Short-term exposure to ultrafine and fine particulate matter with multipollutant modelling on heart rate variability among seniors and children from the CorPuScula (coronary, pulmonary, sanguis) longitudinal study in Germany

Pascale Haddad, Katherine Ogurtsova, Sarah Lucht, Lina Glaubitz, Peter Höppe, Dennis Nowak, Peter Angerer, Barbara Hoffmann
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Abstract

Background Short-term exposure particulate matter with a diameter of 10 µm or less (PM 10 ) and fine particulate matter (PM 2.5 ) has been associated with heart rate variability (HRV), but exposure to ultrafine particles (UFP) has been less well examined. We investigated the associations between the HRV outcomes and short-term exposure to UFP, PM 10 and PM 2.5 among school-aged children and seniors. Methods CorPuScula (Coronary, Pulmonary and Sanguis) is a longitudinal, repeated-measure panel study conducted in 2000–2002 in Munich, Germany including 52 seniors (58–94 years old) with 899 observations and 50 children (6–10 years old) with 925 observations. A 10-min resting electrocardiogram was performed to assess resting HRV outcomes [Standard Deviation of Normal to Normal Intervals (SDNN), Root Mean Square of Successive Differences between Normal Heartbeats (RMSSD), Low Frequency power (LF), High Frequency power (HF), ration between low and high frequency (LF/HF)]. UFP and PM exposures were measured near the care home and school yard for seniors and children, respectively. Mean exposures during the day of examination (9–21 h) as well as 3-h, 12-h, 24-h, one-day, and two-day lags were assessed. Linear mixed-effect models were used to investigate the associations between short-term air pollution and HRV outcomes separately in children and seniors. The models were adjusted for sex, age, weather conditions (temperature, precipitation, and water vapor pressure), BMI, lifestyle and medical information. Two and multipollutant models adjusted for NO 2 and O 3 were performed. Results Among seniors, we observed increases in SDNN, LF, HF and LF/HF ratio after short-term exposure to UFP (hourly and daily lags) in contrast to decreases in SDNN and RMSSD after exposure to PM 10 . Associations were generally robust to two- and multipollutant adjustment. Among children, we observed increases of the LF/HF ratio after short-term exposures to UFP at lags 12 and 24 h. In contrast, we observed decreases of the ratio after exposure to PM 2.5 and PM 10 . Results were largely unchanged for multipollutant modelling, however we found a more pronounced increase in SDNN and LF/HF (UFP lag 12 and 24 h) after adjusting for NO 2 . Conclusions Overall, among seniors, we observed associations of UFP and PM 10 exposure with sympathetic responses of the ANS, which play an important role in sudden heart attacks or arrhythmia. Among children we found more inconsistent associations between UFP and a delayed increase in HRV. Adjusting for co-pollutants including NO 2 and O 3 yielded robust results.
来自德国CorPuScula(冠状动脉、肺、血)纵向研究的短期暴露于超细颗粒物和细颗粒物与多污染物模型对老年人和儿童心率变异性的影响
短期暴露于直径小于等于10微米的颗粒物(PM 10)和细颗粒物(PM 2.5)与心率变异性(HRV)有关,但暴露于超细颗粒物(UFP)的研究较少。我们调查了学龄儿童和老年人HRV结果与短期暴露于UFP、PM 10和PM 2.5之间的关系。方法CorPuScula(冠状动脉、肺和血)是一项纵向、重复测量的小组研究,于2000-2002年在德国慕尼黑进行,包括52名老年人(58-94岁)899次观察和50名儿童(6-10岁)925次观察。进行10分钟静息心电图以评估静息HRV结局[正常至正常间隔标准差(SDNN)、正常心跳连续差异均方根(RMSSD)、低频功率(LF)、高频功率(HF)、低频与高频之比(LF/HF)]。在养老院和学校操场附近分别测量了老年人和儿童的UFP和PM暴露。评估检查当天(9-21小时)的平均暴露以及3小时、12小时、24小时、1天和2天的滞后时间。使用线性混合效应模型分别调查儿童和老年人短期空气污染与HRV结果之间的关系。这些模型根据性别、年龄、天气条件(温度、降水和水蒸气压)、BMI、生活方式和医疗信息进行了调整。对no2和o3进行了调整后的两种和多种污染物模型。结果在老年人中,我们观察到短期暴露于UFP(每小时和每天滞后)后SDNN、LF、HF和LF/HF比值增加,而暴露于pm10后SDNN和RMSSD降低。对两种和多种污染物调整的关联通常是稳健的。在儿童中,我们观察到短期暴露于UFP后12和24小时的LF/HF比率增加。相反,我们观察到暴露于PM 2.5和PM 10后的比率下降。多污染物模型的结果基本不变,但我们发现在调整了NO 2后,SDNN和LF/HF (UFP滞后12和24小时)的增加更为明显。总的来说,在老年人中,我们观察到UFP和pm10暴露与ANS交感神经反应的关联,这在突发性心脏病发作或心律失常中起重要作用。在儿童中,我们发现UFP与延迟性HRV增加之间的关联不一致。对包括no2和o3在内的共污染物进行调整得到了可靠的结果。
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