Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Maternal residential proximity to major roadways, birth weight, and placental DNA methylation
Abstract Background Exposure to traffic pollution during fetal development has been associated with reduced fetal growth, and there is evidence to suggest that epigenetic mechanisms in the placenta in the form of variant DNA methylation may be a potential mechanism underlying this effect. Objectives To examine the association between residential proximity to nearest major roadway, as a marker of traffic-related pollution, fetal growth and placental DNA methylation. Methods We obtained residential addresses, placenta samples, and demographic data from 471 women following delivery of term infants. Using generalized linear models we evaluated the association between living close to a major roadway (defined as living ≤150m from a primary highway or primary road or ≤50m from a secondary road) and fetal growth and DNA methylation of repetitive elements (LINE-1 and AluYb8). We evaluated epigenome-wide methylation in a subset of 215 women to further investigate specific variation in DNA methylation associated with proximity to major roadways. Results Living close to a major roadway was associated with a 175.9g (95% CI: −319.4, −32.5; p=0.016) lower birth weight, 1.8 (95% CI: 0.9, 3.8; p=0.09) times the odds of being small for gestational age, and 0.82 percentage points (95% CI: −1.57, −0.07; p=0.03) lower mean placental LINE-1 methylation levels in fully adjusted models. In epigenome-wide analyses, 7 CpG sites were significantly associated with residential proximity to major roadways. Additional adjustment for placental methylation did not attenuate the association between roadway proximity and birth weight. Conclusions Living close to major roadways was associated with both lower fetal growth and significant placental epigenetic changes. However, the observed epigenetic changes appear insufficient to explain the observed association between roadway proximity and fetal growth.
Highlights Traffic pollution exposure in utero is associated with reduced fetal growth. This association may be mediated by placental epigenetic mechanisms. Living close to a major roadway is associated with lower birth weight. Living close to a major roadway is associated with placental epigenetic changes. Placental epigenetic changes do not appear to mediate the relationship.
Maternal residential proximity to major roadways, birth weight, and placental DNA methylation
Abstract Background Exposure to traffic pollution during fetal development has been associated with reduced fetal growth, and there is evidence to suggest that epigenetic mechanisms in the placenta in the form of variant DNA methylation may be a potential mechanism underlying this effect. Objectives To examine the association between residential proximity to nearest major roadway, as a marker of traffic-related pollution, fetal growth and placental DNA methylation. Methods We obtained residential addresses, placenta samples, and demographic data from 471 women following delivery of term infants. Using generalized linear models we evaluated the association between living close to a major roadway (defined as living ≤150m from a primary highway or primary road or ≤50m from a secondary road) and fetal growth and DNA methylation of repetitive elements (LINE-1 and AluYb8). We evaluated epigenome-wide methylation in a subset of 215 women to further investigate specific variation in DNA methylation associated with proximity to major roadways. Results Living close to a major roadway was associated with a 175.9g (95% CI: −319.4, −32.5; p=0.016) lower birth weight, 1.8 (95% CI: 0.9, 3.8; p=0.09) times the odds of being small for gestational age, and 0.82 percentage points (95% CI: −1.57, −0.07; p=0.03) lower mean placental LINE-1 methylation levels in fully adjusted models. In epigenome-wide analyses, 7 CpG sites were significantly associated with residential proximity to major roadways. Additional adjustment for placental methylation did not attenuate the association between roadway proximity and birth weight. Conclusions Living close to major roadways was associated with both lower fetal growth and significant placental epigenetic changes. However, the observed epigenetic changes appear insufficient to explain the observed association between roadway proximity and fetal growth.
Highlights Traffic pollution exposure in utero is associated with reduced fetal growth. This association may be mediated by placental epigenetic mechanisms. Living close to a major roadway is associated with lower birth weight. Living close to a major roadway is associated with placental epigenetic changes. Placental epigenetic changes do not appear to mediate the relationship.
Maternal residential proximity to major roadways, birth weight, and placental DNA methylation
Kingsley, Samantha L. (Autor:in) / Eliot, Melissa N. (Autor:in) / Whitsel, Eric A. (Autor:in) / Huang, Yen-Tsung (Autor:in) / Kelsey, Karl T. (Autor:in) / Marsit, Carmen J. (Autor:in) / Wellenius, Gregory A. (Autor:in)
Environmental International ; 92-93 ; 43-49
17.03.2016
7 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Traffic , Pollution , Epigenetics , Placenta , Birth weight
Maternal residential proximity to major roadways, birth weight, and placental DNA methylation
| Online Contents | 2016
Maternal weight and birth weight
Elsevier | 1986