View clinical trials related to Maternal Obesity.
Filter by:Maternal obesity (MO) affects 1 in 5 women and is strongly linked to increased birth weight, childhood/adolescent obesity, life-long metabolic and inflammatory disorders, and childhood neuropsychiatric disorders. There remains a critical unmet need for developing a safe and effective non-pharmacological approach for attenuating metabolic inflammation and ameliorating the adverse effects of MO on offspring health that originate in utero and extend into the lactational period. Pyrroloquinoline quinone (PQQ) is a diet-derived natural food supplement with anti-inflammatory properties that, in humans and mice, improves metabolism and exerts potent immunoregulatory effects. Researchers' central hypothesis is that PQQ administration during MO pregnancy 1) improves maternal metabolic and inflammatory indices, 2) improves utero-placental blood flow and ameliorates placental maladaptation (oxidative stress, hypoxia, inflammation and fatty acid transporter expression) and 3) reduces neonatal adiposity.
The FACILITY STUDY is aimed at evaluating maternal and children social, cultural, economic and lifestyle-related risk factors for the development of childhood overweight, obesity and early adiposity rebound (EAR). This study consists of two phases: a cross-sectional phase and a retrospective case-control study.
Background: Although breastfeeding has known protective effects, such as preventing childhood obesity, the specific mechanisms remain unclear. Idaho has a high breastfeeding initiation rate (92%) but a significant prevalence of childhood obesity (30.5% overweight/obese). Limited research exists on the impact of maternal inflammation, maternal body mass index (BMI), C-reactive protein (CRP), and interleukin-6 (IL-6) concentrations in breastmilk on infant health outcomes, especially in healthy full-term infants. Objective: This study aims to expand understanding of the role of maternal inflammation on breastmilk composition and its effect on infant immune development. The investigators seek to investigate the relationship between maternal health status, breastmilk inflammatory concentrations, and balanced immune development in infants. Additionally, the investigators aim to explore the potential influence of early diet exposure, including maternal inflammatory status, on the risk of obesity and other inflammatory conditions. Methods: Healthy full-term infants (breastfed/formula-fed) and their mothers will be recruited. Maternal inflammation markers (BMI, CRP, IL-6) and immune markers in infants will be analyzed. Flow cytometry will assess immune populations. Correlations between maternal systemic inflammation, infant inflammation, and breastmilk inflammatory markers will be examined for breastfeeding mothers. Outcomes: The investigators hypothesize breastfed infants will display a more favorable anti-inflammatory profile. This study will identify factors influencing immune development and potential pathways linking early-life exposures to long-term health outcomes. Findings will inform strategies for promoting balanced immune development and elucidate the role of early diet exposure, including maternal inflammation, as a protective or risk factor for obesity and inflammatory conditions.
Human breast milk harbours a specific microbiota including bacteria from the Lactobacillus and Bifidobacterium genera, that contribute to the bacterial colonization of the infant gut in the post-natal period. An entero-mammary pathway has been suggested by which selected bacteria from the maternal gut would be transmitted to the mammary gland through dendritic cell trafficking by the lymphatic pathway. Accordingly, some studies have detected the presence of probiotic strains in breast milk from mothers who were consuming them. The administration of probiotic supplements to lactating mothers has also been shown to modulate milk concentrations of inflammatory markers and metabolic hormones, impacting positively the infant health. Noteworthily, many of these inflammatory and hormonal biomarkers are altered in the breastmilk from pre-pregnancy obese mothers, compared with these who were normal-weight, possibly affecting the infant health. It is unclear whether the breast milk microbiota of obese mothers is altered and the impact of probiotic administration on the breastmilk microbiota and on the normalization of breastmilk alterations in obese mothers is unknown. Based on these antecedents, the aim of this study is to determine if the administration of a B. bifidum 900791-containing foodstuff to mothers during the perinatal period normalizes the breast milk concentrations of interleukin (IL)-6, C-Reactive Protein (CRP), insulin, adiponectin and resistin, and the microbiota of obese mothers, compared with normal-weight mothers.