Obstetrics & Gynaecology - Conference items
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- ItemPericonceptional and antenatal nutritional supplement use in Irish women: data from the IMPROvED Study(Nutrition Society, 2021-12) Kelliher, Lisa; Hennessy, Áine; McCarthy, Fergus P.; Kiely, Mairead E.
- ItemInteractions between vitamin D status, calcium intake and parathyroid hormone concentrations in healthy pregnant women(Cambridge University Press (CUP) on behalf of the Nutrition Society, 2018-06) Hemmingway, Andrea; O'Callaghan, Karen M.; Hennessy, Áine; Kiely, Mairead E.Emerging evidence highlights the potential of the vitamin D and calcium metabolic system to impact pregnancy outcomes and adverse effects of vitamin D-parathyroid hormone (PTH) interactions on perinatal health have been reported(1,2). PTH concentrations reflect homeostasis in the calcium metabolic system, and can be impacted by calcium intake as well as circulating 25-hydroxyvitamin D [25(OH)D] concentrations, reflecting vitamin D status. Little explored in pregnancy, we aimed to examine the relative importance of vitamin D status and calcium intake on PTH concentrations among healthy pregnant women. This was a cross-sectional analysis of 142 white-skinned participants of mean (SD) 14 (2) weeks’ gestation at baseline of a dose-response randomised controlled trial of vitamin D [NCT02506439](3). Serum 25(OH)D was measured by a CDC-accredited LC-MS/MS method and calcium intakes were estimated using a validated quantitative food frequency questionnaire(4). Serum albumin-corrected calcium and intact PTH were measured by colorimetric assay (Randox Laboratories Ltd.) and ELISA (MD Biosciences Inc.), respectively. Serum 25(OH)D was stratified at 50 nmol/L and calcium intakes by < 800, 800–1000 and ≥ 1000 mg/day according to the Institute of Medicine(5). After log transformation of PTH, we used Pearson’s correlations and two-way ANOVA to explore effects of calcium intakes and 25(OH)D on PTH. Geometric mean (95% CI) PTH concentration was 9·24 (8·37, 10·19) pg/mL. Mean (SD) 25(OH)D and calcium intake were 54·9 (22·6) nmol/L and 1182·5 (485·8) mg/day, respectively. 44% of participants had a 25(OH)D < 50 nmol/L and calcium intake was < 800 and ≥ 1000 mg/day in 22% and 63%, respectively. PTH was inversely correlated with vitamin D status (r = −0·311, P < 0·01), but not calcium intake (r = −0·087) or serum calcium (r = 0·057). There was no evidence of an interaction between calcium intake and 25(OH)D on PTH concentration (P = 0·941). There was a statistically significant main effect of serum 25(OH)D (P = 0·025) but not calcium intake (P = 0·822) on PTH. To conclude, in this group of healthy pregnant women with largely sufficient calcium intake, vitamin D status, but not calcium intake was important for maintaining calcium homeostasis.