Charlotte Stübner, Matilda Ebel, Kristina Jakobsson, Christopher Gillberg, Christel Nielsen, Carmela Miniscalco
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Exposure was categorized as high (n = 646), intermediate (n = 1,650), or background (n = 9,599). We used Cox proportional hazards regression to estimate hazard ratios (HR) for (1) referral to a speech- and language pathologist after routine screening at Child Health Services, and (2) subsequent language disorder diagnosis after clinical assessment. Models were adjusted for parity, maternal age, education level, and smoking, and explored effect modification by sex.</p><p><strong>Results: </strong>In children from the high-exposed area, the adjusted HR for referral was 1.23 (95% CI = 1.03, 1.47) and 1.13 (95% CI = 0.97, 1.56) for subsequent diagnosis. There was no increased risk in the intermediate exposure category.</p><p><strong>Conclusion: </strong>Children, particularly girls, with high exposure had an increased risk of both referral and confirmed developmental language disorder. 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引用次数: 3
摘要
有迹象表明,生命早期接触全氟烷基物质(PFAS)会影响神经发育,但结果尚无定论。研究目的是调查儿童早期大量接触全氟己磺酸(PFHxS)和全氟辛烷磺酸(PFOS)是否会增加7岁以下儿童出现发育性语言障碍的风险。方法:对1998-2013年在瑞典Blekinge县出生的所有儿童进行了基于登记册的队列研究。在分娩前5年期间,母亲的居住史,即有或没有高pfas污染的饮用水,被用作早期生活暴露的代理。暴露程度分为高暴露(n = 646)、中等暴露(n = 1650)和背景暴露(n = 9599)。我们使用Cox比例风险回归来估计以下风险比(HR):(1)在儿童健康服务中心进行常规筛查后转诊到言语和语言病理学家,以及(2)在临床评估后进行语言障碍诊断。模型调整了胎次、母亲年龄、教育水平和吸烟,并探讨了性别对效果的影响。结果:在高暴露区儿童中,转诊调整后的HR分别为1.23 (95% CI = 1.03, 1.47)和1.13 (95% CI = 0.97, 1.56)。在中等暴露类别中没有增加风险。结论:儿童,特别是女孩,高暴露有转诊和确诊发育性语言障碍的风险增加。在一般神经发育的背景下,需要进一步研究PFAS,其中语言发育是一个代理。
Developmental language disorders in preschool children after high exposure to perfluoroalkyl substances from contaminated drinking water in Ronneby, Sweden.
There are indications that early-life exposure to perfluoroalkyl substances (PFAS) can impact neurodevelopment, but results are inconclusive. The objective was to investigate if high early-life exposure to primarily perfluorohexanesulfonic acid (PFHxS) and perfluorooctanesulfonic acid (PFOS) increases the risk of developmental language disorder in children up to seven years of age.
Methods: A register-based cohort of all children born 1998-2013 in Blekinge county, Sweden, was studied. Maternal residential history, that is, with or without highly PFAS-contaminated drinking water, during the 5-year period before childbirth was used as a proxy for early-life exposure. Exposure was categorized as high (n = 646), intermediate (n = 1,650), or background (n = 9,599). We used Cox proportional hazards regression to estimate hazard ratios (HR) for (1) referral to a speech- and language pathologist after routine screening at Child Health Services, and (2) subsequent language disorder diagnosis after clinical assessment. Models were adjusted for parity, maternal age, education level, and smoking, and explored effect modification by sex.
Results: In children from the high-exposed area, the adjusted HR for referral was 1.23 (95% CI = 1.03, 1.47) and 1.13 (95% CI = 0.97, 1.56) for subsequent diagnosis. There was no increased risk in the intermediate exposure category.
Conclusion: Children, particularly girls, with high exposure had an increased risk of both referral and confirmed developmental language disorder. Further research is needed on PFAS in the context of general neurodevelopment, for which language development is a proxy.
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