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3. Exposure to power-frequency magnetic fields and the risk of childhood cancer. UK Childhood Cancer Study Investigators

Author

Cheng, K, Day, N, Cartwright, R, Craft, A, Birch, J, Eden, O, McKinney, P, Peto, J, Beral, V, Roman, E, Elwood, P, Alexander, F, Chilvers, C, Doll, R, Taylor, C, Greaves, M, Goodhead, D, Fry, F, Adams, G, Allen, S, Maslanyj, M, Mee, T, Gilman, E, Skinner, J, and Williams, D

Abstract

BACKGROUND: Previous studies have suggested an association between exposure to power-frequency electromagnetic fields (EMF) and the development of childhood malignant disease, especially leukaemia and tumours of the central nervous system. We investigated the relation between all childhood cancer and exposure to power-frequency magnetic fields. METHODS: The UK Childhood Cancer Study was a population case-control study covering the whole of England, Wales, and Scotland. All children with a confirmed malignant disorder were potentially eligible. For each case, we matched two controls on date of birth and sex, randomly chosen from the list of the Family Health Services Authority in England and Wales or Health Board in Scotland. In the main study, 3838 cases and 7629 controls were interviewed. The EMF part of the study included only one control per case, and household EMF measurements and school measurements where relevant were taken on 2226 matched pairs. These measurements, adjusted for historical line load and appliance fields, were used to estimate average exposure in the year before the date of diagnosis, or an equivalent date for controls. Analyses were by conditional logistic regression, incorporating a census-derived deprivation index used as a measure of socioeconomic status. FINDINGS: For children with mean exposures of more than 0.2 microT compared with children with mean exposures of less than 0-1 microT, the adjusted odds ratios were 0.92 (95% CI 0.47-1.79) for acute lymphoblastic leukaemia, 0.90 (0.49-1.63) for all leukaemia, 0.46 (0.11-1.86) for central-nervous-system tumours, 0.97 (0.46-2.05) for other malignant disease, and 0.87 (0.56-1.35) for all malignant disease combined. Higher exposures (>0.4 microT) were recorded for only 17 (

Published
2016

4. The MOBI-Kids study protocol: Challenges in assessing childhood and adolescent exposure to electromagnetic fields from wireless telecommunication technologies and possible association with brain tumor risk

Author

Sadetzki, S. Langer, C.E. Bruchim, R. Kundi, M. Merletti, F. Vermeulen, R. Kromhout, H. Ae-Kyoung, L. Maslanyj, M. Sim, M.R. Taki, M. Wiart, J. Armstrong, B. Milne, E. Benke, G. Schattner, R. Hutter, H.-P. Woehrer, A. Krewski, D. Mohipp, C. Momoli, F. Ritvo, P. Spinelli, J. Lacour, B. Delmas, D. Remen, T. Radon, K. Weinmann, T. Klostermann, S. Heinrich, S. Petridou, E. Bouka, E. Panagopoulou, P. Dikshit, R. Nagrani, R. Even-Nir, H. Chetrit, A. Maule, M. Migliore, E. Filippini, G. Miligi, L. Mattioli, S. Yamaguchi, N. Kojimahara, N. Ha, M. Choi, K.-H. Mannetje, A. Eng, A. Woodward, A. Carretero, G. Alguacil, J. Aragones, N. Suare-Varela, M.M. Goedhart, G. Schouten-van Meeteren, A.A.Y.N. Reedijk, A.A.M.J. Cardis, E.

Abstract

The rapid increase in mobile phone use in young people has generated concern about pos- sible health effects of exposure to radiofrequency (RF) and extremely low frequency (ELF) electromagnetic fields (EMF). MOBI-Kids, a multinational case-control study, investigates the potential effects of childhood and adolescent exposure to EMF from mobile communi- cations technologies on brain tumor risk in 14 countries. The study, which aims to include approximately 1,000 brain tumor cases aged 10-24 years and two individually matched controls for each case, follows a common protocol and builds upon the methodological experience of the INTERPHONE study. The design and conduct of a study on EMF expo- sure and brain tumor risk in young people in a large number of countries is complex and poses methodological challenges.This manuscript discusses the design of MOBI-Kids and describes the challenges and approaches chosen to address them, including: (1) the choice of controls operated for suspected appendicitis, to reduce potential selection bias related to lowresponse rates among population controls; (2) investigating a young study population spanning a relatively wide age range; (3) conducting a large, multinational epidemiologi- cal study, while adhering to increasingly stricter ethics requirements; (4) investigating a rare and potentially fatal disease; and (5) assessing exposure to EMF from communication technologies. Our experience in thus far developing and implementing the study protocol indicates that MOBI-Kids is feasible and will generate results that will contribute to the understanding of potential brain tumor risks associated with use of mobile phones and other wireless communications technologies among young people. © 2014.

Published
2014

5. The United Kingdom Childhood Cancer Study: objectives, materials and methods. UK Childhood Cancer Study Investigators

Author

Boulton, A, Boyd, P, Cheng, KK, Cook, J, Gilman, EA, Lunt, D, Mahler, H, Walker, C, Wardroper, M, Darbyshire, PJ, Hill, FGH, Mann, JR, Morland, B, Raafat, F, Stevens, MCG, Ahmed, A, Amos, P, Bone, V, Bonney, S, Bray, M, Cambouropoulos, P, Cook, S, Day, N, Elkins, S, Hensel, F, Lucas, P, Pettinger, J, Pugsley, M, Ruja, E, Skinner, J, Williams, D, Braodbent, V, Williams, M, Alcock, M, Bell, K, Buchan, M, Cartwright, R, Cusack, H, Fear, N, Griffiths, S, Jarvis, J, Johnson, P, Kane, E, Law, G, Moorman, A, Prajapati, J, Roberts, P, Roman, E, Simpson, J, Sinclair, V, Staines, A, Thackrah, C, Thistlethwaite, S, Waller, B, Bailey, C, Kinsey, S, Lewis, I, Picton, S, Squire, R, Taylor, R, Beck, JM, Doran, RML, Livingston, JH, Van Hille, P, Beddis, I, Cameron, MM, Craft, A, Hale, J, Kernahan, J, Reid, M, Windebank, K, Pearson, A, Skinner, R, Marks, S, Achilles, J, Alam, S, Birch, JM, Blair, V, Buckley, B, Clarkson, M, Eden, OB, Howell, S, Kellaway, C, Lashford, L, Leeke, S, Leggett, P, Murphy, AV, O'Rorke, C, Panton, S, Paxon, J, Pots, H, Roberts, C, Rothwell, J, Stephenson, W, Whelpton, B, Caswell, M, McDowell, H, Pizer, BL, Gattamaneri, R, Brock, J, Kelsey, AM, Stevens, R, Will, A, Brennan, B, Brydon, J, Dodds, C, Findlay, E, Finucane, J, Fraser, J, Harkness, E, Heary, A, Hunter, N, Juszczak, E, Lang, M, Lapsley, E, McArthur, A, MacCalman, A, McKinney, PA, Proudfoot, K, Smith, C, Smith, K, Stockton, D, Thomson, CS, Vickers, R, Wilkie, R, King, D, Mackinlay, G, Shaw, P, Thomas, A, Wallace, H, Carachi, R, Gibson, BS, Simpson, E, Cruickshank, G, Hide, TAH, Gregor, A, Steers, AJW, Barrett, A, Hamblen, DL, Kaye, SB, Mackie, R, Allen, A, Jones, AA, Beeby, S, Bignall, V, Breeze, L, Deacon, J, MacDonald, M, Matthews, F, Meggitt, C, Peto, J, Sharpe, E, Spencer, C, Swales, J, Thorne, M, Trowbridge, P, Webster-King, J, Williams, E, Bell, BA, Johnston, FG, Marsh, HT, Uttley, D, Bartlett, J, Evans, A, Gullan, RW, Glaser, MG, Peterson, D, Southcott, BM, Cavanagh, N, Pearl, K, Scott, D, Darby, CW, Chessels, J, Evans, J, Gaze, M, Hann, IM, Harkness, W, Hayward, R, Michalski, A, Passmore, J, Phillips, M, Pritchard, J, Clark, KGA, MacDonald, EA, Neville, BGR, Robb, SA, Robinson, RO, Hardwidge, C, Padgham, N, Lobo, VJ, Keen, C, Hindmarsh, PC, Kilby, AM, Souhami, RL, Tuft, S, Thomas, RM, Ward, P, Scott, M, Hoffbrand, AV, Prentice, HG, Gutteridge, CG, Newland, AC, Brada, M, Henk, JM, Meller, S, Pinkerton, R, Jones, KP, Cannon, S, Murrell, DS, Hungerford, JL, Kingston, JE, Plowman, PN, Young, B, Ball, SE, Capps, SNJ, Davies, EG, Holmes, SJK, Carr, R, Mercer, DM, Smith, MA, Andrews, VE, Hughes, RG, Ansell, P, Baker, K, Beral, V, Black, J, Boon, S, Burge, C, Burge, F, Cliff, A, Deciaccio, D, Dorman, P, Heydon, F, Langley, N, Pelerin, M, Roemmele, J, Sayers, K, Townshend, P, Harman, S, Loftus, J, Roth, S, Lee, B, Buchdahl, R, Dunger, DB, Mitchell, C, Moncrieff, MKM, Tam, PKH, Wheeler, K, Reiser, J, Joss, V, Moir, DJ, Darmady, J, Daish, P, Liberman, MM, Al-Izzi, MS, Adams, CBT, Kerr, RSC, Teddy, PJ, Barton, CJ, Newman, CL, Gabriel, CM, O'Hea, M, Sherrin, S, Watson, A, Douek, E, Connell, JA, Kelly, S, Beswick, A, Eldridge, B, Elwood, P, Hughes, J, Webb, D, Alexander, FE, Bennett-Lloyd, B, Davis, A, Dunn, R, Little, J, Longdon, S, Mitchell, M, Muir, S, Sturitis, J, Kennedy, C, Kohler, J, Lang, D, Radford, M, Foreman, N, Foot, A, Mott, M, Noblett, H, Oakhill, A, Sandeman, D, Baumer, J, McNinch, A, Gilbertson, N, Bosley, A, Richardson, S, Challacombe, D, French, T, Bate, L, Chilvers, CED, Faulkner, G, Hawtin, P, Jenkinson, C, Kelham, P, Mackie, I, Mackie, M, Muir, KR, O'Dwyer, J, Williams, A, Nelson, C, Howarth, C, Madi, M, Shannon, R, Forman, K, Hewitt, M, Punt, J, Walker, D, Gerrard, M, Lilleyman, JS, Vora, A, Draper, G, Harrison, C, Doll, R, Richards, S, Ayres, M, Carter, R, Dearden, SP, Hussain, A, Kennedy, J, Ravetto, P, Ruprai, A, Taylor, GM, Taylor, J, Watson, PD, Colman, SM, Greaves, MF, Price, CM, Goodhead, DT, Allen, S, Bartlett, D, Blackwell, RP, Fry, F, Maslanyj, M, Mee, T, Miles, J, Adams, G, and Investigat, UKCCS

Abstract

An investigation into the possible causes of childhood cancer has been carried out throughout England, Scotland and Wales over the period 1991-1998. All children known to be suffering from one or other type of the disease over periods of 4-5 years have been included, and control children matched for sex, age and area of residence have been selected at random from population registers. Information about both groups of children (with and without cancer) has been obtained from parental questionnaires, general practitioners' and hospital records, and from measurement of the extent of exposure to radon gas, terrestrial gamma radiation, and electric and magnetic fields. Samples of blood have also been obtained from the affected children and their parents and stored. Altogether 3,838 children with cancer, including 1,736 with leukaemia, and 7,629 unaffected children have been studied. Detailed accounts are given of the nature of the information obtained in sections describing the general methodology of the study, the measurement of exposure to ionizing and non-ionizing radiation, the classification of solid tumours and leukaemias, and the biological material available for genetic analysis.

Published
2000

8. Exposure to power frequency electric fields and the risk of childhood cancer in the UK.

Author

Skinner, J, Mee, T J, Blackwell, R P, Maslanyj, M P, Simpson, J, Allen, S G, Day, N E, Cheng, K K, Gilman, E, Williams, D, Cartwright, R, Craft, A, Birch, J M, Eden, O B, McKinney, P A, Deacon, J, Peto, J, Beral, V, Roman, E, and Elwood, P

Subjects
CHILDHOOD cancer, ELECTRIC fields, LEUKEMIA
Abstract

The United Kingdom Childhood Cancer Study, a population-based case-control study covering the whole of Great Britain, incorporated a pilot study measuring electric fields. Measurements were made in the homes of 473 children who were diagnosed with a malignant neoplasm between 1992 and 1996 and who were aged 0-14 at diagnosis, together with 453 controls matched on age, sex and geographical location. Exposure assessments comprised resultant spot measurements in the child's bedroom and the family living-room. Temporal stability of bedroom fields was investigated through continuous logging of the 48-h vertical component at the child's bedside supported by repeat spot measurements. The principal exposure metric used was the mean of the pillow and bed centre measurements. For the 273 cases and 276 controls with fully validated measures, comparing those with a measured electric field exposure >/=20 V m(-1) to those in a reference category of exposure <10 V m(-1), odds ratios of 1.31 (95% confidence interval 0.68-2.54) for acute lymphoblastic leukaemia, 1.32 (95% confidence interval 0.73-2.39) for total leukaemia, 2.12 (95% confidence interval 0.78-5.78) for central nervous system cancers and 1.26 (95% confidence interval 0.77-2.07) for all malignancies were obtained. When considering the 426 cases and 419 controls with no invalid measures, the corresponding odds ratios were 0.86 (95% confidence interval 0.49-1.51) for acute lymphoblastic leukaemia, 0.93 (95% confidence interval 0.56-1.54) for total leukaemia, 1.43 (95% confidence interval 0.68-3.02) for central nervous system cancers and 0.90 (95% confidence interval 0.59-1.35) for all malignancies. With exposure modelled as a continuous variable, odds ratios for an increase in the principal metric of 10 V m(-1) were close to unity for all disease categories, never differing significantly from one. [ABSTRACT FROM AUTHOR]

Published
2002

10. Regional aeromagnetic anomalies in Ellsworth Land: Crustal structure and Mesozoic microplate boundaries within West Antarctica.

Author

Maslanyj, M. P. and Storey, B. C.

Abstract

The structural relationship between West Antarctic crustal blocks has remained uncertain due to a lack of information concerning sub-ice crustal structure. A regional aeromagnetic reconnaissance of Ellsworth Land between 72 and 80°S and 65 and 100°W, completed as part of an integrated geophysical and geological investigation, provides the opportunity to study the ice-covered area where several continental crustal blocks meet: Antarctic Peninsula, Thurston Island, Ellsworth-Whitmore mountains and Haag Nunataks. The anomaly map is dominated by two major positive magnetic areas. Firstly, the Pacific Margin Anomaly (PMA) continues as a coastline-parallel feature 100 km wide through Antarctic Peninsula and Thurston Island. The broad curvilinear anomaly with magnetic maxima of 200-600 nT is related to a mafic batholith and related intrusions and structures of the Pacific margin, mostly of Mesozoic age. Second, a zone of high intensity anomalies (200-1000 nT) of variable wavelengths (20-150 km) define an extensive area of highly magnetic Precambrian basement which is exposed at Haag Nunataks but is for the most part buried beneath ice and non-magnetic cover. The geophysical data suggest that some of the crustal blocks have common structural features, their boundaries are more complex than originally thought and aeromagnetic provinces do not entirely correspond to the topographically defined boundaries of the crustal blocks. The Antarctic Peninsula and Thurston Island blocks are thought to have remained juxtaposed since the emplacement of the intrusive body related to the PMA. The Haag Nunataks Precambrian basement probably extends beneath the south and west margins of the Weddell Sea embayment and beneath the Ellsworth Mountains. The origin of long wavelength lineations beneath the Weddell Sea embayment is speculative. If they are related to Haag Nunataks Precambrian basement then the data offer insight into the trend of the Palaeozoic Ellsworth Mountain fold belt and support rotation models. Alternatively, if the anomalies are imaging break-up related rifting trends, the lineations may provide extension and movement directions. [ABSTRACT FROM AUTHOR]

Published
1990
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11. A precautionary public health protection strategy for the possible risk of childhood leukaemia from exposure to power frequency magnetic fields

Author

Schüz Joachim, Lightfoot Tracy, Maslanyj Myron, Sienkiewicz Zenon, and McKinlay Alastair

Subjects
Public aspects of medicine, RA1-1270
Abstract

Abstract Background Epidemiological evidence showing a consistent association between the risk of childhood leukaemia and exposure to power frequency magnetic fields has been accumulating. This debate considers the additional precautionary intervention needed to manage this risk, when it exceeds the protection afforded by the exposure guidelines as recommended by the International Commission on Non-Ionizing Radiation Protection. Methods The Bradford-Hill Criteria are guidelines for evaluating the scientific evidence that low frequency magnetic fields cause childhood leukaemia. The criteria are used for assessing the strength of scientific evidence and here have been applied to considering the strength of evidence that exposures to extremely low frequency magnetic fields may increase the risk of childhood leukaemia. The applicability of precaution is considered using the risk management framework outlined in a European Commission (EC) communication on the Precautionary Principle. That communication advises that measures should be proportionate, non-discriminatory, consistent with similar measures already taken, based on an examination of the benefits and costs of action and inaction, and subject to review in the light of new scientific findings. Results The main evidence for a risk is an epidemiological association observed in several studies and meta-analyses; however, the number of highly exposed children is small and the association could be due to a combination of selection bias, confounding and chance. Corroborating experimental evidence is limited insofar as there is no clear indication of harm at the field levels implicated; however, the aetiology of childhood leukaemia is poorly understood. Taking a precautionary approach suggests that low-cost intervention to reduce exposure is appropriate. This assumes that if the risk is real, its impact is likely to be small. It also recognises the consequential cost of any major intervention. The recommendation is controversial in that other interpretations of the data are possible, and low-cost intervention may not fully alleviate the risk. Conclusions The debate shows how the EC risk management framework can be used to apply the Precautionary Principle to small and uncertain public health risks. However, despite the need for evidence-based policy making, many of the decisions remain value driven and therefore subjective.

Published
2010
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12. Exposure to radio frequency electromagnetic fields from wireless computer networks: Duty factors of Wi-Fi devices operating in schools

Author

Khalid, M., Mee, T., Peyman, A., Addison, D., Calderon, C., Maslanyj, M., and Mann, S.

Subjects
*RADIO frequency, *PHYSIOLOGICAL effects of electromagnetism, *WIRELESS communications, *LAPTOP computers, *TORSO, *CHILDREN'S health
Abstract

Abstract: The growing use of wireless local area networks (WLAN) in schools has prompted a study to investigate exposure to the radio frequency (RF) electromagnetic fields from Wi-Fi devices. International guidelines on limiting the adverse health effects of RF, such as those of ICNIRP, allow for time-averaging of exposure. Thus, as Wi-Fi signals consist of intermittent bursts of RF energy, it is important to consider the duty factors of devices in assessing the extent of exposure and compliance with guidelines. Using radio packet capture methods, the duty factor of Wi-Fi devices has been assessed in a sample of 6 primary and secondary schools during classroom lessons. For the 146 individual laptops investigated, the range of duty factors was from 0.02 to 0.91%, with a mean of 0.08% (SD 0.10%). The duty factors of access points from 7 networks ranged from 1.0% to 11.7% with a mean of 4.79% (SD 3.76%). Data gathered with transmit time measuring devices attached to laptops also showed similar results. Within the present limited sample, the range of duty factors from laptops and access points were found to be broadly similar for primary and secondary schools. Applying these duty factors to previously published results from this project, the maximum time-averaged power density from a laptop would be 220 μW m−2, at a distance of 0.5 m and the peak localised SAR predicted in the torso region of a 10 year old child model, at 34 cm from the antenna, would be 80 μW kg−1. [Copyright &y& Elsevier]

Published
2011
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13. Wireless phone use in childhood and adolescence and neuroepithelial brain tumours: Results from the international MOBI-Kids study.

Author

Castaño-Vinyals, G., Sadetzki, S., Vermeulen, R., Momoli, F., Kundi, M., Merletti, F., Maslanyj, M., Calderon, C., Wiart, J., Lee, A.-K., Taki, M., Sim, M., Armstrong, B., Benke, G., Schattner, R., Hutter, H.-P., Krewski, D., Mohipp, C., Ritvo, P., and Spinelli, J.

Subjects
*BRAIN tumors, *AGE groups, *CELL phones, *ADOLESCENCE, *ELECTROMAGNETIC fields, *OLD age
Abstract

[Display omitted] • Increasing use of mobile technologies by young people is a topic of public health concern. • MOBI-Kids studied brain tumour risk and wireless phone use (and EMF) in 14 countries. • The study includes 899 brain tumour cases aged 10–24 years old and 1,910 controls. • We have no evidence of a causal association between wireless phone use and brain tumours. • Because of likely biases we cannot rule out a small increased risk. In recent decades, the possibility that use of mobile communicating devices, particularly wireless (mobile and cordless) phones, may increase brain tumour risk, has been a concern, particularly given the considerable increase in their use by young people. MOBI-Kids, a 14-country (Australia, Austria, Canada, France, Germany, Greece, India, Israel, Italy, Japan, Korea, the Netherlands, New Zealand, Spain) case-control study, was conducted to evaluate whether wireless phone use (and particularly resulting exposure to radiofrequency (RF) and extremely low frequency (ELF) electromagnetic fields (EMF)) increases risk of brain tumours in young people. Between 2010 and 2015, the study recruited 899 people with brain tumours aged 10 to 24 years old and 1,910 controls (operated for appendicitis) matched to the cases on date of diagnosis, study region and age. Participation rates were 72% for cases and 54% for controls. The mean ages of cases and controls were 16.5 and 16.6 years, respectively; 57% were males. The vast majority of study participants were wireless phones users, even in the youngest age group, and the study included substantial numbers of long-term (over 10 years) users: 22% overall, 51% in the 20–24-year-olds. Most tumours were of the neuroepithelial type (NBT; n = 671), mainly glioma. The odds ratios (OR) of NBT appeared to decrease with increasing time since start of use of wireless phones, cumulative number of calls and cumulative call time, particularly in the 15–19 years old age group. A decreasing trend in ORs was also observed with increasing estimated cumulative RF specific energy and ELF induced current density at the location of the tumour. Further analyses suggest that the large number of ORs below 1 in this study is unlikely to represent an unknown causal preventive effect of mobile phone exposure: they can be at least partially explained by differential recall by proxies and prodromal symptoms affecting phone use before diagnosis of the cases. We cannot rule out, however, residual confounding from sources we did not measure. Overall, our study provides no evidence of a causal association between wireless phone use and brain tumours in young people. However, the sources of bias summarised above prevent us from ruling out a small increased risk. [ABSTRACT FROM AUTHOR]

Published
2022
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14. Personal radiofrequency electromagnetic field exposure of adolescents in the Greater London area in the SCAMP cohort and the association with restrictions on permitted use of mobile communication technologies at school and at home.

Author

Schmutz C, Bürgler A, Ashta N, Soenksen J, Bou Karim Y, Shen C, Smith RB, Jenkins RH, Mireku MO, Mutz J, Maes MJA, Hirst R, Chang I, Fleming C, Mussa A, Kesary D, Addison D, Maslanyj M, Toledano MB, Röösli M, and Eeftens M

Subjects
Adolescent, Cognition, Cohort Studies, Communication, Environmental Exposure, Humans, London, Radio Waves, Schools, Cell Phone, Electromagnetic Fields
Abstract

Personal measurements of radiofrequency electromagnetic fields (RF-EMF) have been used in several studies to characterise personal exposure in daily life, but such data are limitedly available for adolescents, and not yet for the United Kingdom (UK). In this study, we aimed to characterise personal exposure to RF-EMF in adolescents and to study the association between exposure and rules applied at school and at home to restrict wireless communication use, likely implemented to reduce other effects of mobile technology (e.g. distraction). We measured exposure to RF-EMF for 16 common frequency bands (87.5 MHz-3.5 GHz), using portable measurement devices (ExpoM-RF), in a subsample of adolescents participating in the cohort Study of Cognition, Adolescents and Mobile Phones (SCAMP) from Greater London (UK) (n = 188). School and home rules were assessed by questionnaire and concerned the school's availability of WiFi and mobile phone policy, and parental restrictions on permitted mobile phone use. Adolescents recorded their activities in real time using a diary app on a study smartphone, while characterizing their personal RF-EMF exposure in daily life, during different activities and times of the day. Data analysis was done for 148 adolescents from 29 schools who recorded RF-EMF data for a median duration of 47 h. The majority (74%) of adolescents spent part of their time at school during the measurement period. Median total RF-EMF exposure was 40 μW/m 2 at home, 94 μW/m 2 at school, and 100 μW/m 2 overall. In general, restrictions at school or at home made little difference for adolescents' measured exposure to RF-EMF, except for uplink exposure from mobile phones while at school, which was found to be significantly lower for adolescents attending schools not permitting phone use at all, compared to adolescents attending schools allowing mobile phone use during breaks. This difference was not statistically significant for total personal exposure. Total exposure to RF-EMF in adolescents living in Greater London tended to be higher compared to exposure levels reported in other European countries. This study suggests that school policies and parental restrictions are not associated with a lower RF-EMF exposure in adolescents., (Copyright © 2022 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2022
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15. Estimation of RF and ELF dose by anatomical location in the brain from wireless phones in the MOBI-Kids study.

Author

Calderón C, Castaño-Vinyals G, Maslanyj M, Wiart J, Lee AK, Taki M, Wake K, Abert A, Badia F, Hadjem A, Kromhout H, de Llobet P, Varsier N, Conil E, Choi HD, Sim MR, and Cardis E

Subjects
Adolescent, Adult, Brain, Case-Control Studies, Child, Electromagnetic Fields adverse effects, Environmental Exposure, Humans, Radio Waves adverse effects, Young Adult, Cell Phone
Abstract

Wireless phones (both mobile and cordless) emit not only radiofrequency (RF) electromagnetic fields (EMF) but also extremely low frequency (ELF) magnetic fields, both of which should be considered in epidemiological studies of the possible adverse health effects of use of such devices. This paper describes a unique algorithm, developed for the multinational case-control MOBI-Kids study, that estimates the cumulative specific energy (CSE) and the cumulative induced current density (CICD) in the brain from RF and ELF fields, respectively, for each subject in the study (aged 10-24 years old). Factors such as age, tumour location, self-reported phone models and usage patterns (laterality, call frequency/duration and hands-free use) were considered, as was the prevalence of different communication systems over time. Median CSE and CICD were substantially higher in GSM than 3G systems and varied considerably with location in the brain. Agreement between RF CSE and mobile phone use variables was moderate to null, depending on the communication system. Agreement between mobile phone use variables and ELF CICD was higher overall but also strongly dependent on communication system. Despite ELF dose distribution across the brain being more diffuse than that of RF, high correlation was observed between RF and ELF dose. The algorithm was used to systematically estimate the localised RF and ELF doses in the brain from wireless phones, which were found to be strongly dependent on location and communication system. Analysis of cartographies showed high correlation across phone models and across ages, however diagonal agreement between these cartographies suggest these factors do affect dose distribution to some level. Overall, duration and number of calls may not be adequate proxies of dose, particularly as communication systems available for voice calls tend to become more complex with time., (Crown Copyright © 2022. Published by Elsevier Ltd. All rights reserved.)

Published
2022
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17. Assessment of exposure to radio frequency electromagnetic fields from smart utility meters in GB; part II) numerical assessment of induced SAR within the human body.

Author

Qureshi MRA, Alfadhl Y, Chen X, Peyman A, Maslanyj M, and Mann S

Subjects
Absorption, Radiation, Child, Humans, Electricity, Electromagnetic Fields, Radiation Exposure analysis, Radio Waves
Abstract

Human body exposure to radiofrequency electromagnetic waves emitted from smart meters was assessed using various exposure configurations. Specific energy absorption rate distributions were determined using three anatomically realistic human models. Each model was assigned with age- and frequency-dependent dielectric properties representing a collection of age groups. Generalized exposure conditions involving standing and sleeping postures were assessed for a home area network operating at 868 and 2,450 MHz. The smart meter antenna was fed with 1 W power input which is an overestimation of what real devices typically emit (15 mW max limit). The highest observed whole body specific energy absorption rate value was 1.87 mW kg -1 , within the child model at a distance of 15 cm from a 2,450 MHz device. The higher values were attributed to differences in dimension and dielectric properties within the model. Specific absorption rate (SAR) values were also estimated based on power density levels derived from electric field strength measurements made at various distances from smart meter devices. All the calculated SAR values were found to be very small in comparison to International Commission on Non-Ionizing Radiation Protection limits for public exposure. Bioelectromagnetics. 39:200-216, 2018. © 2017 Wiley Periodicals, Inc., (© 2017 Wiley Periodicals, Inc.)

Published
2018
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18. Are Exposures to Multiple Frequencies the Key to Future Radiofrequency Research?

Author

Sienkiewicz Z, Calderón C, Broom KA, Addison D, Gavard A, Lundberg L, and Maslanyj M

Abstract

There is an extensive literature investigating possible effects of exposure to radiofrequency (RF) electromagnetic fields associated with mobile phone technologies. This has not identified any public health risks with any degree of certainty. Some epidemiological studies have observed associations between heavy users of mobile phones and some types of cancer, but animal studies do not support this association, although a few studies have reported increased tumor yields. However, there is a crucial difference between epidemiology studies and laboratory work in terms of signals investigated: most people are exposed to a complex mixture of frequencies and signals at varying intensities, whereas the majority of animal studies have been performed using a single frequency or intensity. Whether this might explain the differences in outcome will be discussed, and whether there is a need for additional laboratory investigations that reproduce more accurately realistic exposure conditions will be considered.

Published
2017
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19. Exposure to electromagnetic fields from smart utility meters in GB; part I) laboratory measurements.

Author

Peyman A, Addison D, Mee T, Goiceanu C, Maslanyj M, and Mann S

Subjects
Calibration, Humans, Radio Waves, Software, Uncertainty, Electricity, Electromagnetic Fields, Laboratories, Radiation Exposure analysis
Abstract

Laboratory measurements of electric fields have been carried out around examples of smart meter devices used in Great Britain. The aim was to quantify exposure of people to radiofrequency signals emitted from smart meter devices operating at 2.4 GHz, and then to compare this with international (ICNIRP) health-related guidelines and with exposures from other telecommunication sources such as mobile phones and Wi-Fi devices. The angular distribution of the electric fields from a sample of 39 smart meter devices was measured in a controlled laboratory environment. The angular direction where the power density was greatest was identified and the equivalent isotropically radiated power was determined in the same direction. Finally, measurements were carried out as a function of distance at the angles where maximum field strengths were recorded around each device. The maximum equivalent power density measured during transmission around smart meter devices at 0.5 m and beyond was 15 mWm -2 , with an estimation of maximum duty factor of only 1%. One outlier device had a maximum power density of 91 mWm -2 . All power density measurements reported in this study were well below the 10 W m -2 ICNIRP reference level for the general public. Bioelectromagnetics. 2017;38:280-294. © 2017 Crown copyright. BIOELECTROMAGNETICS © 2017 Wiley Periodicals, Inc., (© 2017 Crown copyright. BIOELECTROMAGNETICS © 2017 Wiley Periodicals, Inc.)

Published
2017
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20. Measurements of intermediate-frequency electric and magnetic fields in households.

Author

Aerts S, Calderon C, Valič B, Maslanyj M, Addison D, Mee T, Goiceanu C, Verloock L, Van den Bossche M, Gajšek P, Vermeulen R, Röösli M, Cardis E, Martens L, and Joseph W

Subjects
Belgium, Environmental Monitoring, Humans, Slovenia, United Kingdom, Electromagnetic Fields adverse effects, Environmental Exposure adverse effects, Housing, Lighting adverse effects, Magnetic Fields adverse effects
Abstract

Historically, assessment of human exposure to electric and magnetic fields has focused on the extremely-low-frequency (ELF) and radiofrequency (RF) ranges. However, research on the typically emitted fields in the intermediate-frequency (IF) range (300Hz to 1MHz) as well as potential effects of IF fields on the human body remains limited, although the range of household appliances with electrical components working in the IF range has grown significantly (e.g., induction cookers and compact fluorescent lighting). In this study, an extensive measurement survey was performed on the levels of electric and magnetic fields in the IF range typically present in residences as well as emitted by a wide range of household appliances under real-life circumstances. Using spot measurements, residential IF field levels were found to be generally low, while the use of certain appliances at close distance (20cm) may result in a relatively high exposure. Overall, appliance emissions contained either harmonic signals, with fundamental frequencies between 6kHz and 300kHz, which were sometimes accompanied by regions in the IF spectrum of rather noisy, elevated field strengths, or much more capricious spectra, dominated by 50Hz harmonics emanating far in the IF domain. The maximum peak field strengths recorded at 20cm were 41.5V/m and 2.7A/m, both from induction cookers. Finally, none of the appliance emissions in the IF range exceeded the exposure summation rules recommended by the International Commission on Non-Ionizing Radiation Protection guidelines and the International Electrotechnical Commission (IEC 62233) standard at 20cm and beyond (maximum exposure quotients EQ E 1.0 and E Q H 0.13)., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published
2017
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21. ELF exposure from mobile and cordless phones for the epidemiological MOBI-Kids study.

Author

Calderón C, Ichikawa H, Taki M, Wake K, Addison D, Mee T, Maslanyj M, Kromhout H, Lee AK, Sim MR, Wiart J, and Cardis E

Subjects
Brain radiation effects, Case-Control Studies, Child, Child Health, Computer Simulation, Environmental Exposure, Humans, Radiation Dosage, Radiation Monitoring, Telecommunications, Cell Phone instrumentation, Electromagnetic Fields adverse effects
Abstract

This paper describes measurements and computational modelling carried out in the MOBI-Kids case-control study to assess the extremely low frequency (ELF) exposure of the brain from use of mobile and cordless phones. Four different communication systems were investigated: Global System for Mobile (GSM), Universal Mobile Telecommunications System (UMTS), Digital Enhanced Cordless Telecommunications (DECT) and Wi-Fi Voice over Internet Protocol (VoIP). The magnetic fields produced by the phones during transmission were measured under controlled laboratory conditions, and an equivalent loop was fitted to the data to produce three-dimensional extrapolations of the field. Computational modelling was then used to calculate the induced current density and electric field strength in the brain resulting from exposure to these magnetic fields. Human voxel phantoms of four different ages were used: 8, 11, 14 and adult. The results indicate that the current densities induced in the brain during DECT calls are likely to be an order of magnitude lower than those generated during GSM calls but over twice that during UMTS calls. The average current density during Wi-Fi VoIP calls was found to be lower than for UMTS by 30%, but the variability across the samples investigated was high. Spectral contributions were important to consider in relation to current density, particularly for DECT phones. This study suggests that the spatial distribution of the ELF induced current densities in brain tissues is determined by the physical characteristics of the phone (in particular battery position) while the amplitude is mainly dependent on communication system, thus providing a feasible basis for assessing ELF exposure in the epidemiological study. The number of phantoms was not large enough to provide definitive evidence of an increase of induced current density with age, but the data that are available suggest that, if present, the effect is likely to be very small., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published
2017
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22. Prediction of RF-EMF exposure levels in large outdoor areas through car-mounted measurements on the enveloping roads.

Author

Aerts S, Joseph W, Maslanyj M, Addison D, Mee T, Colussi L, Kamer J, and Bolte J

Subjects
Automobiles, England, Netherlands, Spatial Analysis, Electromagnetic Fields, Radiation Exposure analysis, Radiation Monitoring methods, Radio Waves
Abstract

Knowledge of spatial and temporal trends in the environmental exposure to radiofrequency electromagnetic fields (RF-EMF) is a key prerequisite for RF-EMF risk assessment studies attempting to establish a link between RF-EMF and potential effects on human health as well as on fauna and flora. In this paper, we determined the validity of RF exposure modelling based on inner-area kriging interpolation of measurements on the surrounding streets. The results vary depending on area size and shape and structural factors; a Spearman coefficient of 0.8 and a relative error of less than 3.5dB are achieved on a data set featuring a closed measurement ring around a decently sized area (1km(2), with an average minimum distance of the encircled area to the ring of less than 100m), containing mainly low, detached buildings. In larger areas, additional inner-area sampling is advised, lowering the average minimum distance between sampled and interpolated locations to 100m, to achieve the same level of accuracy., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published
2016
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23. Do car-mounted mobile measurements used for radio-frequency spectrum regulation have an application for exposure assessments in epidemiological studies?

Author

Bolte JF, Maslanyj M, Addison D, Mee T, Kamer J, and Colussi L

Subjects
Ecology, Humans, Netherlands, Radiation Exposure adverse effects, United Kingdom, Cell Phone, Electromagnetic Fields, Environmental Monitoring instrumentation, Environmental Monitoring methods, Epidemiologic Studies, Radiation Exposure analysis, Radio Waves
Abstract

Knowing the spatial and temporal trends in environmental exposure to radiofrequency electromagnetic fields is important in studies investigating whether there are associated health effects on humans and ecological effects on plants and animals. The main objective of this study is to assess whether the RFeye car-mounted mobile measurement system used for radio frequency spectrum monitoring in The Netherlands and the United Kingdom could be of value in assessing exposure over large areas as an alternative to measuring exposure with personal exposure meters or using complex modelling techniques. We evaluated the responses of various body-worn personal exposure meters in comparison with the mobile measurement system for spectrum monitoring. The comparison was restricted to downlink mobile communication in the GSM900 and GSM1800 frequency bands. Repeated measurements were performed in three areas in Cambridge, United Kingdom and in three areas in Amersfoort, The Netherlands. We found that exposure assessments through the car-mounted measurements are at least of similar quality to exposure modelling and better than the body worn exposimeter data due to the absence of the shielding effect. The main conclusion is that the mobile measurements provide an efficient and low cost alternative particularly in mapping large areas., (Crown Copyright © 2015. Published by Elsevier Ltd. All rights reserved.)

Published
2016
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24. The MOBI-Kids Study Protocol: Challenges in Assessing Childhood and Adolescent Exposure to Electromagnetic Fields from Wireless Telecommunication Technologies and Possible Association with Brain Tumor Risk.

Author

Sadetzki S, Langer CE, Bruchim R, Kundi M, Merletti F, Vermeulen R, Kromhout H, Lee AK, Maslanyj M, Sim MR, Taki M, Wiart J, Armstrong B, Milne E, Benke G, Schattner R, Hutter HP, Woehrer A, Krewski D, Mohipp C, Momoli F, Ritvo P, Spinelli J, Lacour B, Delmas D, Remen T, Radon K, Weinmann T, Klostermann S, Heinrich S, Petridou E, Bouka E, Panagopoulou P, Dikshit R, Nagrani R, Even-Nir H, Chetrit A, Maule M, Migliore E, Filippini G, Miligi L, Mattioli S, Yamaguchi N, Kojimahara N, Ha M, Choi KH, Mannetje A', Eng A, Woodward A, Carretero G, Alguacil J, Aragones N, Suare-Varela MM, Goedhart G, Schouten-van Meeteren AA, Reedijk AA, and Cardis E

Abstract

The rapid increase in mobile phone use in young people has generated concern about possible health effects of exposure to radiofrequency (RF) and extremely low frequency (ELF) electromagnetic fields (EMF). MOBI-Kids, a multinational case-control study, investigates the potential effects of childhood and adolescent exposure to EMF from mobile communications technologies on brain tumor risk in 14 countries. The study, which aims to include approximately 1,000 brain tumor cases aged 10-24 years and two individually matched controls for each case, follows a common protocol and builds upon the methodological experience of the INTERPHONE study. The design and conduct of a study on EMF exposure and brain tumor risk in young people in a large number of countries is complex and poses methodological challenges. This manuscript discusses the design of MOBI-Kids and describes the challenges and approaches chosen to address them, including: (1) the choice of controls operated for suspected appendicitis, to reduce potential selection bias related to low response rates among population controls; (2) investigating a young study population spanning a relatively wide age range; (3) conducting a large, multinational epidemiological study, while adhering to increasingly stricter ethics requirements; (4) investigating a rare and potentially fatal disease; and (5) assessing exposure to EMF from communication technologies. Our experience in thus far developing and implementing the study protocol indicates that MOBI-Kids is feasible and will generate results that will contribute to the understanding of potential brain tumor risks associated with use of mobile phones and other wireless communications technologies among young people.

Published
2014
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25. Assessment of extremely low frequency magnetic field exposure from GSM mobile phones.

Author

Calderón C, Addison D, Mee T, Findlay R, Maslanyj M, Conil E, Kromhout H, Lee AK, Sim MR, Taki M, Varsier N, Wiart J, and Cardis E

Subjects
Algorithms, Electric Power Supplies, Europe, Cell Phone instrumentation, Magnetic Fields
Abstract

Although radio frequency (RF) electromagnetic fields emitted by mobile phones have received much attention, relatively little is known about the extremely low frequency (ELF) magnetic fields emitted by phones. This paper summarises ELF magnetic flux density measurements on global system for mobile communications (GSM) mobile phones, conducted as part of the MOBI-KIDS epidemiological study. The main challenge is to identify a small number of generic phone models that can be used to classify the ELF exposure for the different phones reported in the study. Two-dimensional magnetic flux density measurements were performed on 47 GSM mobile phones at a distance of 25 mm. Maximum resultant magnetic flux density values at 217 Hz had a geometric mean of 221 (+198/-104) nT. Taking into account harmonic data, measurements suggest that mobile phones could make a substantial contribution to ELF exposure in the general population. The maximum values and easily available variables were poorly correlated. However, three groups could be defined on the basis of field pattern indicating that manufacturers and shapes of mobile phones may be the important parameters linked to the spatial characteristics of the magnetic field, and the categorization of ELF magnetic field exposure for GSM phones in the MOBI-KIDS study may be achievable on the basis of a small number of representative phones. Such categorization would result in a twofold exposure gradient between high and low exposure based on type of phone used, although there was overlap in the grouping., (© 2013 Wiley Periodicals, Inc.)

Published
2014
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26. A precautionary public health protection strategy for the possible risk of childhood leukaemia from exposure to power frequency magnetic fields.

Author

Maslanyj M, Lightfoot T, Schüz J, Sienkiewicz Z, and McKinlay A

Subjects
Adolescent, Child, Dose-Response Relationship, Radiation, Humans, Leukemia, Radiation-Induced prevention & control, Odds Ratio, Radio Waves adverse effects, Risk Assessment methods, Risk Factors, Electromagnetic Fields adverse effects, Leukemia, Radiation-Induced epidemiology, Public Health
Abstract

Background: Epidemiological evidence showing a consistent association between the risk of childhood leukaemia and exposure to power frequency magnetic fields has been accumulating. This debate considers the additional precautionary intervention needed to manage this risk, when it exceeds the protection afforded by the exposure guidelines as recommended by the International Commission on Non-Ionizing Radiation Protection., Methods: The Bradford-Hill Criteria are guidelines for evaluating the scientific evidence that low frequency magnetic fields cause childhood leukaemia. The criteria are used for assessing the strength of scientific evidence and here have been applied to considering the strength of evidence that exposures to extremely low frequency magnetic fields may increase the risk of childhood leukaemia. The applicability of precaution is considered using the risk management framework outlined in a European Commission (EC) communication on the Precautionary Principle. That communication advises that measures should be proportionate, non-discriminatory, consistent with similar measures already taken, based on an examination of the benefits and costs of action and inaction, and subject to review in the light of new scientific findings., Results: The main evidence for a risk is an epidemiological association observed in several studies and meta-analyses; however, the number of highly exposed children is small and the association could be due to a combination of selection bias, confounding and chance. Corroborating experimental evidence is limited insofar as there is no clear indication of harm at the field levels implicated; however, the aetiology of childhood leukaemia is poorly understood. Taking a precautionary approach suggests that low-cost intervention to reduce exposure is appropriate. This assumes that if the risk is real, its impact is likely to be small. It also recognises the consequential cost of any major intervention. The recommendation is controversial in that other interpretations of the data are possible, and low-cost intervention may not fully alleviate the risk., Conclusions: The debate shows how the EC risk management framework can be used to apply the Precautionary Principle to small and uncertain public health risks. However, despite the need for evidence-based policy making, many of the decisions remain value driven and therefore subjective.

Published
2010
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27. Power frequency magnetic fields and risk of childhood leukaemia: misclassification of exposure from the use of the 'distance from power line' exposure surrogate.

Author

Maslanyj M, Simpson J, Roman E, and Schüz J

Subjects
Child, Electromagnetic Fields, Germany, Housing, Humans, Risk, Risk Assessment, Risk Factors, United Kingdom, Electric Power Supplies adverse effects, Environmental Exposure adverse effects, Leukemia epidemiology, Neoplasms, Radiation-Induced epidemiology
Abstract

A recent study examining the relationship between distance to nearby power lines and childhood cancer risk re-opened the debate about which exposure metrics are appropriate for power frequency magnetic field investigations. Using data from two large population-based UK and German studies we demonstrate that distance to power lines is a comparatively poor predictor of measured residential magnetic fields. Even at proximities of 50 m or less, the positive predictive value of having a household measurement over 0.2 microT was only 19.4%. Clearly using distance from power lines, without taking account of other variables such as load, results in a poor proxy of residential magnetic field exposure. We conclude that such high levels of exposure misclassification render the findings from studies that rely on distance alone uninterpretable., ((c) 2008 Wiley-Liss, Inc.)

Published
2009
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28. Investigation of the sources of residential power frequency magnetic field exposure in the UK Childhood Cancer Study.

Author

Maslanyj MP, Mee TJ, Renew DC, Simpson J, Ansell P, Allen SG, and Roman E

Subjects
Child, Electric Power Supplies, Electric Wiring, Housing, Humans, Magnetics adverse effects, Public Health, Electromagnetic Fields adverse effects, Environmental Exposure adverse effects, Leukemia, Radiation-Induced etiology
Abstract

There is an unexplained association between exposure to the magnetic fields arising from the supply and use of electricity, and increase in risk of childhood leukaemia. The UK Childhood Cancer Study (UKCCS) provides a large and unique source of information on residential magnetic field exposure in the UK. The purpose of this supplementary study was to investigate a sample of UKCCS homes in order to identify the particular sources that contribute to elevated time-averaged exposure. In all, 196 homes have been investigated, 102 with exposures estimated on the basis of the original study to be above 0.2 microT, and 21 higher than 0.4 microT, a threshold above which a raised risk has been observed. First, surveys were carried out outside the property boundaries of all 196 study homes, and then, where informed consent had been obtained, assessments were conducted inside the properties of 19 homes. The study found that low-voltage (LV) sources associated with the final electricity supply accounted together for 77% of exposures above 0.2 microT, and 57% of those above 0.4 microT. Most of these exposures were linked to net currents in circuits inside and/or around the home. High-voltage (HV) sources, including the HV overhead power lines that are the focus of public concern, accounted for 23% of the exposures above 0.2 microT, and 43% of those above 0.4 microT. Public health interest has focused on the consideration of precautionary measures that would reduce exposure to power frequency magnetic fields. Our study provides a basis for considering the options for exposure mitigation in the UK. For instance, in elevated-exposure homes where net currents are higher than usual, if it is possible to reduce the net currents, then the exposure could be reduced for a sizeable proportion of these homes. Further investigations would be necessary to determine whether this is feasible.

Published
2007
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29. Assessing occupational and domestic ELF magnetic field exposure in the uk adult brain tumour study: results of a feasibility study.

Author

van Tongeren M, Mee T, Whatmough P, Broad L, Maslanyj M, Allen S, Muir K, and McKinney P

Subjects
Activities of Daily Living, Adult, Body Burden, Brain Neoplasms epidemiology, Case-Control Studies, Environmental Exposure analysis, Environmental Exposure statistics & numerical data, Epidemiological Monitoring, Feasibility Studies, Female, Humans, Male, Neoplasms, Radiation-Induced epidemiology, Radiation Dosage, Radiation Protection methods, Risk Assessment methods, Risk Factors, United Kingdom epidemiology, Electromagnetic Fields, Environmental Monitoring methods, Environmental Monitoring statistics & numerical data, Occupational Exposure analysis, Occupational Exposure statistics & numerical data, Radiometry methods, Radiometry statistics & numerical data
Abstract

The feasibility of measuring exposure to extremely low frequency magnetic fields (ELF MF) in the UK Adult Brain Tumour Study (UKABTS) was examined. During the study, 81 individuals and 30 companies were approached with 79 individuals and 25 companies agreeing to participate. Exposure data were collected using EMDEX II dosemeters worn by the participants for 3-4 consecutive days. Data were collected over a total of 321 d, including non-occupational periods. The results showed occupational exposure to be the main determinant of overall exposure. Moderate to strong correlations were found between arithmetic mean exposure and all other metrics with the possible exception of maximum exposure. Significant differences in exposure were found between job categories with large variability in certain categories. Highest average exposures were found for security officers (arithmetic mean, AM: 0.78 micro T), secretaries (AM: 0.48 micro T) and dentists (AM: 0.42 micro T). Welding and working near high-voltage power lines were associated with elevated exposure. In summary, acceptably precise measures of ELF MF exposure are feasible at relatively moderate cost. The results were used to develop a protocol for data collection from subjects in the UKABTS.

Published
2004
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