Radio frequency nonionizing radiation in a community exposed to radio and television broadcasting.Exposure to radio frequency (RF) nonionizing radiation from telecommunications is pervasive in modern society. Elevated disease risks have been observed in some populations exposed to radio and television transmissions, although findings are inconsistent. This study quantified RF exposures among 280 residents living near the broadcasting transmitters for Denver, Colorado. RF power densities outside and inside each residence were obtained, and a global positioning system Global Positioning System: see navigation satellite. Global Positioning System (GPS) Precise satellite-based navigation and location system originally developed for U.S. military use. (GPS) identified geographic coordinates The quantities of latitude and longitude which define the position of a point on the surface of the Earth with respect to the reference spheroid. See also coordinates. and elevations. A viewshed model within a geographic information system geographic information system (GIS) Computerized system that relates and displays data collected from a geographic entity in the form of a map. The ability of GIS to overlay existing data with new information and display it in colour on a computer screen is used primarily to (GIS (1) (Geographic Information System) An information system that deals with spatial information. Often called "mapping software," it links attributes and characteristics of an area to its geographic location. ) characterized the average distance and percentage of transmitters visible from each residence. Data were collected at the beginning and end of a 2.5-day period, and some measurements were repeated 8-29 months later. RF levels logged at 1-min intervals for 2.5 days varied considerably among some homes and were quite similar among others. The greatest differences appeared among homes within 1 km of the transmitters. Overall, there were no differences in mean residential RF levels compared over 2.5 days. However, after a 1- to 2-year follow-up, only 25% of exterior and 38% of interior RF measurements were unchanged. Increasing proximity, elevation, and line-of-sight visibility were each associated with elevated RF exposures. At average distances from > 1-3 km, exterior RF measurements were 13-30 times greater among homes that had > 50% of the transmitters visible compared with homes with [less than or equal to] 50% visibility at those distances. This study demonstrated that both spatial and temporal factors contribute to residential RF exposure and that GPS/GIS technologies can improve RF exposure assessment and reduce exposure misclassification. Key words: broadcasting, electromagnetic fields electromagnetic field Property of space caused by the motion of an electric charge. A stationary charge produces an electric field in the surrounding space. If the charge is moving, a magnetic field is also produced. A changing magnetic field also produces an electric field. , exposure assessment, GIS, nonionizing radiation, radio, television. doi:10.1289/ehp.8237 available via http://dx.doi.org/[Online 20 September 2005] ********** Public exposure to radio frequency (RF) fields from sources such as radio and television (TV) broadcasting is common in industrialized in·dus·tri·al·ize v. in·dus·tri·al·ized, in·dus·tri·al·iz·ing, in·dus·tri·al·iz·es v.tr. 1. To develop industry in (a country or society, for example). 2. countries. As of 1999, an estimated 14,000 radio and TV stations were on the air in the United States United States, officially United States of America, republic (2005 est. pop. 295,734,000), 3,539,227 sq mi (9,166,598 sq km), North America. The United States is the world's third largest country in population and the fourth largest country in area. [Federal Communications Commission Federal Communications Commission (FCC), independent executive agency of the U.S. government established in 1934 to regulate interstate and foreign communications in the public interest. (FCC (1) (Federal Communications Commission, Washington, DC, www.fcc.gov) The U.S. government agency that regulates interstate and international communications including wire, cable, radio, TV and satellite. The FCC was created under the U.S. ) 1999]. Public concerns about the potential health effects of exposure to RF nonionizing radiation stem partly from the pervasiveness of these exposures. The primary toxicologic response associated with RF exposure occurs through tissue heating, and current exposure standards for the general public are based primarily on a thermal mechanism of action [FCC 1999; National Radiological Protection Board The National Radiological Protection Board is a UK public body set up under the Radiological Protection Act of 1970 with the purpose of disseminating information about the protection of mankind from radiation hazards. (NRPB NRPB National Radiological Protection Board (UK) NRPB National Resources Planning Board (WWII) NRPB National Radiological Protection Directorate ) 2003]. Ambient Surrounding. For example, ambient temperature and humidity are atmospheric conditions that exist at the moment. See ambient lighting. RF power densities from telecommunications devices are typically well below these levels (NRPB 2003). However, the issue of whether health effects occur at nonthermal RF exposure levels in the general population remains controversial. Elevated cancer rates have been reported in some residential human populations exposed to radio and TV transmissions (Ahlbom et al. 2004). Nonthermal RF exposures may also be linked with hematologic hematological, hematologic pertaining to or emanating from blood cells. hematological tests total and differential white cell counts, hematocrit estimation, erythrocyte count. , neurologic neurologic /neu·ro·log·ic/ (-loj´ik) pertaining to neurology or to the nervous system. Neurologic Having to do with the nervous system. , reproductive, and cardiovascular disorders [NRFB NRFB Never Removed From Box NRFB Northern Region Fisheries Board (Ireland) 2003; World Health Organization (WHO) 1993]. Results from studies published to date have not established a clear cause-effect relationship between RF exposure from radio and TV broadcasting and adverse health outcomes in humans. Previous epidemiologic ep·i·de·mi·ol·o·gy n. The branch of medicine that deals with the study of the causes, distribution, and control of disease in populations. [Medieval Latin epid investigations of the relationship between residential RF exposure and human cancers have relied almost exclusively on distance to RF transmitters to characterize exposure (Ahlbom et al. 2004). Few studies have examined factors that contribute to spatial or temporal variation in residential RF exposure (Allen 1991; Anglesio et al. 2001; Dahme 1999; Mantiply et al. 1997; Tell and Mantiply 1980). Potential limitations with respect to exposure misclassification may therefore apply to previous studies of residential RF exposures and adverse health effects. Populations residing near telecommunications broadcasting installations tend to have the highest nonoccupational RF exposures. Lookout Mountain Lookout Mountain, actually a plateau, is located at the northwest corner of Georgia, the northeast corner of Alabama, and along the southern border of Tennessee near Chattanooga. It is one of the southernmost ridge mountains of the Ridge-and-valley Appalachians. in Golden, Colorado The City of Golden is a home rule municipality that is the county seat of Jefferson County, Colorado, United States. Golden lies along Clear Creek at the eastern edge of the foothills of the Front Range of the Rocky Mountains. , is a residential community that contains numerous radio and TV transmitters that broadcast to the entire Denver metropolitan area. The topography topography (təpŏg`rəfē), description or representation of the features and configuration of land surfaces. Topographic maps use symbols and coloring, with particular attention given to the shape and elevations of terrain. of Lookout Mountain may place some homes within a main beam of these transmissions [U.S. Environmental Protection Agency Environmental Protection Agency (EPA), independent agency of the U.S. government, with headquarters in Washington, D.C. It was established in 1970 to reduce and control air and water pollution, noise pollution, and radiation and to ensure the safe handling and (EPA EPA eicosapentaenoic acid. EPA abbr. eicosapentaenoic acid EPA, n.pr See acid, eicosapentaenoic. EPA, n. ) 1987]. Several publicly accessible areas closest to these towers have exceeded the general public nonionizing radiation standard (200 [micro]W/[cm.sup.2]) on each occasion that they were measured (Cleveland 1998; Jefferson County Jefferson County is the name of 25 counties and one parish in the United States. The following are named for Thomas Jefferson, third President of the United States:
"To create, promote and enhance health and vitality through innovation, collaboration and celebration." The 10 Essential Public Health Services (excerpted from "The Essential Services of Public Health" by James A. 1996; U.S. EPA 1987). The Colorado Department of Public Health and Environment (2004) recently reported a statistically significant increase in brain cancer rates among residents in two census block groups A census block group is a geographical unit used by the United States Census Bureau which is between the census tract and the census block. It is the smallest geographical unit for which the bureau publishes sample data, i. in close proximity to the transmitters on Lookout Mountain. Although the limited number of cases available for study and a lack of detailed exposure assessment limit the interpretation, these findings indicate a need for further research in this community. The purpose of this investigation was to develop a better understanding of the temporal and spatial characteristics of residential RF exposures from radio and TV broadcasting by studying the Lookout Mountain community. We evaluated temporal characteristics of RF exposure by comparing repeated measurements collected over several different time scales. We determined spatial characteristics of RF exposure using spot measurements within and outside homes. We evaluated broader spatial variability Spatial variability is characterized by different values for an observed attribute or property that are measured at different geographic locations in an area. The geographic locations are recorded using GPS (global positioning systems) while the attribute's spatial variability is using a geographic information system (GIS) that combined spot RF measurements with geographic parameters (distance, elevation, and line-of-sight visibility from the broadcast antennae). Materials and Methods The study area was defined by Interstate in·ter·state adj. Involving, existing between, or connecting two or more states. n. One of a system of highways extending between the major cities of the 48 contiguous United States. Noun 1. 70 (I-70) to the south, the Cody Park neighborhood to the west, and the natural topography that drops steeply in elevation to the north and east of the Lookout Mountain community (Figure 1). No homes < 7,100 ft in elevation were included in the study area. The source population was identified by matching Jefferson County Zoning Office files to the U.S. Postal Service's rural route information, which yielded 94% concordance concordance /con·cor·dance/ (-kord´ins) in genetics, the occurrence of a given trait in both members of a twin pair.concor´dant con·cor·dance n. among the residences identified. A population census of each person living in these residences [greater than or equal to] 8 years of age identified approximately 576 homes and 1,375 individuals in the study area. After a curbside curb·side n. 1. The side of a pavement or street that is bordered by a curb. 2. A sidewalk. adj. Located, operating, or occurring at or along the sidewalk or curb: RF survey along publicly accessible streets, a sample of 441 eligible study participants ([greater than or equal to] 8 years of age) was identified for recruitment among strata of high (> 4.0 [micro]W/[cm.sup.2]), medium (0.5-4.0 [micro]W/[cm.sup.2]), and low (< 0.5 [micro]W/[cm.sup.2]) RF exposure categories. All adults from the high-RF-exposure category and all children (8-18 years of age) from the high and medium categories were considered eligible. Individuals in the remaining categories were randomly selected from the census database. Spatial averages of RF field intensity were obtained at one exterior and five interior locations (bedroom, kitchen, living room, computer room or office, room most used) at each residence using a Narda EMR-300 meter with a type 18 isottopic E-field probe (flat response, 0.1-3,000 MHz (MegaHertZ) One million cycles per second. It is used to measure the transmission speed of electronic devices, including channels, buses and the computer's internal clock. A one-megahertz clock (1 MHz) means some number of bits (16, 32, 64, etc. ; detection limit, 0.2 V/m; Narda Safety Test Solutions, Pfullingen, Germany). In each room, a spatial average that included the approximate room center and four points midway between the room center and each corner was recorded at approximately 1 m above the floor. RF fields were also measured at computer work stations directly in front of the monitor where the operator was typically seated, while the computer was operating. Exterior RF measurements were made on the side of the house closest to the transmitters, usually on the yard, patio, or driveway. Measurements were made at the beginning of a 2.5-day data collection period (typically Friday afternoon or evening) and repeated at the end of this period (usually Monday morning). Information on the presence of RF shielding A material that prohibits electromagnetic radiation from penetrating it. Computers and electronic devices used in the home must meet U.S. government standards for electromagnetic interference. and wireless Internet service and the number of cordless cord·less adj. Having no cord, usually using batteries as a source of power: a cordless telephone. cord and cellular telephones used in the home was recorded. Data were collected weekly from September 2002 through December 2003 among four to eight participants with a range of RF exposures. In a subset A group of commands or functions that do not include all the capabilities of the original specification. Software or hardware components designed for the subset will also work with the original. of 17 homes, RF power densities were logged continuously at 1-min intervals during the 2.5 day data collection period using the RF meter adapted to a personal computer for data storage. Spot measurements were also repeated in a subset of homes 8-29 months later at 8 interior and 12 exterior locations. Radio and TV transmitters in this area emit TO EMIT. To put out; to send forth, 2. The tenth section of the first article of the constitution, contains various prohibitions, among which is the following: No state shall emit bills of credit. approximately 9 MW of broadcast power and are deployed in three groups of antenna towers (northeast, northwest, and southeast) located approximately 0.4-1.2 km apart (Figure 1). Geographic and telecommunications characteristics of 15 primary transmitters in this area are presented in Table 1 (FCC 2004). Residences in the study area are located south and southwest of the RF transmitters identified in Figure 1. The only mobile telephone tower identified in this area was located within 100 m of 1-70 in the southwest corner of the study area; the nearest participant lived approximately 2 km to the northeast, where RF spot measurements were typically below the limit of detection. A global positioning system (GPS) was used to identify the geographic coordinates and elevation of each exterior RF measurement (eTrex Legend, part 190-0023400; Garmin International Inc., Olathe, KS). The distance between each transmitter A device that generates signals. Contrast with receiver. and residence was characterized using the ESRI (Environmental Systems Research Institute, Inc., Redlands, CA, www.esri.com) The world's leading developer of geographic information systems (GIS) software, including programs that plot ZIP codes and addresses, demographic information and detailed, color-coded data. ArcInfo program (ESRI, Redlands, CA). A command line program was written in Arc Macro Language The ARC Macro Language (AML) is a proprietary high-level algorithmic language for generating applications in ArcInfo. It was designed by ESRI in the early 1980s specifically for their command line-driven ARC/INFO geographical information system. that computed the distance between a set of fixed points (transmitters) and input points (residential GPS coordinates), and the results were compiled in a Microsoft Excel (tool) Microsoft Excel - A spreadsheet program from Microsoft, part of their Microsoft Office suite of productivity tools for Microsoft Windows and Macintosh. Excel is probably the most widely used spreadsheet in the world. Latest version: Excel 97, as of 1997-01-14. spreadsheet. Line-of-sight visibility was characterized using the viewshed analysis tool of ESRI ArcMap 9.0 as part of a GIS. The viewshed model determined line-of-sight visibility (yes/no) using a set of input points (transmitters) and a three-dimensional input surface (digital elevation model A digital map of the elevation of an area on the earth. The data are either collected by a private party or purchased from an organization such as the U.S. Geological Survey (USGS) that has already undertaken the exploration of the area. ). The viewshed results were overlaid o·ver·laid v. Past tense and past participle of overlay1. on a GIS of points (residential coordinates) and the results tabulated. The average distance from each residence to the 15 transmitters identified in Table 1 and the percentage of these transmitters visible from the home were used in the final analysis. Statistical analyses were performed using the SAS (1) (SAS Institute Inc., Cary, NC, www.sas.com) A software company that specializes in data warehousing and decision support software based on the SAS System. Founded in 1976, SAS is one of the world's largest privately held software companies. See SAS System. computer program (version 9.1; SAS Institute SAS Institute Inc., headquartered in Cary, North Carolina, USA, has been a major producer of software since it was founded in 1976 by Anthony Barr, James Goodnight, John Sall and Jane Helwig. Inc., Cary, NC). Exterior and interior RF measurements were converted to microwatts per square centimeter centimeter (sĕn`tĭmē'tər), abbr. cm, unit of length equal to 0.01 meter, the basic unit of length in the metric system. The centimeter is the unit of length in the cgs system. It is approximately equal to 0. because residential RF measurements obtained in this study were expected to be in the far field (Dahme 1999). Values below the limit of detection were given a value of one-half the detection limit (0.01 [micro]W/[cm.sup.2]) for analysis. Analyses were performed using log-transformed RF values, and results were converted back to microwatts per square centimeter for presentation. Attenuation Loss of signal power in a transmission. Attenuation The reduction in level of a transmitted quantity as a function of a parameter, usually distance. It is applied mainly to acoustic or electromagnetic waves and is expressed as the ratio of power densities. of RF levels from the exterior to the interior of each home was calculated as the difference between the exterior value and the interior house average, divided by the exterior value, and represented as a percentage. Spearman spear·man n. A man, especially a soldier, armed with a spear. correlation coefficients Correlation Coefficient A measure that determines the degree to which two variable's movements are associated. The correlation coefficient is calculated as: (r) were used to evaluate relationships among RF measurements between rooms and among days. The SAS Proc Mixed procedure for repeated measures computed maximum likelihood estimates of factors potentially influencing RF values as fixed effects (shielding, distance, elevation, percentage of transmitters visible) along with "day" in the statistical model using an unstructured covariance matrix In statistics and probability theory, the covariance matrix is a matrix of covariances between elements of a vector. It is the natural generalization to higher dimensions of the concept of the variance of a scalar-valued random variable. . Initially, residences were grouped into quartiles by distance, elevation, or visibility, and least-squares means of exterior or interior house average RF power densities were calculated within each quartile Quartile A statistical term describing a division of observations into four defined intervals based upon the values of the data and how they compare to the entire set of observations. Notes: Each quartile contains 25% of the total observations. . We compared mean RF levels in the lowest and highest quartiles using the least significant differences statistic statistic, n a value or number that describes a series of quantitative observations or measures; a value calculated from a sample. statistic a numerical value calculated from a number of observations in order to summarize them. in SAS. Similar analyses were used to evaluate other categorical That which is unqualified or unconditional. A categorical imperative is a rule, command, or moral obligation that is absolutely and universally binding. Categorical is also used to describe programs limited to or designed for certain classes of people. variables (attenuation, shielding) as well as combined effects (e.g., distance and visibility). Multivariate The use of multiple variables in a forecasting model. analyses included each predictor simultaneously in the statistical model and the statistical significance of each effect was evaluated based on type III Type III may stand for:
Mount Morrison [1] Colorado Jefferson Morrison (5 MW each, ~ 2.5 km south of 1-70) were included in the analysis. Results were unchanged when analyses were restricted to only one subject per home, except in one case, noted below. Adjustment for RF shielding in the home did not alter the results for interior house average power densities. Results We obtained 560 RF spot measurements for 280 randomly selected residents living in 161 different homes. The study participation rate was 64%, and mean age and RF power densities did not differ among participants and nonparticipants (data not shown). Exterior RF values ranged from nondetectable to 20.9 [micro]W/[cm.sup.2] (mean [+ or -] SD = 2.6 [+ or -] 4.0 [micro]W/[cm.sup.2]), all below the general public exposure limit (200 [micro]W/[cm.sup.2]). House average power densities ranged from nondetectable to 6.7 [micro]W/[cm.sup.2] (mean [+ or -] SD = 0.8 [+ or -] 1.0 [micro]W/[cm.sup.2]). Temporal RF exposure characteristics. The temporal variability in RF exposure within and among homes is illustrated in Figure 2. Time series of 1-min RF measurements collected among 14 homes within 1 km (n = 4), between 1 and 2 km (n = 5), and from 2 to 3 km (n = 5) mean distance from the transmitters are presented. Each time series begins at the same time of day (13:40) but was collected on different days (Figure 2). Two traces in the 1-2 km group and one within the 2-3 km group were excluded because the data could not be easily distinguished from another trace. Residential RF spot measurements taken at the same location approximately 2.5 days apart were well correlated cor·re·late v. cor·re·lat·ed, cor·re·lat·ing, cor·re·lates v.tr. 1. To put or bring into causal, complementary, parallel, or reciprocal relation. 2. (exterior RF measurements r = 0.99, p < 0.001; interior house average r = 0.97, p < 0.001). We found no statistically significant differences in mean exterior or interior power densities between days, either using all data combined or comparing days within categories of distance from the transmitters ([less than or equal to] 1, > 1-2, > 2-3, or > 3 km; data not shown). When the analysis was restricted to one subject per home, there was a statistically significant difference between days for exterior average RF levels at distances > 2-3 km from the transmitters, although the absolute difference was small (0.10 vs. 0.14 [micro]W/[cm.sup.2], p [less than or equal to] 0.01), and no other differences between days were noted for mean exterior or interior RF levels. After a mean ([+ or -] SD) follow-up of 14 [+ or -] 3 months, average RF measurements within the same homes were 12 [+ or -] 20% lower (38% did not change). The average absolute difference between interior house average readings taken at the beginning and end of the 14 [+ or -] 3 month follow-up period was -0.09 [+ or -] 0.14 [micro]W/[cm.sup.2]. Exterior RF measurements collected at the same locations 17 [+ or -] 6 months apart increased by 15 [+ or -] 72% (25% did not change, 25% increased by > 100%). The average absolute difference in exterior RF measurements was 1.1 [+ or -] 1.9 pW/[cm.sup.2] over that follow-up period. Spatial RF exposure characteristics. Among homes with detectable RF, the average attenuation from outside to inside the home was 44 [+ or -] 62%; 12% of subjects had higher RF levels inside their home, and 5% had [less than or equal to] 10% RF attenuation from exterior to interior. Among subjects reporting the installation of RF shielding on windows or other locations within the home (n = 29), residential RF power densities were attenuated Attenuated Alive but weakened; an attenuated microorganism can no longer produce disease. Mentioned in: Tuberculin Skin Test attenuated having undergone a process of attenuation. an average of 64% compared with 39% among those without RF shielding (n = 225, p = 0.05). There was a strong positive correlation Noun 1. positive correlation - a correlation in which large values of one variable are associated with large values of the other and small with small; the correlation coefficient is between 0 and +1 direct correlation among RF measurements from different rooms in the home (r [greater than or equal to] 0.73). Maximum RF values in homes were most strongly correlated with measurements in the living room (r = 0.93) and bedroom (r = 0.92). Comparisons of RF levels resulting from home computers and wireless Internet were made at the farthest distances from the transmitters to avoid interference from radio and TV broadcasting. At distances > 3 km from the transmitters, the average power density at computer work stations was 0.15 [+ or -] 0.30 [micro]W/[cm.sup.2] (n = 21). The house average power densities among homes with and without wireless Internet service were 0.31 [+ or -] 0.22 [micro]W/[cm.sup.2] (n = 3) and 0.09 [+ or -] 0.31 [micro]W/[cm.sup.2] (n = 73, p= 0.06), respectively, at distances > 2-3 km from the broadcast antennae. No participants living > 3 km reported wireless Internet use. The elevation of homes in this study ranged from 7,123 to 7,782 feet above sea level (interquartile range In descriptive statistics, the interquartile range (IQR), also called the midspread, middle fifty and middle of the #s, is a measure of statistical dispersion, being equal to the difference between the third and first quartiles. , 7,332-7,499 feet; mean [+ or -] SD, 7,408 [+ or -] 117 feet). One-quarter of the study population lived at an elevation above five of the transmitters listed in Table 1 [27% of those within 1 km (n = 19), 46% of subjects from > 1 to 2 km (n = 32), and 19% of those > 2 km (n = 13)]. The average distance of each home to the 15 transmitters in Table 1 ranged from 0.4 to 5.7 km (mean [+ or -] SD = 1.7 [+ or -] 0.9 km). House average power densities are presented in Table 2 by quartiles of distance ([less than or equal to] 1, 1.1-1.5, 1.6-2.3, > 2.3 km), elevation ([less than or equal to] 7,332, 7,333-7,399, 7,400-7,499, > 7,499 feet), and line of sight (s 16.7%, 16.8-53.3%, 53.4-80.0%, > 80% of transmitters visible). Increasing proximity, elevation, and visibility were each associated with statistically significant increases in mean exterior and interior RF power densities (p [less than or equal to] 0.01; Table 2). Table 3 presents average interior and exterior residential power densities stratified stratified /strat·i·fied/ (strat´i-fid) formed or arranged in layers. strat·i·fied adj. Arranged in the form of layers or strata. by distance to towers ([less than or equal to] 1, > 1-2, > 2-3, or > 3 km) and by percentage of towers visible at each residence ([less than or equal to] 50% or > 50%). In both strata of visibility, there was a clear gradient gradient In mathematics, a differential operator applied to a three-dimensional vector-valued function to yield a vector whose three components are the partial derivatives of the function with respect to its three variables. The symbol for gradient is ∇. of increasing mean power densities within and outside homes with increasing proximity to the transmitters. Homes with > 50% of transmitters visible by viewshed analysis that were also within 1 km of the antennae had mean exterior RF levels that were approximately 2 times greater and average interior levels that were 1.4 times greater than homes with [less than or equal to] 50% of transmitters visible at the same distance. However, these differences were not statistically significant (10 = 0.10 and 0.26, respectively). At average distances of > 1-2 km or > 2-3 km with > 50% of transmitters visible, exterior RF measurements were approximately 13-30 times greater and interior RF power densities were 4 to 8 times greater than those in homes with [less than or equal to] 50% visibility (all p [less than or equal to] 0.001; Table 3). Interior average power densities > 3 km from the antennae were not elevated among homes with [greater than or equal to] 50% of the transmitters visible, and many readings were close to or at the limit of detection. However, exterior RF levels at that distance were approximately 3 times greater among homes with > 50% of transmitters visible (p = 0.05; Table 3). Table 4 presents average interior and exterior residential power densities stratified by distance to the towers and by quartile of elevation at each residence. Increasing residential elevation contributed to increases in mean exterior or interior RF exposures only at certain distances from the towers, primarily between 1 and 3 km (Table 4). There was a weak positive correlation between elevation and both distance (r = 0.12) and percentage of transmitters visible (r = 0.15), and a modest negative correlation Noun 1. negative correlation - a correlation in which large values of one variable are associated with small values of the other; the correlation coefficient is between 0 and -1 indirect correlation between distance and percentage of transmitters visible (r = -0.55). When each of these factors was incorporated as a continuous variable into a multivariate statistical model, increased proximity and transmitter visibility were each associated with statistically significant increases in interior house average RF power densities (both p < 0.01), whereas elevation was not (p = 0.10). However, increased proximity, percentage of transmitters visible, and elevation were all independently associated with increased exterior RF power densities (all p < 0.01) (data not shown). Discussion As the debate regarding the health implications of exposure to nonionizing radiation continues, an increased effort must be made to evaluate factors that predict exposure to RF fields. To our knowledge, this was the first study to examine both the temporal and spatial characteristics of residential RF exposure to broadcast antennae. In 1980, the U.S. EPA surveyed background RF radiation among 15 cities across the United States (Tell and Mantiply 1980). Median RF exposure to the general public was estimated at 0.005 [micro]W/[cm.sup.2], and about 99% of public exposure was estimated to be < 1 [micro]W/[cm.sup.2] (Tell and Mantiply 1980). Although none of the residential power densities in the present study exceeded the general public exposure limit of 200 [micro]W/[cm.sup.2] (NRPB 2003), approximately one in four Lookout Mountain participants had average RF levels > 1 [micro]W/[cm.sup.2] inside their homes. The accurate characterization A rather long and fancy word for analyzing a system or process and measuring its "characteristics." For example, a Web characterization would yield the number of current sites on the Web, types of sites, annual growth, etc. of an individual's exposure over extended time periods is one of the most difficult problems to overcome when investigating the chronic health effects of environmental agents in human populations. In this study, we evaluated temporal variation in residential RF power densities on several scales ranging from minutes to years. Continuously recorded 1-min power density measurements were used to characterize short-term temporal variation of RF power densities within homes from radio and TV broadcasting. Within each stratum stratum /stra·tum/ (strat´um) (stra´tum) pl. stra´ta [L.] a layer or lamina. stratum basa´le of 1-km distance, time series of power density measures varied considerably among some homes and were quite similar among others (Figure 2). The greatest differences appeared among homes closest to the transmitters, which suggests that changes in broadcasting patterns may contribute to RF exposure among some people living in close proximity to the transmitters. The results highlight the importance of characterizing exposures at the individual level and suggest that measurement timing may affect the accuracy of exposure classification. When average residential RF levels were compared over several days, there were no differences in mean RF exposure at the same residences. However, results were less consistent when RF levels were compared over time scales ranging from 0.7 to 2.4 years. RF levels did not change in approximately 25-38% of the residences in which long-term comparisons were made, and the average absolute change in RF power densities was small ([less than or equal to] 1 [micro]W/[cm.sup.2]). However, there was considerable variation among repeated measurements, resulting in a 12% decrease in interior house average power densities but a 72% increase in exterior RF levels. In one case, a 176% increase in the exterior RF follow-up measurement could have been caused by the removal of a tree near the residence. In another case, a 50% reduction in the interior RF follow-up measurement may have been associated with the reported installation of RF shielding within the home between measurements. Differences in the time of day that repeat measurements were performed may have also contributed to the observed differences. If left uncharacterized, temporal variations in RF exposure could increase uncertainty and obscure the ability to evaluate the long-term effects of residential nonionizing radiation exposures. Interpretation of the results for temporal RF fluctuations in this study is limited by the subset of homes available for analysis. However, the results indicate that temporal RF exposure patterns are stable for some subjects but in other cases relatively large differences may exist within and among subjects over time. In this study, an overall 44% reduction in RF levels from outside to inside homes was observed, and installation of RF shielding within the home decreased RF power densities by an additional 45%. In some cases however, interior RF levels were approximately the same or greater than exterior power densities (~ 17% of the subjects studied). This somewhat unexpected finding suggests that in some cases residential sources of RF exposure (e.g., computer monitors or wireless computer networks) may have contributed to interior RF levels to a greater extent than external radio and TV transmitters. For example, homes with wireless Internet service at distances > 2 km had average interior RF levels that were more than 3 times greater than homes without these devices. Minimal differences between interior and exterior measurements may have also been due to the increased elevation and lack of external obstructions outside the upper floors of some residences. An increase in RF levels on the upper floors of buildings has been reported previously (Anglesio et al. 2001). The strong correlation between maximum interior RF measurements and measurements in bedrooms and living rooms, which are likely to be located on upper floors, also supports this possibility. Scattering scattering In physics, the change in direction of motion of a particle because of a collision with another particle. The collision can occur between two charged particles; it need not involve direct physical contact. or reflection from local terrain, buildings, or vegetation may have also influenced indoor-outdoor differences. Prior epidemiologic investigations of the relationship between residential RF exposures and various health outcomes have relied on distance from transmitters to assess exposure (Ahlbom et al. 2004; NRPB 2003; WHO 1993). Results from this study indicate that distance was a strong predictor of RF power density measurements on Lookout Mountain, but that line of sight and elevation also had an important impact on residential RF levels. One in four of the study subjects lived at elevations that were higher than several of the major transmitters in this area. Increasing elevation enhanced residential RF exposures, but this effect varied by distance, contributing most at distances between 1 and 3 km from the transmitters. The results support a previous assertion that the topography of Lookout Mountain may place some homes at elevations that are within the main beam of the RF transmissions (U.S. EPA 1987). Homes with > 50% line-of-sight visibility that were 1-3 km from the transmitters had RF levels that were much greater than those with [less than or equal to] 50% visibility at the same distance. The results are consistent with theoretical properties of radio wave propagation Wave propagation is any of the ways in which waves travel through a medium (waveguide). With respect to the direction of the oscillation relative to the propagation direction, we can distinguish between longitudinal wave and transverse waves. and confirm that line-of-sight visibility is an important independent predictor of RF exposure from broadcast transmitters. With the increasing use of RF technologies in modern society, including the installation of mobile telephone and wireless Internet transmitters in urban environments, ambient RF levels will continue to climb. Refined exposure assessment methodologies are critical for improving epidemiologic investigations of RF exposures (Ahlbom et al. 2004). This study demonstrated the feasibility of using GPS/GIS technologies to improve RF exposure assessment and reduce exposure misclassification. Proximity, elevation, line of sight, alternate sources, and temporal variability each contributed to RF exposure and should be evaluated in future investigations of the potential health effects of RF broadcasting in human populations. REFERENCES Ahlbom A, Green A, Kheifets L, Savitz D, Swerdlow A. 2004. Epidemiology epidemiology, field of medicine concerned with the study of epidemics, outbreaks of disease that affect large numbers of people. Epidemiologists, using sophisticated statistical analyses, field investigations, and complex laboratory techniques, investigate the cause of health effects of radiofrequency exposure. Environ en·vi·ron tr.v. en·vi·roned, en·vi·ron·ing, en·vi·rons To encircle; surround. See Synonyms at surround. [Middle English envirounen, from Old French environner Health Perspect 112:1741-1754. Allen SG. 1991. Radiofrequency field measurements and hazard assessment. J Radiol Prot 11:49-62. Anglesio L, Benedetto A, Bonino A, Colla D, Martire F, Fusette S, et al. 2001. Population exposure to electromagnetic fields generated by radio base stations: evaluation of urban background by using provisional model and instrumental measurements. Radiat Prot Dosimetry dosimetry /do·sim·e·try/ (do-sim´e-tre) scientific determination of amount, rate, and distribution of radiation emitted from a source of ionizing radiation, in biological d. 97:355-358. Cleveland R. 1998. Summary of FCC Survey at Lookout Mountain Antenna Site. Washington, DC:U.S. Federal Communications Commission, Office of Engineering and Technology. Colorado Department of Public Health and Environment. 2004. Update: Tumor tumor: see neoplasm. Incidence in Residents Adjacent to the Lookout Mountain Antenna Farm, 1979-2002, Golden, Colorado. Denver, CO:Colorado Department of Public Health and Environment. Available: http://www.cdphe.state.ce.us/ dc/envtox/envtoxhom.asp [accessed 1 July 2004]. Dahme M. 1999. Residential RF exposures. Radiat Prot Dosimetry 83:113-117, FCC (Federal Communications Commission). 1999. Questions and Answers about Biological Effects and Potential Hazards of Radiofrequency Electromagnetic Fields. OET OET Office of Engineering and Technology (FCC) OET Occupational English Test OET Office of Emergency Transportation (US DOT) OET Oil Export Terminal OET Overhead Electric Traveling Bulletin 56. Washington, DC:Office of Engineering and Technology. FCC (Federal Communications Commisssion). 2004. TV and FM Database Query. Federal Communications Commission. Available: http://www.fcc.gov/fcc-bin/audio/tvq.html [accessed 1 March 2004]. Jefferson County Department of Health and Environment. 1996. Survey of Radiofrequency Fields Lookout Mountain and Vicinity Jefferson County, Colorado Jefferson County (IPA: /'dʒɛfərsən 'kaʊnti/) is the fourth most populous of the 64 counties of the State of Colorado of the United States. .Golden, CO:Jefferson County Department of Health and Environment. Mantiply ED, Pohl KR, Poppell SW, Murphy JA. 1997. Summary of measured radiofrequency electric and magnetic fields magnetic fields, n.pl the spaces in which magnetic forces are detectable; created by magnetostrictive ultrasonic scalers to cause the tips of instruments such as ultrasonic scalers to vibrate. (10 kHz to 30 GHz) in the general and work environment. Bioelectromagnetics 18:563-577. NRPB. 2003. Health Effects from Radiofrequency Electromagnetic Fields. Vol. 14, No. 2. Chilton, UK:National Radiological Protection Board. Tell RA, Mantiply ED. 1980. Population exposure to VHF (Very High Frequency) The range of electromagnetic frequencies from 30 MHz to 300 MHz. and UHF (Ultra High Frequency) The range of electromagnetic frequencies from 300 MHz to 3 GHz. In the U.S., analog television has used UHF channels 52 to 69 in the 700 MHz band. broadcast radiation in the United States. Proc IEEE (Institute of Electrical and Electronics Engineers, New York, www.ieee.org) A membership organization that includes engineers, scientists and students in electronics and allied fields. 68:6-12. U.S. EPA. 1987. An Investigation of Radiofrequency Radiation Levels un Lookout Mountain, Jefferson County, Colorado, September 22-26, 1986. Las Vegas Las Vegas (läs vā`gəs), city (1990 pop. 258,295), seat of Clark co., S Nev.; inc. 1911. It is the largest city in Nevada and the center of one of the fastest-growing urban areas in the United States. , NV:Office of Radiation Programs, U.S. Environmental Protection Agency. WHO. 1993. Electromagnetic Fields (300 Hz to 300 GHz). Environmental Health Criteria 137. Geneva Geneva, canton and city, Switzerland Geneva (jənē`və), Fr. Genève, canton (1990 pop. 373,019), 109 sq mi (282 sq km), SW Switzerland, surrounding the southwest tip of the Lake of Geneva. :World Health Organization. Address correspondence to J. Butch, Department of Epidemiology and Biostatistics biostatistics /bio·sta·tis·tics/ (-stah-tis´tiks) biometry. bi·o·sta·tis·tics n. The science of statistics applied to the analysis of biological or medical data. , 2221 Devine St., Room 237A, University of South Carolina
• • , Columbia, SC 29208 USA. Telephone: (803) 734-4459. Fax: (803) 734-5505. E-mail: burch@gwm.sc.edu We gratefully acknowledge the Canyon Area Residents for the Environment, and the Jefferson County Department of Health and Environment. We thank L. Cragin, A. Coss, K. Everett, and J. Tom for assistance with data collection and processing. This work was sponsored by the National Institute of Environmental Health Sciences The National Institute of Environmental Health Sciences (NIEHS) is one of 27 Institutes and Centers of the National Institutes of Health (NIH),which is a component of the Department of Health and Human Services (DHHS). The Director of the NIEHS is Dr. David A. Schwartz. (grant 2 R01 ES08117-03A2). The authors declare they have no competing financial interests. Received 20 April 2005; accepted 20 September 2005. James B. Burch, (1) Maggie Clark, (2) Michael G. Yost, (3) Cole T.E. Fitzpatrick, (3) Annette M. Bachand, (2) Jaya Ramaprasad, (3) and John S. Reif (2) (1) Department of Epidemiology and Biostatistics, University of South Carolina, Columbia, South Carolina Columbia is the state capital and largest city of South Carolina. As of 2006, estimates for the population of the city proper is 122,819[1]. Columbia is the county seat of Richland County, but a small portion of the city extends into Lexington County. , USA; (2) Department of Environmental and Radiological radiological pertaining to radiology. radiological diagnosis see radiological diagnosis. mobile radiological apparatus x-ray machines that can be moved but are not portable because of their weight. Health Sciences, Colorado State University Colorado State University, at Fort Collins; land-grant with state and federal support; chartered 1870, opened 1879 as an agricultural college, assumed present name in 1957. There is a veterinary teaching hospital, an agricultural campus, and a research campus. , Fort Collins, Colorado The City of Fort Collins, a home rule municipality situated on the Cache la Poudre River along the Colorado Front Range, is the county seat and most populous city in Larimer County, Colorado. , USA; (3) Department of Environmental and Occupational Health Sciences, University of Washington, Seattle, Washington  This page is protected from moves until disputes have been resolved on the .The reason for its protection is listed on the protection policy page. , USA
Table 1. Characteristics of radio and television broadcast
transmitters, Lookout Mountain, Golden, Colorado (March 2004).
Antenna group/ Elevation (feet
frequency (MHz) above sea level) Latitude ([degrees])
Northwest
83.25 7,707 39.73028
Northeast
55.25 7,684 39.73278
105.90 7,520 39.73278
106.70 7,520 39.73278
95.70 7,412 39.73306
687.25 7,376 39.73278
Southeast
67.25 8,078 39.73000
573.25 7,701 39.72917
175.25 7,664 39.72944
90.10 7,655 39.73028
89.30 7,655 39.73028
187.25 7,609 39.72944
99.50 7,422 39.72917
101.10 7,422 39.72917
103.50 7,028 39.73056
Antenna group/ Antenna
frequency (MHz) Longitude ([degrees]) ERP (kW) azimuth pattern
Northwest
83.25 105.25000 100 O
Northeast
55.25 105.23556 100 O
105.90 105.23556 96 O
106.70 105.23556 96 O
95.70 105.23611 100 D
687.25 105.23556 2,510 D
Southeast
67.25 105.23389 100 O
573.25 105.23667 5,000 D
175.25 105.23667 316 O
90.10 105.23556 45 O
89.30 105.23556 22.5 O
187.25 105.23556 316 O
99.50 105.23500 74 D
101.10 105.23500 74 D
103.50 105.23528 100 O
Abbreviations: D, directional; ERP, effective radiated power; O,
omnidirectional.
Table 2. Exterior and interior RF power densities ([micro]W/[cm.sup.2]):
effect of distance, elevation, and line of sight, Lookout Mountain,
Golden, Colorado.
Quartile
p-Value,
1 2 3 4 1 vs. 4
Exterior average
Distance (a) 2.93 1.28 0.38 0.07 < 0.001
Elevation 0.42 0.55 0.32 1.42 < 0.001
Percent visible (b) 0.06 0.61 1.58 3.84 < 0.001
Interior house average
Distance (a) 1.05 0.73 0.21 0.05 < 0.001
Elevation 0.26 0.37 0.17 0.51 0.010
Percent visible (b) 0.07 0.38 0.53 1.14 < 0.001
(a) Average distance to 15 major RF (see Table 1) transmitters in area.
(b) Percentage of transmitters visible from the residence.
Table 3. Exterior and interior RF power densities by distance and line
of sight, Lookout Mountain, Golden, Colorado [[micro]W/[cm.sup.2] (no.
of subjects)].
Percent of
transmitters
visible
All subjects [less than or
Distance to transmitter (n = 280) equal to] 50
Exterior average
[less than or equal to] 1 km 2.92 (62) 1.67 (11)
> 1-2 km 1.00 (117) 0.21 (46)
> 2-3 km 0.13 (76) 0.05 (54)
> 3 km 0.06 (25) 0.04 (18)
p-Value, [less than or equal to] 1 vs.
> 3 km <0.001 <0.001
Interior house average
[less than or equal to] 1 km 1.14 (62) 0.86 (11)
> 1-2 km 0.53 (117) 0.22 (46)
> 2-3 km 0.09 (76) 0.05 (54)
> 3 km 0.03 (25) 0.04 (18)
p-Value, [less than or equal to] 1 vs. >
3 km <0.001 <0.001
Percent of
transmitters p-Value,
visible [less than or
equal to]
Distance to transmitter > 50 50% vs. > 50%
Exterior average
[less than or equal to] 1 km 3.32 (51) 0.100
> 1-2 km 2.66 (71) <0.001
> 2-3 km 1.49 (22) <0.001
> 3 km 0.13 (7) 0.050
p-Value, [less than or equal to] 1 vs.
> 3 km <0.001
Interior house average
[less than or equal to] 1 km 1.22 (5) 0.260
> 1-2 km 0.92 (71) <0.001
> 2-3 km 0.39 (22) <0.001
> 3 km 0.01 (7) 0.020
p-Value, [less than or equal to] 1 vs. >
3 km <0.001
Table 4. Exterior and interior RF power densities by distance and
elevation, Lookout Mountain, Golden, Colorado [[micro]W/[cm.sup.2]
(no. of subjects)].
Elevation quartile
Distance to transmitter 1 2 3
Exterior average
[less than or equal to] 1 km 2.79 (27) 2.76 (21) 4.54 (7)
> 1-2 km 0.59 (18) 0.84 (27) 0.86 (29)
> 2-3 km 0.04 (18) 0.07 (20) 0.12 (21)
> 3 km 0.04 (7) 0.01 (1) 0.05 (13)
p-Value, [less than or equal to]
1 vs. > 3 km <0.001 <0.001 <0.001
Interior house average
[less than or equal to] 1 km 1.21 (27) 1.10 (21) 1.95 (7)
> 1-2 km 0.34 (18) 0.60 (27) 0.44 (29)
> 2-3 km 0.05 (18) 0.07 (20) 0.07 (21)
> 3 km 0.03 (7) 0.03 (1) 0.03 (13)
p-Value, [less than or equal to]
1 vs. > 3 km <0.001 <0.001 <0.001
Elevation quartile
p-Value,
Distance to transmitter 4 1 vs. 4
Exterior average
[less than or equal to] 1 km 3.10 (7) 0.87
> 1-2 km 1.51 (43) 0.03
> 2-3 km 1.37 (15) <0.01
> 3 km 0.32 (4) 0.03
p-Value, [less than or equal to]
1 vs. > 3 km 0.001
Interior house average
[less than or equal to] 1 km 0.56 (7) 0.10
> 1-2 km 0.67 (43) 0.03
> 2-3 km 0.34 (15) <0.01
> 3 km 0.06 (4) 0.32
p-Value, [less than or equal to]
1 vs. > 3 km <0.001
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