Maternal resistance exercise increases infant energy expenditure.

Maternal obesity decreases infant energy expenditure, subsequently predisposing infants to greater adiposity and weight gain. Conversely, some findings suggest that maternal exercise may increase infant energy expenditure; however, the impact of maternal exercise mode (i.e.

Exercise during pregnancy modulates infant cellular and whole-body adiposity.

Non-pharmaceutical interventions are needed to target the growing intergenerational cycle of obesity. We aimed to determine whether in utero exposure to different exercise doses during pregnancy directly reduces infant cellular and whole-body adiposity. Pregnant women completed ~24 weeks of supervised exercise training; for standardization of exercise analysis (frequency, intensity, time, and volume-FIT-V), metrics were assessed from 16 to 36 weeks.

Effects of maternal exercise modes on infant cord blood proteome.

The aim of this study was to show the effects of different maternal exercise modes on infant cord blood proteome. We used infant cord blood from two randomized controlled trials where women with a wide range of BMI and free of pregnancy complications participated in controlled and supervised aerobic, resistance, or combination (aerobic+resistance) exercise from <16 weeks of gestation until delivery. Results of this study showed that infant cord blood proteome is altered in a maternal exercise mode specific manner.

Paternal obesity decreases infant MSC mitochondrial functional capacity.

Besides the well-recognized influence of maternal health on fetal in utero development, recent epidemiological studies appoint paternal preconception metabolic health as a significant factor in shaping fetal metabolic programming and subsequently offspring metabolic health; however, mechanisms behind these adaptations remain confined to animal models. To elucidate the effects of paternal obesity (P-OB) on infant metabolism in humans, we examined mesenchymal stem cells (MSCs), which give rise to infant tissue, remain involved in mature tissue maintenance, and resemble the phenotype of the offspring donor. Here, we assessed mitochondrial functional capacity, content, and insulin action in MSC from infants of fathers with overweight [body mass index (BMI: 25-30 kg/m); paternal overweight (P-OW)] or obesity (BMI ≥ 30 kg/m; P-OB) while controlling for maternal intrauterine environment.

Exercise during pregnancy Dose: Influence on preterm birth outcomes.

Background: Preterm delivery typically increases health risk for neonates and is associated with longer infant hospital stay and financial burden. Prenatal exercise dose (frequency, intensity, type, time, volume) have been shown to influence birth outcomes. Increased prenatal exercise dose could therefore provide a critical reduction in health risk and financial burden in preterm neonates.