Forssén Ulla M, Ahlbom Anders, Feychting Maria
Institute of Environmental Medicine, Karolinska Institutet, Stockholm, Sweden.
Bioelectromagnetics. 2002 Apr;23(3):239-44. doi: 10.1002/bem.10013.
This study sought to estimate the relative contribution of exposure to 50 Hz magnetic fields experienced at home, at work/school, or elsewhere to the total exposure over 24 hr. Personal exposure meters were carried by 97 adults and children in the Stockholm area. About half of the subjects lived close (<50 m) to a transmission line and half far (>100 m) away. Spot measurements and calculations for the residential exposure were also made. For subjects living<50 m from the line, the exposure at home contributed about 80% of the total magnetic field exposure, measured in mT-hours. Adults living far away experienced only 38% of the total exposure at home, but children still received 55%. Subjects with low time-weighted average (TWA) exposure both at home and at work spent 84% of their time in fields <0.1 microT, and those with high TWA at both locations spent 69% of their time in fields > or = 0.2 microT. This contrast was diluted if only exposure at one location was considered. For spot measurements and calculations of the residential exposure, both sensitivity and specificity was good. However, the intermediate field exposure category (0.1-0.19 microT) showed poor correlation to the 24 hr personal measurements.
本研究旨在估算在家中、工作/学校或其他场所接触50赫兹磁场对24小时总暴露量的相对贡献。斯德哥尔摩地区的97名成人和儿童佩戴了个人暴露测量仪。约一半受试者居住在靠近(<50米)输电线路的地方,另一半居住在较远(>100米)的地方。还对住宅暴露进行了现场测量和计算。对于居住在距离线路<50米处的受试者,以毫特斯拉-小时为单位测量,家中的暴露量约占总磁场暴露量的80%。居住在远处的成年人在家中的总暴露量仅占38%,但儿童仍占55%。在家中和工作场所时间加权平均(TWA)暴露量较低的受试者,84%的时间处于<0.1微特斯拉的磁场中,而在这两个场所TWA暴露量较高的受试者,69%的时间处于≥0.2微特斯拉的磁场中。如果仅考虑在一个场所的暴露,这种差异就会被淡化。对于住宅暴露的现场测量和计算,灵敏度和特异性都很好。然而,中间磁场暴露类别(0.1 - 0.19微特斯拉)与24小时个人测量结果的相关性较差。
