147 Nutritional advances in fetal and neonatal development: Mineral nutrition

Mineral nutrition during pregnancy has long been known to impact fetal growth and development. This is evidenced by a multitude of mineral deficiency-related causes for embryonic loss, abortion, stillbirth, or neonatal death, including poor or inappropriate fetal development that can be either reversible or irreversible postnatally. Both macro and trace mineral needs of the dam are known to increase with the fetal growth of advancing gestation due to greater metabolic stress and demand, as well as tissue development and deposition in the fetus. Fetal deposition of many trace minerals is especially important for neonatal use while consuming milk with low mineral concentrations and facing a multitude of immune challenges. In the last 2 decades, many laboratories have focused on “developmental programming,” or the effects of maternal nutrition on fetal and neonatal development and ultimately long-term health and productivity of livestock. Despite this, the role of macro and trace minerals in short-and long-term consequences of developmental programming is still unclear for many minerals and species. Taken together, research in ruminants and swine demonstrate that mineral intake and source during pregnancy can have a large effect on fetal growth and development that lasts into the neonatal and pre-weaning periods. Some studies suggest that supra-nutritional mineral intake may have a positive benefit during gestation or neonatal periods. Moreover, some data suggest that mineral requirements may be greater than currently thought to accommodate the rapid fetal growth and preparation for lactation that occurs during late gestation. Continued research is necessary to determine mineral requirements of livestock during pregnancy, especially when considering their long-reaching subsequent effects on offspring. Additionally, increased understanding of perinatal transfer of trace minerals can aid in our management of pregnant dams and their offspring.