Maternal vitamin D status may play a significant role in early life, owing to the potential of vitamin D to modulate fetal programming and influence future bone health( Reference McGrath 1 , Reference Javaid, Crozier and Harvey 2 ). Within the UK and Ireland (51–55°N), vitamin D synthesis (related to UVB exposure) is limited to approximately 6 months of the year. This has a significant negative impact on circulating concentrations of 25-hydroxyvitamin D (25(OH)D), the biological measure of vitamin D status. In Ireland, over 90% of women have been reported to be vitamin D insufficient (<50 nmol/l) during the first trimester of pregnancy, with over 70% insufficient in the subsequent trimesters( Reference ORiordan, Kiely and Higgins 3 , Reference Holmes, Barnes and Alexander 4 ). Previous studies of 25(OH)D status in pregnancy have focused on far Northern (>45°N) or Southern (32°S) latitudes which both suffer from seasonality effects. No studies to date have reported 25(OH)D status during pregnancy at equatorial regions which have a constant UVB exposure. Therefore, the objective of this study was to assess 25(OH)D status in a sample of pregnant women (n 119) (located at 5°S) from the Seychelles Child Development Nutrition Study (SCDNS). Pregnant mothers were recruited at 13–17 weeks of gestation between 2001–2002. Blood samples were collected at this time as well as at 28 weeks and at gestation, from which serum 25(OH)D concentrations were assessed by HPLC mass spectrometry (LC-MS/MS, API 4000, AB SCIEX, USA). Mean vitamin D status across all time-points was considered optimal and above the lower cut-off for sufficiency (25(OH)D >50nmol/l) (Fig 1).
Concentrations of 25(OH)D were found to increase significantly from enrolment to 28 weeks (P=0.04) and from enrolment to delivery (P<0.01; Repeated measures ANOVA) (data not shown). In contrast to the poor status observed in Northern latitude populations( Reference ORiordan, Kiely and Higgins 3 , Reference Holmes, Barnes and Alexander 4 ), the findings of this study demonstrate that a vitamin D concentration of between 75 and 100 nmol/l can be achieved during pregnancy. These findings highlight the need for greater awareness of vitamin D inadequacy in pregnancy and support the call for interventions to improve vitamin D status in this population group in geographical areas with limited UVB exposure.
This work was supported by grants from the US National Institute of Environmental Health Sciences, National Institutes of Health, the Government of Seychelles and by the EU through its Sixth Framework Programme.