Serrano Laura, Iribarne-Durán Luz Mª, Suárez Beatriz, Artacho-Cordón Francisco, Vela-Soria Fernando, Peña-Caballero Manuela, Hurtado Jose A, Olea Nicolás, Fernández Mariana F, Freire Carmen
Neonatal Intensive Care Unit, Virgen de las Nieves University Hospital, 18012, Granada, Spain.
Instituto de Investigación Biosanitaria de Granada (ibs.GRANADA), 18012, Granada, Spain.
Int J Hyg Environ Health. 2021 Jul;236:113796. doi: 10.1016/j.ijheh.2021.113796. Epub 2021 Jun 23.
Breast milk is considered to offer the best nutrition to infants; however, it may be a source of exposure to environmental chemicals such as perfluoroalkyl compounds (PFAS) for breastfeeding infants. PFAS are a complex group of synthetic chemicals whose high stability has led to their ubiquitous contamination of the environment.
To assess the concentrations and profiles of PFAS in breast milk from donors to a human milk bank and explore factors potentially related to this exposure.
Pooled milk samples were collected from 82 donors to the Human Milk Bank of the Virgen de las Nieves University Hospital (Granada, Spain). Ultra-high performance liquid chromatography coupled with tandem mass spectrometry (UHPLC-MS/MS) was applied to determine milk concentrations of 11 PFAS, including long-chain and short-chain compounds. A questionnaire was used to collect information on donors' socio-demographic characteristics, lifestyle, diet, and use of personal care products (PCPs). Factors related to individual and total PFAS concentrations were evaluated by multivariate regression analysis.
PFAS were detected in 24-100% of breast milk samples. PFHpA was detected in 100% of samples, followed by PFOA (84%), PFNA (71%), PFHxA (66%), and PFTrDA (62%). Perfluorooctane sulfonate (PFOS) was detected in only 34% of donors. The median concentrations ranged from <0.66 ng/dL (perfluorohexane sulfonic acid [PFHxS]) to 19.39 ng/L (PFHpA). The median of the sum of PFAS concentrations was 87.67 ng/L and was higher for short-chain than long-chain PFAS. Factors most frequently associated with increased PFAS concentrations included intake of creatin animal food items and use of PCPs such as skin care and makeup products.
Several PFAS, including short-chain compounds, are detected in pooled donor milk samples. Breast milk may be an important pathway for the PFAS exposure of breastfed infants, including preterm infants in NICUs. Despite the reduced sample size, these data suggest that various lifestyle factors influence PFAS concentrations, highlighting the use of PCPs.
母乳被认为能为婴儿提供最佳营养;然而,对于母乳喂养的婴儿而言,母乳可能是其接触全氟烷基化合物(PFAS)等环境化学物质的一个来源。PFAS是一类复杂的合成化学物质,因其高稳定性导致它们在环境中普遍存在污染。
评估向一家母乳库捐赠母乳者的母乳中PFAS的浓度和分布特征,并探究与此暴露潜在相关的因素。
从西班牙格拉纳达市比维斯圣母大学医院母乳库的82名捐赠者处收集混合母乳样本。采用超高效液相色谱-串联质谱法(UHPLC-MS/MS)测定11种PFAS在母乳中的浓度,包括长链和短链化合物。通过问卷调查收集捐赠者的社会人口学特征、生活方式、饮食及个人护理产品(PCP)使用情况等信息。通过多变量回归分析评估与个体及总PFAS浓度相关的因素。
在24% - 100%的母乳样本中检测到PFAS。100%的样本中检测到全氟庚酸(PFHpA),其次是全氟辛酸(PFOA,84%)、全氟萘酸(PFNA,71%)、全氟己酸(PFHxA,66%)和全氟十三烷酸(PFTrDA,62%)。仅在34%的捐赠者中检测到全氟辛烷磺酸(PFOS)。中位浓度范围从<0.66纳克/分升(全氟己烷磺酸[PFHxS])至19.39纳克/升(PFHpA)。PFAS浓度总和的中位数为87.67纳克/升,短链PFAS高于长链PFAS。与PFAS浓度升高最常相关的因素包括摄入含肌酸的动物性食品以及使用护肤和化妆品等个人护理产品。
在混合的捐赠母乳样本中检测到多种PFAS,包括短链化合物。母乳可能是母乳喂养婴儿(包括新生儿重症监护病房中的早产儿)接触PFAS的重要途径。尽管样本量减少,但这些数据表明多种生活方式因素会影响PFAS浓度,突出了个人护理产品的使用。
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