O'Sullivan Fiona, Laird Eamon, Kelly Dervla, van Geffen Jos, van Weele Michiel, McNulty Helene, Hoey Leane, Healy Martin, McCarroll Kevin, Cunningham Conal, Casey Miriam, Ward Mary, Strain J J, Molloy Anne M, Zgaga Lina
Department of Public Health and Primary Care and.
School of Medicine, Trinity College, University of Dublin, Dublin, Ireland.
J Nutr. 2017 May;147(5):858-868. doi: 10.3945/jn.116.244079. Epub 2017 Mar 22.
UVB-induced skin synthesis is considered the key source of vitamin D, yet exposure to UVB is poorly accounted for in epidemiological studies. The aim of this study was to examine the association of serum 25-hydroxyvitamin D [25(OH)D] concentration with accurately measured ambient UVB dose, sun enjoyment, supplements, and other factors. An all-Irish cohort of community-dwelling participants aged >60 y [median age: 73; 67% female; median 25(OH)D: 54.5 nmol/L] was used. Participants from this large, cross-sectional study completed a questionnaire to provide information on demographic factors and lifestyle (including supplement use and sun enjoyment). The Tropospheric Emission Monitoring Internet Service database was used to extract the daily ambient UVB dose at wavelengths that could induce vitamin D synthesis (D-UVB) over Ireland (latitude: 51°N-55°N). Blood sampling occurred throughout the year. Ambient exposure at the place of residence was calculated for each participant individually. Associations between determinants and serum 25(OH)D concentration were examined in a multivariate model. Random forest analysis was used to establish prediction models of vitamin D deficiency, and area under the curve (AUC) is shown. In total, 5138 individuals were included. Median D-UVB was 63 mJ/cm, which varied between seasons and latitudes, despite the small latitude differential. Vitamin D supplementation (β = 27.7; < 10 × 10), D-UVB (β = 1.58 per 1000 mJ/cm; < 10 × 10), and sun enjoyment (β = 6.6; < 0.001) were strongly positively associated with serum 25(OH)D. Those who avoided sunshine were largely at risk of deficiency (<40 nmol/L), whereas those who enjoyed sunshine tended to be vitamin D sufficient (≥50 nmol/L). D-UVB and sun enjoyment improved prediction of deficiency in non-supplement-taking individuals; the overall AUC improved by 3.5%. D-UVB and sun enjoyment are important predictors of vitamin D status, even in this elderly population at northern latitudes. Accurate estimation of ambient UVB can help to further clarify the role of other determinants of vitamin D status and inform sunshine recommendation guidelines.
紫外线B(UVB)诱导的皮肤合成被认为是维生素D的主要来源,但在流行病学研究中,UVB暴露情况却很少得到充分考量。本研究旨在探讨血清25-羟基维生素D [25(OH)D] 浓度与精确测量的环境UVB剂量、晒太阳的愉悦感、补充剂及其他因素之间的关联。研究使用了一个全爱尔兰的社区居住参与者队列,年龄均大于60岁 [中位年龄:73岁;女性占67%;25(OH)D中位数:54.5 nmol/L]。这项大型横断面研究的参与者完成了一份问卷,以提供有关人口统计学因素和生活方式(包括补充剂使用情况和晒太阳的愉悦感)的信息。利用对流层排放监测互联网服务数据库,提取了爱尔兰(纬度:北纬51°至55°)上空能诱导维生素D合成的波长(D-UVB)下的每日环境UVB剂量。全年均进行了血液采样。为每位参与者单独计算其居住地的环境暴露量。在多变量模型中研究了各决定因素与血清25(OH)D浓度之间的关联。采用随机森林分析建立维生素D缺乏的预测模型,并展示曲线下面积(AUC)。总共纳入了5138名个体。尽管纬度差异较小,但D-UVB中位数为63 mJ/cm²,且随季节和纬度而变化。维生素D补充剂(β = 27.7;P < 10⁻¹⁰)、D-UVB(每1000 mJ/cm²为β = 1.58;P < 10⁻¹⁰)和晒太阳的愉悦感(β = 6.6;P < 0.001)与血清25(OH)D呈强正相关。那些避免晒太阳的人大多有缺乏维生素D的风险(<40 nmol/L),而那些喜欢晒太阳的人往往维生素D充足(≥50 nmol/L)。D-UVB和晒太阳的愉悦感改善了对未服用补充剂个体维生素D缺乏情况的预测;总体AUC提高了3.5%。即使在这个北纬地区的老年人群中,D-UVB和晒太阳的愉悦感也是维生素D状态的重要预测因素。准确估计环境UVB有助于进一步阐明维生素D状态的其他决定因素的作用,并为阳光照射推荐指南提供依据。
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