Wednesday, October 5, 2011

Smart Meters & Cell Phones: News to remember!

Please distribute this link as widely as possible and to your regional and nationational media

NEWS to remember
Assessment of Radiofrequency Microwave Radiation Emissions from Smart Meters
Source: Sage Associates




How Smart Meters Work
Purpose of this Report
Conditions that Affect Radiofrequency Radiation Levels from Meters
Framing Questions


Mesh Network
Smart Meter(s) and collector meters
Power Transmitters



FCC Bulletin OET 65 G
uidelines (Time-Averaging Limits)
ANSI/IEEE C95.1-1992, 1999 (Peak Power Limits)


RF Studies

Seletun Scientific Statement


San Francisco cell phone ordinance is now in effect October 2011

The San Francisco Department of the Environment announced today that the nation's first cell phone ordinance is now in effect. The Department will conduct extensive outreach in October to distribute materials and educate local cell phone retailers about the ordinance. Retailer compliance with the ordinance is required by the end of October 2011.


Mobile phones and cancer risks
Scientists manipulated research – played down brain tumour risks in children.
A new industry-sponsored study on brain tumour risks in children who use mobile phones was presented to the media in July 2011. The press-release claimed that the results were "reassuring" whereas the study itself indicated an increased risk. Apart from playing down the results, there is evidence that the scientists also manipulated the research in order to underestimate the risks, especially of cordless phones.

The CEFALO study on the possible link between brain tumours and mobile phone use among children showed an increased risk for children and adolescents who used a mobile phoneregularly.(1) – Cefalo indicates in fact significantly increased risks, and the risks increase with increased use, says the Swedish oncologist and epidemiologist Lennart Hardell one of the experts who participated in the recent WHO evaluation on mobile phone radiation and cancer.

The increased risks of which some were statistically significant are mentioned neither by the Cefalo scientists Martin Röösli and Maria Feychting, nor by the Journal of the National Cancer Institute (JNCI). Their press-releases give reassuring messages as if no risk had been observed. – Results are reassuring because they are non-significant and thus are compatible with chance, states for example Martin Röösli. (2) This interpretation of non-significant results differs from normal, straightforward presentations like the one a Norwegian Cefalo researcher put forward in 2005: "We found an elevated risk for residential exposure to magnetic fields and brain tumours, although the risk was not significant". (3) It is also noteworthy that the JNCI let a consultant from the International Epidemiology Institute (IEI) express the reassuring message in their press-release. IEI has been identified as a product-defence firm.(4)

Other intriguing facts about the Cefalo study include the small size of the sample, the low interest in other sources of non-ionizing radiation (EMF) that the children might have been exposed to, and the incomplete study of the impact of cordless phones. Mobile and cordless phones emit the same kind of radiation, and were both taken into consideration by the WHO evaluation mentioned above. Martin Röösli, the coordinator of Cefalo and a board member of the industry funded Swiss Research Foundation on Mobile communication gives the following explanation of why the Cefalo team only studied the first three years of cordless phone use: – You cannot prove all hypotheses with one study, unless you make a very long interview.

This is puzzling as the Cefalo questionnaire was rather long (267 questions) and Röösli was aware of the role of cordless phones as shows the following quotation :"Mobile and cordless phone radiation is an important exposure source".(2) A large number of questions treated confounding factors including the test persons' contacts with cigarette smoke (38 questions), snakes and goats. Only five questions focused on cordless phones. According to Röösli one of them was: "How often did (child) speak on cordless phone in the first 3 years he/she used it regularly? Curiously, the questionnaire sent to the Karolinska Institute's ethical review board in 2005 did not include this question, but one that was not restricted to the first 3 years of use: "How often does (child) speak on a cordless phone? (calling and receiving altogether)".(5) Why and when did the Cefalo scientists decide to limit the study of cordless phone use, and is this methodologically and ethically acceptable? – Restricting the study to the first three years of use will lead to an underestimation of risks. We know that telephone use increase with age and that teenagers talk more than children, says Lennart Hardell.

The elusive press-releases and the sudden restriction of cordless phone use have raised suspicions of an intentional underestimation of the health risks. Professor Joel Moscowitz, Director of Center for Family and Community Health, School of Public Health University of California, questions the conclusions of the Cefalo scientists and the IEI, and claims that the study was biased. His conclusion finds support in recent history. Several studies reveal that it has become a widespread practice to use outcome-oriented science to create doubt in order to postpone regulation and protect the manufacturers.(6)

The manufacturer that would be protected in this case is the mobile phone industry. "Any perceived risk or new scientific findings of adverse health effects of mobile communication devices and equipment could adversely affect us through a reduction in sales or through liability claims."(7) The mobile phone industry's interest groups are very active in Brussels and Washington, they are also investing huge amounts in research on health effects, including the Cefalo study. A large majority of the industry-sponsored studies conclude that EMF radiation is harmless, while most independent studies conclude that there is a risk.(8)

Cefalo might have been designed to play down risks, but instead of challenging the findings of the international Interphone group and the Swedish Hardell group, it reconfirms them. These studies made IARC, the cancer research agency of the World Health Organisation, classify mobile phone radiation as "possibly carcinogenic" in May 2011.

There is now more than enough evidence for an application of the precautionary principle according to the International EMF Alliance, a public interest NGO representing some 60 grassroots organisations advocating for a regulation and a reduction of electro-pollution. – The irrational "zero-risk" interpretation of the Cefalo scientists creates doubts and could postpone preventive measures and cause unnecessary suffering. "Mobile phone use has increased massively among children and teenagers the last decade, and even a small increase of brain tumour risks is of great concern", says Alex Swinkels, IEMFA board member.

Referernces 1 The Cefalo study : HYPERLINK ""
2 Email from Martin Röösli to Mona Nilsson
3 Lars Klaebo et al
4 George Carlo.: The Latest Reassurance Ruse about Cell phones and Cancer; J. Aust. Coll. & Env. Med., 2007
5 Karolinska Institutets Etikprövningsnämnd: 2005/1562-31
6 David Michaels; Doubt is their product 2008, TO. McGarity, WE. Wagner, Bending Science, 2008,
7 Ericsson's annual report 2010.
8 Huss A et al. Source of funding and results of studies of health effects of mobile phone use. Environ Health Perspect. 2007 Jan;115(1):1-4.

Text: Kerstin Stenberg & Mona Nilsson2

CEFALO FACTS Sample: Cefalo included 352 children aged 7–19 who were diagnosed with a brain tumour, in the period 2004– 2008 in Sweden, Denmark, Norway and Switzerland, and 646 controls. Results: Almost all tables indicate an increased risk. The risk was 36% higher for children and adolescents who used mobile phones regularly. (OR 1,36, CI 0,92-2,02). The risk was amplified by a longer latency time and was more than twice as high (+115%) for children for whom the longest time had elapsed since they received their first mobile phone subscription. (OR 2,15, CI 1,07-4,29).
Statistical significance: The odds ratio (OR) measures the odds of an event occurring in a group compared to a control group. Positive results are considered to be statistically significant when the entire confidence interval (CI) is above 1. The doubled risk mentioned above is thus significant. Funding: Partly financed by the industry funded Swiss Research Foundation on Mobile communication
Read the full story.


2011 International Scientific Conference on EMF and Health
Wednesday 16 November and Thursday 17 November 2011, Charlemagne Building, Brussels

Day I: Wednesday 16 November 2011
08:30 Conference registration
09:00 Welcome, Willem Penning, European Commission DG SANCO
09:10 Scope of the conference, Matts-Olof Mattsson, Austrian Institute of Technology, Seibersdorf
09:20 Setting the scene – Views from the European Parliament, Michèle Rivasi, MEP Greens

Session 1:
Introduction, Horizontal topics, General outline
Chair: Peter Achermann, University of Zürich, Switzerland Rapporteur: Theodoros Samaras, Aristotle University of Thessaloniki, Greece
09:30 What is Health Risk Assessment? What are the different disciplines contributing to this subject area? Chris Portier, US Center for Disease Control
10:00 Fundamental physics of interaction – what are Electromagnetic Fields, how do they interact with body, what are the limits/restrictions? Phil Chadwick, MCL Technology Ltd.
10:30 Coffee break
Exposure assessment, dosimetry –– what does it mean for the different types of studies?
Consists of 2 presentations
10:50 1. Experimental studies, Georg Neubauer, Austrian Institute of Technology GmbH
11:20 2. Epidemiological studies, Simon Mann, UK Health Protection Agency

Session 2:
The main sources of uncertainty in EMF health research and how they are addressed?
Chair: Simon Mann, UK Health Protection Agency Rapporteur: Rüdiger Matthes, German Federal Office for Radiation Protection
11:50 Introduction to the session: Are EMF special in generating uncertainty in the interpretation of research results? Simon Mann, UK Health Protection Agency
11:55 In epidemiology, Exposure-Dose, Joachim Schüz, International Agency for Research on Cancer
12:25 Laboratory studies (in animal studies, in vitro studies and in human experimental studies), Carmela Marino, ENEA, Italy
12:55 Discussion on the sources of uncertainty

Session 3:
Current state of knowledge – Where are the areas of scientific consensus (consistency, coherence)
Chair: Emilie Van Deventer, World Health Organization Rapporteur: Martin Röösli, University of Basel, Switzerland
14:00 Introduction to the session, Emilie Van Deventer, World Health Organization

Biological effects, basic mechanisms , Interaction Mechanisms
14:05 1. Extremely Low Frequencies, Clemens Dasenbrock, Fraunhofer Institute for Toxicology and Experimental Medicine, Germany
14:35 2. Radio Frequencies, Isabelle Lagroye, University of Bordeaux, France
Cancer and other long-term effects in humans
15:05 1. Low Frequencies (static , ELF, IF), Kerstin Hug, Swiss Tropical Institute, Basel
15:35 2. Radio Frequencies, Leeka Kheifets, University of California, Los Angeles, USA
16:15 Reproductive health, Jukka Juutilainen, University of Kuopio, Finland
16:45 Acute effects, Peter Achermann, University of Zürich, Switzerland
17:15 Self-reported symptoms, symptom attribution, terminology, James Rubin,
17:45 Discussion on the scientific consensus

Day II: Thursday 17 November 2011

Session 4:
What are the areas of scientific inconsistency and knowledge gaps?
Chair: Anssi Auvinen, Radiation and Nuclear Safety Authority, Finland Rapporteur: Hannu Norppa, Finnish Institute of Occupational Health
08:30 Introduction to the session, Anssi Auvinen, Radiation and Nuclear Safety Authority
Biological effects, basic mechanisms (2 presentations)
08:35 1) Extremely Low Frequencies, Maria Rosaria Scarfi, CNR-Institute for Electromagnetic Sensing of Environment, Italy
09:05 2) Radio Frequencies, Zenon Sienkiewicz, UK Health Protection Agency
Cancer and other long-term effects in humans, with a focus on radiofrequencies (2 presentations)
09:35 1) Case-control studies, Elisabeth Cardis, CREAL, Spain
10:05 2) Cohort studies and other epidemiological evidence, TBD
10:35 Coffee break
10:55 Knowledge gaps on neurodegenerative aspects (ELF), Christoffer Johansen, Danish Cancer Society
11:25 Knowledge gaps in acute effects, Heikki Hämalainen, University of Turku, Finland
11:55 Overview of new technologies, Jorgen Bach Andersen, Aalborg University, Denmark
12:15 Other frequencies fields, Changing exposure scenarios, evolution of technologies, Norbert Leitgeb, Graz University of Technology, Austria
12:35 Discussion on the inconsistencies, knowledge gaps

Session 5:
Lessons learned and recommendations for the future
Chair and moderator: Paolo Ravazzani, CNR Milan, Italy, Rapporteur: Mats Olof Mattsson, Austrian Institute of Technology, Seibersdorf
14:00 Introduction to the session, Paolo Ravazzani, CNR Milan, Italy
14:10-15:40 Panel Discussion: Possible conclusions and perspectives for future research, Maria Feychting , Karolinska Institutet, Sweden, Niels Kuster, ITIS, Switzerland, William Dab, CNAM, Paris France, other TBD
15:40 General Discussion
16:30 Conclusions, Conference Scientific Steering Group
1) Are ongoing research programmes sufficient to address knowledge gaps?
2) How to prioritize research from the point of view of Public Health? From the point of view of Occupational Health?
3) What's next?
16:50- 17:00 Closing remarks, Martin Seychell, Deputy Director General, DG SANCO


International EMF Alliance
Alex Swinkels, Netherlands
Board Member


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