SciELO - Scientific Electronic Library Online

vol.13 issue3Health surveillance in the Brazilian health policies and the constructions of the identity of the health workers (1976-1999)Quantum bioethics: ethics for all beings author indexsubject indexarticles search
Home Pagealphabetic serial listing  

Services on Demand




Related links


Ciência & Saúde Coletiva

Print version ISSN 1413-8123On-line version ISSN 1678-4561

Ciênc. saúde coletiva vol.13 no.3 Rio de Janeiro May/June 2008 



Source of funding and results of studies of health effects of mobile phone use: systematic review of experimental studies


Fonte de financiamento e resultados de estudos sobre os efeitos do uso do telefone celular à saúde: revisão sistemática de estudos experimentais



Anke HussI; Matthias EggerI, II; Kerstin HugIII; Karin Huwiler-MüntenerI; Martin RöösliI

IDepartment of Social and Preventive Medicine, University of Berne. Finkenhubelweg 11, University of Berne, Switzerland.
IIDepartment of Social Medicine, University of Bristol, United Kingdom
IIIInstitute of Social and Preventive Medicine, University of Basle, Switzerland




There is concern regarding the possible health effects of cellular telephone use. We conducted a systematic review of studies of controlled exposure to radiofrequency radiation with health-related outcomes (electroencephalogram, cognitive or cardiovascular function, hormone levels, symptoms, and subjective well-being). We searched Embase, Medline, and a specialist database in February 2005 and scrutinized reference lists from relevant publications. Data on the source of funding, study design, methodologic quality, and other study characteristics were extracted. The primary outcome was the reporting of at least one statistically significant association between the exposure and a health-related outcome. Data were analyzed using logistic regression models. Of 59 studies, 12 (20%) were funded exclusively by the telecommunications industry, 11 (19%) were funded by public agencies or charities, 14 (24%) had mixed funding (including industry), and in 22 (37%) the source of funding was not reported. Studies funded exclusively by industry reported the largest number of outcomes, but were least likely to report a statistically significant result. The interpretation of results from studies of health effects of radiofrequency radiation should take sponsorship into account.

Key words: Electromagnetic fields, Financial conflicts of interest, Human laboratory studies, Mobile phones


Foi realizada uma revisão sistemática de estudos de exposição controlada à radiação de radiofreqüência com resultados relacionados à saúde (eletroencefalograma, função cognitiva ou cardiovascular, níveis hormonais, sintomas e bem-estar subjetivo). Foram pesquisados o Embase, Medline e um banco de dados especializado e analisadas listas de referências de publicações relevantes. Foram extraídos dados sobre a fonte de financiamento, desenho do estudo, qualidade metodológica e outras características do estudo. A principal descoberta foi o relato de pelo menos uma associação estatisticamente significativa entre a exposição e um resultado relacionado à saúde. Os dados foram analisados usando-se modelos de regressão logística. De 59 estudos, 12 (20%) foram financiados exclusivamente pela indústria de telecomunicação, 11 (19%), por órgãos públicos ou de caridade, 14 (24%) tiveram financiamentos combinados (inclusive da indústria) e em 22 (37%) a fonte de financiamento não foi notificada. Os estudos financiados exclusivamente pela indústria tiveram o maior número de resultados, mas menos propensão a relatar um resultado significativo. A interpretação dos resultados dos estudos sobre os efeitos da radiação de radiofreqüência à saúde deve levar em conta o patrocínio.

Palavras-chave: Campos eletromagnéticos, Conflitos de interesse financeiro, Estudos laboratoriais, Telefones celulares



The use of mobile telephones has increased rapidly in recent years. The emission of low level radiofrequency electromagnetic fields leading to the absorption of radiation by the brain in users of handheld mobile phones has raised concerns regarding potential effects on health1. However, the studies examining this issue have produced conflicting results, and there is ongoing debate on this issue2,3. Many of the relevant studies have been funded by the telecommunications industry, and thus may have resulted in conflicts of interest4. Recent systematic reviews of the influence of financial interests in medical research concluded that there is a strong association between industry sponsorship and pro-industry conclusions5,6. This association has not been examined in the context of the studies of potential adverse effects of mobile phone use. We performed a systematic review and analysis of the literature to examine whether industry involvement is associated with the results and methodologic quality of studies.



We searched Embase ( and Medline in February 2005. Key and free text words included "cell(ular)," "mobile," "(tele)phone(s)" in connection with "attention," "auditory," "bioelectric," "brain physiology," "cardiovascular," "cerebral," "circulatory," "cognitive," "EEG," "health complaint(s)," "hearing," "heart rate," "hormone(s)," "learning," "melatonin," "memory," "neural," "neurological," "nervous system," "reaction," "visual," "symptom(s)," or "well-being." The search was complemented with references from a specialist database7 and by scrutinizing reference lists from the relevant publications. Articles published in English, German, or French were considered.

We included original articles that reported studies of the effect of controlled exposure with radiofrequency radiation on health related outcomes ["human laboratory studies" in World Health Organization (WHO) terminology8]. Health-related outcomes included electroencephalogram (EEG) recordings, assessments of cognitive or cardiovascular function, hormone levels, and subjective well-being and symptoms. We excluded studies of the risk of using mobile phones when driving a motor vehicle or operating machinery as well as studies on electromagnetic field (EMF) incompatibilities (e.g. pacemakers or hearing aids). Three of us (AH, KH, MR) independently extracted data on the source of funding (industry, public or charity, mixed, not reported) and potential confounding factors, including study design (crossover, parallel, other), exposure (frequency band, duration, field intensity, and location of antenna), and methodologic and reporting quality. Four dimensions of quality were assessed8,9: a) randomized, concealed allocation of study participants in parallel or crossover trials; b) blinding of participants and investigators to allocation group; c) reporting of the specific absorption rate (SAR; watts per kilogram tissue) from direct measurement using a phantom head or three-dimensional dosimetric calculations ("appropriate exposure setting"); d) appropriate statistical analysis. For each item, studies were classified as adequate or inadequate/unclear.

The primary outcome was the reporting of at least one statistically significant (p < 0.05) association between radiofrequency exposure and a health-related outcome. The message in the title was also assessed. We distinguished among neutral titles [e.g., "Human brain activity during exposure to radiofrequency fields emitted by cellular phones"10], titles indicating an effect of radiation [e.g., "Exposure to pulsed high-frequency electromagnetic field during waking affects human sleep EEG"11], and titles stating that no effect was shown [e.g., "No effect on cognitive function from daily mobile phone use"12]. Finally, authors' declaration of conflicts of interest (present, absent) and affiliations (industry, other) were recorded.

Differences in data extracted by AH, KH, and MR were resolved in the group, with the senior epidemiologist (MR) acting as the arbiter. In addition, two of us (KHM, ME), who were kept blind to funding source, authors, and institutions, repeated extraction of data from abstracts and assessments of titles. Differences in data extracted by KHM and ME were resolved with the senior epidemiologist (ME) acting as the arbiter. Based on the abstracts, we assessed whether authors interpreted their study results as showing an effect of low-level radiofrequency radiation, as showing no effect, or as indicating an unclear finding. We used logistic regression models to assess whether the source of funding was associated with the reporting of at least one significant effect in the article (including the abstract). We examined the influence of potential confounders, such as the total number of outcomes that were reported in the article, the type of study (crossover, parallel, other), the four dimensions of study quality (adequate or not adequate/unclear), exposure conditions (position of the antenna next to the ear compared with other locations; use of the 900-MHz band compared with other bands; duration of exposure in minutes), as well as the type of outcome (e.g., cognitive function tests: yes vs. no). Variables were entered one at a time and, given the limited number of studies, models were adjusted for one variable only. Results are reported as odds ratios (ORs) with 95% confidence intervals (CIs). All analyses were carried out in Stata (version 8.2; StataCorp., College Station, TX, USA).



We identified 222 potentially relevant publications and excluded 163 studies that did not meet inclusion criteria (Figure 1). We excluded one study that had been funded by a company producing "shielding" devices that reduce EMF exposure13. A total of 59 studies were included: 12 (20%) were exclusively funded by the telecommunications industry, 11 (19%) were funded by public agencies or charities, 14 (24%) had mixed funding (including industry and industry-independent sources), and in 22 (37%) studies the source of funding was not reported. None of 31 journals published a statement on possible conflicts of interest of the 287 authors listed in the bylines. Five (8%) studies had authors with industry affiliation. All studies except two (3%) were published in journals that use peer review, and one was published in a journal supplement. The bibliographic references are given in the Supplemental Material ( ). Blinded and open extraction of data yielded identical results with respect to the reporting of statistically significant effects in the abstract and the message of the title. Study characteristics are shown in Table 1.

All studies were published during 1995-2005, with the number of publications increasing from one to two publications per year to 11 publications in 2004. Median year of publication was 1998 for industry-funded studies, 2002 for public or charity funding and studies with mixed funding sources, and 2003 for studies that did not report their funding source. The median size of all the studies was small (20 study participants); most studies (n = 32, 54%) were of a crossover design and mimicked the exposure situation during a phone call, using the 900-MHz band with the antenna located close to the ear. Exposure duration ranged from 3 to 480 min, with a median of 33 minutes. Thirty-three (59%) studies measured outcomes during exposure, 14 (24%) postexposure, and 12 (20%) at both times. Thirty-nine (66%) studies prevented selection bias with adequate randomization; 15 (25%) blinded both participants and assessors; in 18 (31%) the field intensity had been assessed appropriately, with SAR values ranging from 0.03 to 2 W/kg tissue. Finally, in 14 (24%) studies we considered the statistical analysis to be adequate. Study quality varied by source of funding: Studies with mixed funding (including public agencies or charities and industry) had the highest quality, whereas studies with no reported source of funding did worst (Table 1).

Forty (68%) studies reported one or more statistically significant results (p < 0.05) indicating an effect of the exposure (Table 2). Studies funded exclusively by industry reported on the largest number of outcomes but were less likely to report statistically significant results: The OR for reporting at least one such result was 0.11 (95% CI, 0.020.78), compared with studies funded by public agencies or charities (Table 3). This finding was not materially altered in analyses adjusted for the number of outcomes reported, study design and quality, exposure characteristics, or outcomes [Table 3; see Supplemental Material, Table 1 (]. Similar results were obtained when restricting analyses to results reported in abstracts (OR = 0.29; 95% CI, 0.05-1.59) or on the conclusions in the abstract (OR = 0.10, 95% CI, 0.009-1.10). Thirty-seven (63%) studies had a neutral title, 11 (19%) a title reporting an effect, and 11 (19%) a title reporting no effect (Table 2).



We examined the methodologic quality and results of experimental studies investigating the effects of the type of radiofrequency radiation emitted by handheld cellular telephones. We hypothesized that studies would be less likely to show an effect of the exposure if funded by the telecommunications industry, which has a vested interest in portraying the use of mobile phones as safe. We found that the studies funded exclusively by industry were indeed substantially less likely to report statistically significant effects on a range of end points that may be relevant to health. Our findings add to the existing evidence that single-source sponsorship is associated with outcomes that favor the sponsors' products5,14-16. Most previous studies of this issue were based on studies of the efficacy and cost-effectiveness of drug treatments. A recent systematic review and meta-analysis showed that studies sponsored by the pharmaceutical industry were approximately four times more likely to have outcomes favoring the sponsor's drug than studies with other sources of funding15. The influence of the tobacco industry on the research it funded has also been investigated17-19. To our knowledge, this is the first study to examine this issue in the context of exposure to radiofrequency electromagnetic fields. Our study has several limitations. We restricted our analysis to human laboratory studies. This resulted in a more homogenous set of studies, but may have reduced the statistical power to demonstrate or exclude smaller associations. The WHO has identified the need for further studies of this type to clarify the effects of radiofrequency exposure on neuroendocrine, neurologic, and immune systems20. We considered including epidemiologic studies but found that practically all of them were publicly funded. The study's primary outcome - the reporting of statistically significant associations - is a crude measure that ignores the size of reported effects. However, we found the same trends when assessing the authors' conclusions in the abstracts. Although we have shown an association between sponsorship and results, it remains unclear which type of funding leads to the most accurate estimates of the effects of radiofrequency radiation. For example, if researchers with an environmentalist agenda are more likely to be funded by public agencies or charities, then their bias may result in an overestimation of effects. Interestingly, studies with mixed funding were of the highest quality. The National Radiological Protection Board21 reviewed studies of health effects from radiofrequency (RF) fields and concluded that scientific evidence regarding effects of RF field exposure from mobile phones on human brain activity and cognitive function [] has included results both supporting and against the hypothesis of an effect. We found that the source of funding explains some of the heterogeneity in the results from different studies. The association was robust and little affected by potential confounding factors such as sample size, study design, or quality. Possible explanations for the association between source of funding and results have been discussed in the context of clinical research sponsored by the pharmaceutical industry5,15, 22. The association could reflect the selective publication of studies that produced results that fitted the sponsor's agenda. Sponsors might influence the design of the study, the nature of the exposure, and the type of outcomes assessed. In multivariate logistic regression analysis, the only factor that strongly predicted the reporting of statistically significant effects was whether or not the study was funded exclusively by industry. We stress that our ability to control for potential confounding factors may have been hampered by the incomplete reporting of relevant study characteristics. Medical and science journals are implementing policies that require authors to disclose their financial and other conflicts of interest. None of the articles examined here included such a statement, in line with a survey of science and medical journals that showed that adopting such policies does not generally lead to the publication of disclosure statements23. A review of 2005 instructions to authors showed that 15 (48%) of the 31 journals included in our study had conflict of interest policies. Our results support the notion that disclosure statements should be published, including statements indicating the absence of conflicts of interest. The role of the funding source in the design, conduct, analysis, and reporting of the study should also be addressed. There is widespread concern regarding the possible health effects associated with the use of cellular phones, mobile telephone base stations, or broadcasting transmitters. Most (68%) of the studies assessed here reported biologic effects. At present it is unclear whether these biologic effects translate into relevant health hazards. Reports from national and international bodies have recently concluded that further research efforts are needed, and dedicated research programs have been set up in the United States, Germany, Denmark, Hungary, Switzerland, and Japan. Our study indicates that the interpretation of the results from existing and future studies of the health effects of radiofrequency radiation should take sponsorship into account.



1. Rothman KJ. Epidemiological evidence on health risks of cellular telephones. Lancet 2000; 356:1837-1840.         [ Links ]

2. Ahlbom A, Green A, Kheifets L, Savitz D, Swerdlow A. Epidemiology of health effects of radiofrequency exposure. Environ Health Perspect 2004; 112:1741-1754.         [ Links ]

3. Feychting M, Ahlbom A, Kheifets L. EMF and health. Annu Rev Public Health 2005; 26:165-189.         [ Links ]

4. Thompson DF. Understanding financial conflicts of interest. N Engl J Med 1993; 329:573-576.         [ Links ]

5. Bekelman JE, Li Y, Gross CP. Scope and impact of financial conflicts of interest in biomedical research: a systematic review. JAMA 2003; 289:454-465.         [ Links ]

6. Yaphe J, Edman R, Knishkowy B, Herman J. The association between funding by commercial interests and study outcome in randomized controlled drug trials. Fam Pract 2001; 18:565-568.         [ Links ]

7. ELMAR. Dokumentationsstelle ELMAR, Elektromagnetische Strahlung und Gesundheit. 2005. [accessed 10 February 2005]. Available:        [ Links ]

8. Repacholi MH. Low-level exposure to radiofrequency electromagnetic fields: health effects and research needs. Bioelectromagnetics 1998; 19:1-19.         [ Links ]

9. Jüni P, Altman DG, Egger M. Systematic reviews in health care: assessing the quality of controlled s. BMJ 2001; 323:42-46.         [ Links ]

10. Hietanen M, Kovala T, Hamalainen AM. Human brain activity during exposure to radiofrequency fields emitted by cellular phones. Scand J Work Environ Health 2000; 26:87-92.         [ Links ]

11. Huber R, Graf T, Cote KA, Wittmann L, Gallmann E, Matter D, Schuderer J, Kuster N, Borbély AA, Achermann P. Exposure to pulsed high-frequency electromagnetic field during waking affects human sleep EEG. Neuroreport 2000; 11:3321-3325.         [ Links ]

12. Besset A, Espa F, Dauvilliers Y, Billiard M, de Seze R. No effect on cognitive function from daily mobile phone use. Bioelectromagnetics 2005; 26:102-108.         [ Links ]

13. Croft RJ, Chandler JS, Burgess AP, Barry RJ, Williams JD, Clarke AR. Acute mobile phone operation affects neural function in humans. Clin Neurophysiol 2002; 113:1623-1632.         [ Links ]

14. Davidson R. Source of funding and outcome of s. J Gen Intern Med 1986; 1:155-158.         [ Links ]

15. Lexchin J, Bero LA, Djulbegovic B, Clark O. Pharmaceutical industry sponsorship and research outcome and quality: Systematic review. BMJ 2003; 326:1167-1170.         [ Links ]

16. Stelfox H, Chua G, O'Rourke K, Detsky A. Conflict of interest in the debate over calcium-channel antagonists. N Engl J Med 1998; 338:101-106.         [ Links ]

17. Barnes D, Bero L. Industry-funded research and conflict of interest: an analysis of research sponsored by the tobacco industry through the center for indoor air research. J Health Polit Policy Law 1996; 21:515-542.         [ Links ]

18. Barnes D, Bero L. Why review articles on the health effects of passive smoking reach different conclusions. JAMA 1998; 279:1566-1570.         [ Links ]

19. Bero L. Tobacco industry manipulation of research. Public Health Rep 2005; 120:200-208.         [ Links ]

20. Foster KR, Repacholi MH. Biological effects of radiofrequency fields: does modulation matter? Radiat Res 2004; 162:219-225.         [ Links ]

21. National Radiological Protection Board. Health effects from radiofrequency electromagnetic fields. Report of an independent advisory group on non-ionising radiation. 2004. Documents of the NRPB 14(2):1177. [accessed 2006 July 3].Available: of_nrpb/pdfs/doc_14_2.pdf        [ Links ]

22. Baker C, Johnsrud M, Crismon M, Rosenheck R, Woods S. Quantitative analysis of sponsorship bias in economic studies of antidepressants. Br J Psychiatry 2003; 183:498-506.         [ Links ]

23. Krimsky S, Rothenberg L. Conflict of interest policies in science and medical journals: Editorial practices and author disclosures. Sci Eng Ethics 2001; 7:205-218.         [ Links ]



This article was originally published by the journal Environmental Health Perspectives (115:14 (2007). doi:10.1289/ehp.9149 available via [Online 15 September 2006] and is part of the scientific collaboration between Rev CS Col and EHP. Supplemental material is available online ( This study was funded by intramural funds of the Department of Social and Preventive Medicine, University of Berne, Switzerland. The authors declare they have no competing financial interests.

Creative Commons License All the contents of this journal, except where otherwise noted, is licensed under a Creative Commons Attribution License