenta or milk.
Functional nutrients drive the maternal-foetal programming via several Omics mechanisms, in depth study of such pathways will unravel the complex maternal-foetal nutrient-gene interaction and provide insight to the foetal programming, even combating some foetal health conditions during gestation or after birth via delivering functional nutrients into the milk.
The goal of this special issue is to provide recent updates on nutrigenomics with particular focus on their role in maternal health, foetal early life programming, and the interplay between maternal nutrition and foetal programming.
The purpose of this Special Issue is to collect original research articles, review, and short communications that highlight recent advances in the field of nutrigenomics, with special focus on maternal nutrigenomics, foetal early life programming, and maternal-foetal programming.
We accept both human subject and animal model studies. We welcome studies with various experimental designs, functional studies, clinical trials, and meta-analyses.
This Research Topic is open for submission in the Nutrigenomics and the Animal Nutrition and Metabolism sections. Studies related to human nutrition are suitable for the Nutrigenomics. Studies related to animal nutrition should be submitted to the Animal Nutrition and Metabolism.
The impact of nutrition on maternal and foetal health has been deepened to the molecular level, where the interplay between maternal functional nutrients uptake and foetal-Omics has brought to us several key pathways to better understand the maternal nutrigenomics, foetal early life programming, and the maternal nutrition-foetal programming either through placenta or milk.
Functional nutrients drive the maternal-foetal programming via several Omics mechanisms, in depth study of such pathways will unravel the complex maternal-foetal nutrient-gene interaction and provide insight to the foetal programming, even combating some foetal health conditions during gestation or after birth via delivering functional nutrients into the milk.
The goal of this special issue is to provide recent updates on nutrigenomics with particular focus on their role in maternal health, foetal early life programming, and the interplay between maternal nutrition and foetal programming.
The purpose of this Special Issue is to collect original research articles, review, and short communications that highlight recent advances in the field of nutrigenomics, with special focus on maternal nutrigenomics, foetal early life programming, and maternal-foetal programming.
We accept both human subject and animal model studies. We welcome studies with various experimental designs, functional studies, clinical trials, and meta-analyses.
This Research Topic is open for submission in the Nutrigenomics and the Animal Nutrition and Metabolism sections. Studies related to human nutrition are suitable for the Nutrigenomics. Studies related to animal nutrition should be submitted to the Animal Nutrition and Metabolism.