Development of a protocol for assessing time‐weighted‐average exposures of young children to power‐frequency magnetic fields

Abstract

A study was carried out in 1990 to guide the development of a protocol for assessing residential exposures of children to time‐weighted‐average (TWA) power‐frequency magnetic fields. The principal goal of this dosimetry study was to determine whether area (i.e., spot and/or 24 h) measurements of power‐frequency magnetic fields in the residences and in the schools and daycare centers of 29 children (4 months through 8 years of age) could be used to predict their measured personal 24‐h exposures. TWA personal exposures, measured with AMEX‐3D meters worn by subjects, were approximately log‐normally distributed with both residential and nonresidential geometric means of 0.10 μT (1.0 mG). Between‐subjects variability in residential personal exposure levels (geometric standard deviation of 2.4) was substantially greater than that observed for nonresidential personal exposure levels (1.4). The correlation between log‐transformed residential and total personal exposure levels was 0.97. Time‐weighted averages of the magnetic fields measured in children's bedrooms, family rooms, living rooms, and kitchens were highly correlated with residential personal exposure levels (r = 0.90). In general, magnetic field levels measured in schools and daycare centers attended by subjects were smaller and less variable than measured residential fields and were only weakly correlated with measured nonresidential personal exposures. The final measurement protocol, which will be used in a large US study examining the relationship between childhood leukemia and exposure to magnetic fields, contains the following elements: normal‐ and low‐power spot magnetic field measurements in bedrooms occupied by subjects during the 5 years prior to the date of diagnosis for cases or the corresponding date for controls; spot measurements under normal and low power‐usage conditions at the centers of the kitchen and the family room; 24‐h magnetic‐field recordings near subjects' beds; and wire coding using the Wertheimer‐Leeper method. © 1994 Wiley‐Liss, Inc. ^†