Do the concepts of "life course approach" and "developmental origins of health and disease" underpin current maternity care? Study protocol.

OBJECTIVE: To explore the knowledge of Developmental Origins of Health and Disease (DOHaD) concepts among midwives and obstetricians and to identify barriers and facilitators for clinicians to engage women and their partners before or early in pregnancy on risk factors associated with DOHaD, and thus to embed the concept of DOHaD in routine clinical practice. METHODS: A qualitative study using semi-structured interviews will be conducted in Ghana, India, Pakistan, Brazil, the UK, and USA in collaboration with the International Confederation of Midwives and the International Federation of Obstetricians and Gynecologists. Participants will be contacted via email and telephone interviews will be conducted until data saturation followed by inductive thematic analysis. RESULTS: Findings from this exploratory study will provide new knowledge about the perspectives of midwives and obstetricians on DOHaD and their role in preventing the intergenerational passage of non-communicable disease (NCD) risk and improving preconception care. CONCLUSION: This study will help us understand the current use of DOHaD principles in international maternity care and how this can be improved. Bringing DOHaD to clinical practice will help healthcare practitioners adopt a long-term approach in the prevention of NCDs and childhood obesity and will help women to enter pregnancy in optimum health.

Weight Trajectories from Birth and Bone Mineralization at 7 Years of Age.

OBJECTIVE: To assess whether different trajectories of weight gain since birth influence bone mineral content (BMC) and areal bone mineral density (aBMD) at 7 years of age. STUDY DESIGN: We studied a subsample of 1889 children from the Generation XXI birth cohort who underwent whole-body dual-energy radiograph absorptiometry. Weight trajectories identified through normal mixture modeling for model-based clustering and labeled "normal weight gain," "weight gain during infancy," "weight gain during childhood," and "persistent weight gain" were used. Differences in subtotal BMC, aBMD, and size-corrected BMC (scBMC) at age 7 years according to weight trajectories were estimated through analysis of covariance. RESULTS: Compared with the "normal weight gain" trajectory, children in the remaining trajectories had significantly greater BMC, aBMD, and scBMC at age 7 years, with the strongest associations for "persistent weight gain" (girls [BMC: 674.0 vs 559.8 g, aBMD: 0.677 vs 0.588 g/cm2, scBMC: 640.7 vs 577.4 g], boys [BMC: 689.4 vs 580.8 g, aBMD: 0.682 vs 0.611 g/cm2, scBMC: 633.0 vs 595.6 g]). After adjustment for current weight, and alternatively for fat and lean mass, children with a "weight gain during childhood" trajectory had greater BMC and aBMD than those with a "normal weight gain" trajectory, although significant differences were restricted to girls (BMC: 601.4 vs 589.2 g, aBMD: 0.618 vs 0.609 g/cm2). CONCLUSION: Overall, children following a trajectory of persistent weight gain since birth had clearly increased bone mass at 7 years, but weight gain seemed slightly more beneficial when it occurred later rather than on a normal trajectory during the first 7 years of life.