Thursday, May 10, 2007

Biological Effects of Dirty Electricity - by Magda Havas

Electromagnetic Biology and Medicine, 25: 259–268, 2006
Copyright © Informa Healthcare
ISSN 1536-8378 print
DOI: 10.1080/15368370601044192

Electromagnetic Hypersensitivity: Biological Effects of Dirty Electricity with Emphasis on Diabetes and Multiple Sclerosis

MAGDA HAVAS
Environmental and Resource Studies, Trent University, Peterborough, Ontario, Canada

Dirty electricity is a ubiquitous pollutant. It flows along wires and radiates from them and involves both extremely low frequency electromagnetic fields and radio frequency radiation. Until recently, dirty electricity has been largely ignored by the scientific community. Recent inventions of metering and filter equipment provide scientists with the tools to measure and reduce dirty electricity on electrical wires. Several case studies and anecdotal reports are presented. Graham/Stetzer (GS) filters have been installed in schools with sick building syndrome and both staff and students reported improved health and more energy. The number of students needing inhalers for asthma was reduced in one school and student behavior associated with ADD/ADHD improved in another school. Blood sugar levels for some diabetics respond to the amount of dirty electricity in their environment. Type 1 diabetics require less insulin and Type 2 diabetics have lower blood sugar levels in an electromagnetically clean environment. Individuals diagnosed with multiple sclerosis have better balance and fewer tremors. Those requiring a cane walked unassisted within a few days to weeks after GS filters were installed in their home. Several disorders, including asthma, ADD/ADHD, diabetes, multiple sclerosis, chronic fatigue, fibromyalgia, are increasing at an alarming rate, as is electromagnetic pollution in the form of dirty electricity, ground current, and radio frequency radiation from wireless devices. The connection between electromagnetic pollution and these disorders needs to be investigated and the percentage of people sensitive to this form of energy needs to be determined.

Keywords Diabetes; Dirty electricity; Electromagnetic hypersensitivity; Multiple sclerosis; Power quality; Radio frequency.

Address correspondence to Magda Havas, Environmental and Resource Studies, Trent University, 1600 West Band Drive, Peterborough, ON K9J 7B8, Canada; E-mail: mhavas@trentu.ca

Introduction
Most of the research on the biological effects of nonionizing radiation is done at one of two frequency ranges: extremely low frequency (ELF) associated with electricity (50/60 Hz) and radio frequency (RF) associated with wireless telecommunication devices (800MHz to 2.5GHz range). An intermediate frequency range, at the low end of the RF spectrum (kHz), flows along and radiates from wires (dirty electricity) and thus has characteristics of the two major types of electromagnetic pollution mentioned above. Scientists doing research on the biological effects of power line frequencies seldom measure this frequency range and thus ignore the effects it might have on health.

Recent advances in filtering technology (Graham/Stetzer or GS filters) and measuring equipment (microsurge meter) enable scientists to test for dirty electricity and to reduce it on indoor wires. In this article, case studies are presented of individuals who have benefited after the dirty electricity in their environment was reduced. This technology provides scientists with the tools to monitor, reduce, and experiment with a frequency range that, until now, has been largely ignored and it may help those who suffer from symptoms of electromagnetic hypersensitivity (EHS).

Dirty Electricity
Poor power quality, also known as dirty electricity, has been a concern for the electric utility for decades. Dirty electricity refers to electromagnetic energy that flows along a conductor and deviates from a pure 60-Hz sine wave (Figure 1). It has both harmonic and non harmonic (transient) components and emerged as a problem in the late 1970s with the increasing use of electronic devices that produce nonlinear loads. Karl Stahlkopf, a vice president of the Electric Power Research Institute (EPRI), estimates that dirty power costs U.S. industry between $4 and $6 billion a year, and that it is likely to get worse before it can be mitigated. EPRI expects that 70% of all electricity produced within the U.S. will flow through electronic devices by 2002, compared with 30% in 1999 (Fortune, 1999).

Dirty electricity is ubiquitous. It is generated by electronic equipment such as computers, plasma televisions, energy efficient appliances, dimmer switches, as well as arcing on electrical conductors caused by loose wires or contact with trees
(Figure 2).

Figure 1. Visual display of dirty electricity (kHz range) and 60Hz power frequency without (left) and with (right) Graham/Stetzer filters. A 2-channel Fluke 199 Scopemeter was attached to a ubiquitous filter to separate the 60Hz frequency from the dirty electricity (Graham, 2000). The improved power quality has fewer spikes and smaller amplitude for the high frequency transients. The GS filters have no effect on the 60Hz sine wave.

Figure 2. Sources of dirty electricity include electronic equipment and appliances, arcing on wires, and unfiltered cell phone and broadcast frequencies from nearby antennas.

Dirty electricity is thus produced within buildings but can also enter buildings from neighbors who share the same transformer. Mobile or broadcast antennas, if not properly filtered, can also contribute to high frequencies on
electrical wires in nearby buildings.

The IEEE 519-1992 recommends installing filters to control harmonic distortions on power lines. With 5kV and higher voltage distribution lines the IEEE identifies voltage notching, which produces both harmonic and nonharmonic frequencies in the radio frequency (RF) range and, as such, can introduce harmful effects associated with spurious RF. Industry uses large capacitors to protect sensitive equipment from power surges, especially in production line work, where malfunctions and down time are costly. Until now filters have not been available for in home use.

Professor Martin Graham from UC Berkeley and power quality expert, Dave Stetzer, President of Stetzer Electric in Wisconsin, have designed a filter that can be used inside buildings to clean the power that enters the building as well as the dirty electricity generated within the building. The Graham/Stetzer (GS) filter is a compact unit that plugs into an electrical outlet (Figure 3). It contains an electrical capacitor that shorts-out the high frequency transients on the circuit and is most effective when placed close to the appliance generating the dirty electricity. The GS filter has optimum filtering capacity between 4 and 100kHz (Graham, 2000, 2002).

In Russia, the safety guidelines for electric and magnetic field exposure are frequency specific. For frequencies between 5Hz and 2 kHz, the guideline is 25V/m for electric fields and 0.25 T (2.5mG) for magnetic fields. For frequencies between 2 and 400 kHz, the guidelines are lower by a factor of 10. Since energy is proportional to frequency, the energy is 1,000 times higher at 60kHz than it is at 60 Hz.

Figure 3. Equipment used to reduce and monitor dirty electricity inside buildings: the Graham/Stetzer filter and the microsurge meter.

The microsurge meter (Figure 3), also designed by Graham and Stetzer, measures the energy associated with dirty electricity in GS units with a range from 1 to 1999 and an accuracy of ±5% (Graham, 2003). The Health Department of the Republic of Kazakhstan (2003) has stated that any reading on the microsurge meter exceeding 50 is unacceptable and steps must be taken to lower such readings. Experience with this meter suggests that values below 30GS units are undesirable and that extremely sensitive individuals may not see any benefits until the values are at or below 20GS units. In some extremely dirty environments it is not possible to achieve such low values.

In the following, a number of case studies are presented.

Case Studies
GS filters have been placed in homes, offices, and schools. People report having better sleep, more energy, and less pain. They document cognitive improvements in memory and concentration. Symptoms of radio wave sickness or electrical hypersensitivity (Table 1) are often reduced or eliminated in the filtered environment.

GS filters placed in one Wisconsin school that had sick building syndrome, significantly improved power quality. Shortly after the filters were installed, the health and energy level of staff and students began to improve. According to the District Nurse, of the 37 students in the school who used inhalers on a daily basis, only 3 required inhalers and only for exercise-induced asthma after the filters were in place (Sbraggia, 2002).

GS filters were placed in a Toronto school and approximately 50% of the teachers documented improvements in energy, performance, mood, and/or health in a single blind study (Havas et al., 2004). Student behavior, especially at the elementary level, also improved. The symptoms that changed were ones we associate

Table 1
Symptoms of radio wave sickness first documented among radar workers during the Second World War resemble those now associated with electromagnetic hypersensitivity

Symptoms of radio wave sickness- (Firstenberg, 2001)

Neurological: Headaches, dizziness, nausea, difficulty concentrating, memory loss, irritability, depression, anxiety, insomnia, fatigue, weakness, tremors, muscle spasms, numbness, tingling, altered reflexes, muscle and joint paint, leg/foot pain, "flu-like" symptoms, fever. More severe reactions can include seizures, paralysis, psychosis, and stroke.

Cardiac: Palpitations, arrhythmias, pain or pressure in the chest, low or high blood pressure, slow or fast heart rate, shortness of breath.

Respiratory: Sinusitis, bronchitis, pneumonia, asthma.

Dermatological: Skin rash, itching, burning, facial flushing.

Ophthalmologic: Pain or burning in the eyes, pressure in/behind the eyes, deteriorating vision, floaters, cataracts.

Others: Digestive problems, abdominal pain, enlarged thyroid, testicular/ovarian pain, dryness of lips, tongue, mouth, eyes, great thirst, dehydration, nosebleeds, internal bleeding, altered sugar metabolism, immune abnormalities, redistribution of metals within the body, hair loss, pain in the teeth, deteriorating fillings, impaired sense of smell, ringing in the ears.

Note: These symptoms resemble symptoms associated with electrical hypersensitivity. with attention deficit disorder (ADD) and attention deficit hyperactivity disorder (ADHD). This begs the question, "How much of the increase in ADD/ADHD among young people is due to electromagnetic pollution and poor electromagnetic hygiene?"

People with situational tinnitus (ringing in the ears that is present only in certain environments, often where RF is present) have documented improvements as well after the filters were installed in their home, as have those individuals who are otherwise healthy (Havas and Stetzer, 2004). Two diseases we seldom associate with electromagnetic hypersensitivity are diabetes and multiple sclerosis (MS). What follows are case studies that document the response to dirty electricity of diabetics and those with MS.

Diabetes
Two case studies are presented. (1) A 51-year old male with Type 2 diabetes who does not take medication and (2) an 80-year old female with Type 1 diabetes who takes insulin twice a day. A 51-year old male with Type 2 diabetes monitored dirty electricity in his environment and his blood sugar levels randomly throughout the day for approximately one month in 2003. The microsurge meter was not yet available to measure dirty electricity so he used a Protek 506 Digital Multimeter and measured the peak-to-peak voltage. His blood sugar levels were positively correlated with the amount of dirty electricity in his environment (Figure 4). One day he was exposed to very high levels of dirty electricity and this was reflected in exceptionally high levels of blood sugar.


Figure 4. Fifty-one year old male with Type 2 diabetes. His plasma glucose levels correlate with the dirty electricity in his environment. Insert shows exposure on one day to a very high level of dirty electricity and this is reflected in elevated blood sugar.

He noticed that his blood sugar levels remained low when he was in his truck away from power lines and antennas and when he was in a wilderness setting. In an electromagnetically dirty environment his blood sugar levels would increase within minutes.

An 80-year old female with Type 1 diabetes, who monitors her blood sugar twice daily—once in the morning upon awakening (fasting plasma glucose) and once in the evening before supper—had her home in Arizona filtered by an electrician. He was able to reduce the dirty electricity in her home from an average of 800GS units to 13GS units. As soon as the dirty electricity in her home was reduced, her blood sugar began to drop. Her average fasting plasma glucose levels without the filters was 171mg/dL and this dropped to an average of 119 with the filters (Figure 5). During this period her insulin injections were reduced from a daily average of 36 units to 9 units.

Her evening plasma glucose did not change after the filters were installed in her home but they did change on days she spent away from home. Levels were particularly high after spending time in a casino. Casinos are likely to have high levels of dirty electricity but stress may also have contributed to higher levels of blood sugar (Hinkle and Wolf, 1950).

Multiple Sclerosis
One teacher in the Wisconsin school that was filtered had been diagnosed with multiple sclerosis (MS). She was extremely tired, had double vision, had cognitive difficulties and could not remember the names of the students in her 4th grade class.

Figure 5. Eighty-year old female with Type 1 diabetes, who takes insulin twice daily. Fasting plasma glucose levels and insulin injections with and without Graham/Stetzer filters are shown.

Her health would improve during the summer but her symptoms returned in September. She assumed her problems were mold-related but her symptoms did not improve after the mold was removed from the school. Once the school was filtered her symptoms disappeared. Similar stories prompted studies with people who had MS.

Havas began to work with people diagnosed with MS, who had difficulty walking and who used canes or walkers. The first person she worked with noticed improvements within 24 h. At that stage Havas assumed this was a powerful placebo effect but the subject's symptoms continued to improve weekly and regressed only during wet weather, which had always been a problem for this subject. Several other people with MS were able to walk unassisted after a few days to weeks with the GS filters and Havas began to videotape those who gave her permission to do so. One of those individuals is a 27-year old male who had been diagnosed with primary progressive MS two years earlier. He walked with a cane or did "wall walking" at home (holding onto the wall or furniture for balance). He had tremors, was exceptionally tired, and was beginning to have difficulty swallowing. Three days after 16GS filters were placed in his home his symptoms began to disappear. The dirty electricity in his home was reduced from 135–410GS units to 32–38GS units. He assumed his body was recovering spontaneously but he had been diagnosed with progressive MS and not relapsing/remitting MS, so spontaneous recovery was unlikely in his case.

A week after the filters were installed in his home he had enough energy to go shopping with his father. He did not take his cane because he had not needed it, but after a couple of hours in the store his symptoms reappeared and he had difficulty walking to the car.

Figure 6. Video-clip of 27-year old male with primary progressive multiple sclerosis, diagnosed two years earlier. In the video on left (without Graham/Stetzer filters), he walks slowly and is hesitant. In the video on the right (two weeks after Graham Stetzer filters were installed in his home), he walks with confidence and is well coordinated.

Figure 7. Symptoms of 27-year old male with primary progressive multiple sclerosis with and without Graham/Stetzer filters in his home.

His tremors began to subside three hours after arriving home. This experience has been repeated on several occasions and he now knows that if he goes into an environment with dirty electricity his MS symptoms reappear.

Figure 6 is taken from a video before the filters were installed in his home and two weeks later. Prior to the filters his walk was stilted and slow. He staggered and resembled the gait of someone who was intoxicated. Two weeks after the filters were installed his walk was normal with no signs of MS. During this period he began to put on weight, was sleeping better, and had fewer tremors and more energy (Figure 7).

Some other observations that are notable is that his mother had been suffering from hot flashes at night associated with menopause and these came to an end after the filters were installed and his father experienced several episodes of vertigo weekly and these became less frequent.

Conclusions
These case studies and anecdotal reports suggest that dirty electricity is biologically active. Once dirty electricity is reduced, people's health improves. For some it is reflected in more normal blood sugar levels, for others symptoms of MS are reduced, and for still others tinnitus disappears and behavior resembling ADD/ADHD improves. Since dirty electricity is becoming ubiquitous large fractions of the population are being exposed to this pollutant and some are being adversely affected.

Diabetes, multiple sclerosis, ADD/ADHD, asthma, chronic fatigue, and fibromyalgia are all increasing in the population and the reasons for this increase are poorly understood. Dirty electricity may be one of the contributors to these illnesses.

According to Philips and Philips (2006) 3% of the population has electromagnetic hypersensitivity (EHS) and 35% have symptoms of EHS. If these percentages apply to diabetics then as many as 5–60 million diabetics worldwide may be responding to the poor power quality in their environment (Wild et al., 2004). Evidence from laboratory studies documents that insulin release and insulinbinding capacity to receptors cells is reduced by electromagnetic fields (Li et al., 2005; Sakurai et al., 2004). It is further known that stress increases blood sugar levels in diabetics and that exposure to electromagnetic energy induces stress proteins at various frequencies (Blank and Goodman, 2004; Hinkle and Wolf, 1950).

Dirty electricity can now be monitored with meters and reduced with filters, providing scientists with the tools needed for research. What is presented here is a handful of studies, many preliminary, with dramatic results. This area warrants further investigation to determine the mechanisms involved and the percentage of the population affected.

Conflict of Interest
Please note that the author has no vested interest, financial or otherwise, in the commercial devices discussed in this article.


References
Blank, M., Goodman, R. (2004). Comment: a biological guide for electromagnetic safety: the stress response. Bioelectromagnetics 25(8):642–646.

Bylinsky, G. (1999). Hot new technologies for American factories. Fortune Mag. July 5, 1999, p. 4.

Firstenberg, A. (2001). No Place to Hide. Volume 3 (1): April 2001. Special Issue on Russian and Ukrainian Research, Cellular Phone Taskforce, Mendocino, CA.

Graham, M. (2000). A ubiquitous pollutant. Memorandum No. UCB/ERL M00/55. 28 October 2000, Electronics Research Laboratory, College of Engineering, University of California, Berkeley.

Graham, M. (2002). Mitigation of electrical pollution in the home. Memorandum No. UCB/ERL M02/18. 19 April 2002, Electronics Research Laboratory, College of Engineering, University of California, Berkeley.

Graham, M. (2003). A microsurge meter for electrical pollution research. Memorandum No. UCB/ERL M03/3, 19 February 2003, Electronics Research Laboratory, College of Engineering, University of California, Berkeley.

Havas, M., Stetzer, D. (2004). Dirty electricity and electrical hypersensitivity: five case studies. World Health Organization Workshop on Electrical Hypersensitivity 25–26 October 2004, Prague, Czech Republic.

Havas, M., Illiatovitch, M., Proctor, C. (2004). Teacher and student response to the removal of dirty electricity by the Graham/Stetzer filter at Willow Wood School in Toronto, Canada. Presented at the 3rd International Workshop on the Biological Effects of Electromagnetic Fields, 4–8 October 2004, Kos, Greece.

Hinkle, L. E., Wolf, S. (1950). Studies in diabetes mellitus: changes in glucose, ketone and water metabolism during stress. Life Stress and Bodily Disease. Baltimore, MD: Williams and Wilkins.

IEEE 519-1992. (1992). Recommended Practices and Requirements for Harmonic Control in Electrical Power Systems. Sponsors: Transmission and Distribution Committee of the IEEE Power Engineering Society and Static Power Converter Committee of the IEEE Industry Applications Society, Approved June 18, 1992 IEEE Standards Board, Approved January 4, 1993 American National Standards Institute.

Kazakhstan Health Department. (2003). Permissible levels of high-frequency electromagnetic pollutions voltage in wires of industrial frequency alternating current. Confirmed: The Order of the Head State Sanitary Physician of the Republic of Kazakhstan. November 28, 2003, No. 69.

Li, L., Dai, Y., Xia, R., Chen, S., Qiao, D. (2005). Pulsed electric field exposure of insulin induces anti-proliferative effects on human hepatocytes. Bioelectromagnetics 26(8): 639–647.

Philips, A., Philips, J. (2006). The Power Watch Handbook. London: Piatkus Books Ltd., 294 pp.

Sakurai, T., Satake, A., Sumi, S., Inoue, K., Miyakoshi, J. (2004). An extremely low frequency magnetic field attenuates insulin secretion from the insulinoma cell line, RIN-m. Bioelectromagnetics 25:160–166.

Sbraggia, C. (2002). Letter from school nurse. www.electricalpollution.com.

Wild, S., Roglic, G., Green, A., Sicree, R., King, H. (2004). Global prevalence of diabetes. Diabetes Care 27:1047–1053.

Wednesday, May 09, 2007

Dr. Nick Begich - EMR Weapons Technology of the 21st Century

Don't just take my word for it - after all what does a person like me know ;) - listen to Dr. Nick Begich talk on the effects of EMR Weapons Technology of the 21st Century:

http://www.youtube.com/watch?v=6Qxect_DsmU

Tuesday, May 08, 2007

Cancer Clusters, Headaches, Nosebleeds, Nausea, Fatigue, Dizziness, Ear Humming, and Sleep Problems Surround Cell Phone Mast

The results were indeed startling. In addition to the plethora of cancers, over half the children surveyed at St Edward's suffered headaches and more than a quarter reported regular nosebleeds and nausea. Among the staff at both schools almost all those asked felt fatigued and had sleep problems, with nearly half suffering dizzy spells and humming in their ears.

Cancer victims ask: "Is it the phone mast's fault?"

http://www.timesonline.co.uk/tol/news/uk/article1687357.ece
From The Sunday Times
April 22, 2007

Daniel Foggo and Maurice Chittenden

Margaret Hines-Randle is fighting cancer, but she is not alone in her struggle. In fact most of the people in her road are battling alongside her, since they have the illness too. At the most recent count, 30 of her immediate neighbours were either suffering with cancer or had already died from it.

"We are all in a line, it is quite extraordinary," said the 64-year-old, who was first diagnosed with breast cancer eight years ago. "It is a very dramatic cluster of cancer. The people in the house behind us and the one at the side have it. Both the people in the first and second bungalows in the road had cancer and died. Now the person who moved in to one of them has breast cancer too."

Just down the road at St Edward's Roman Catholic primary school, Pat Ward's pockets are full of paper tissues, but he doesn't have a cold. The deputy headmaster uses them to mop up the nosebleeds of his pupils: he finds that their noses haemorrhage with such frequency that a ready supply of tissues is a necessity.

Next door at the Woodlands special school, no fewer than seven of the 30-strong staff have developed tumours in the last few years, including Ward's 46-year-old wife Sally who teaches there. Two have died. A nearby caretaker has been diagnosed with a prostate tumour at the age of 37. Even the lollipop lady who helped the children to cross the road has died of cancer.

The cause of all this illness in Coleshill is not clear. But many of those living in the affluent Warwickshire town believe much of it can be attributed to a mobile phone mast which looms large over its southern half. The schools, which are adjacent to the 27m-high structure, have stood in its shadow for nearly 15 years.

More worrying perhaps is that although the Coleshill cluster is extraordinary, it is not unique. Tight bunches of cancers and other illnesses have been recorded around masts in other parts of the country, and fears about phone masts generally are widespread.

It is already acknowledged that there is a link between electromagnetic radiation from overhead power cables and childhood leukaemia - something that was also disputed for many years. Campaigners estimate that at any one time in Britain today there are about a thousand active disputes going on over phone masts.

There are already 47,000 masts in position, but the phone companies are putting more up every day and fears over their safety are growing fast.

Eileen O'Connor, a campaigner against mast proliferation and member of the Health Protection Agency's Electromagnetic Fields Discussion Group, said: "There is simply not enough care being taken with this technology. I have no doubt that we are looking at a major public health problem."

So are the masts safe? Are the levels of allowed radiation correct, and should ministers and regulators be doing more to protect people?

Last week a reporter from The Sunday Times posing as a homeowner approached the five main mobile phone network providers - O2, 3, T-Mobile and Vodafone - to inquire about the possibility of having a mast installed on his house.

All but Vodafone jumped at the opportunity and said they would pay between £1,000 and £2,500 a year for the privilege. They would even disguise the mast, so as not to annoy the neighbours.

Kevin Hull, a network consultant at O2, said: "We pay higher rents in city centres, lower rents in the countryside based on expected revenue.

"We do follow a code of best practice, which involves community consultation, but we can use a range of solutions to disguise the masts.

"The standard masts tend to blend in with street lighting columns. We also use replica telegraph poles made of glass-fibre and mock cypress trees with leaves."

Mike Yates, acquisitions manager at Orange, said his company could also help. "It will probably need planning permission, depending on what it is, and the neighbours would know. We have had them on houses as drainpipes but there is a cost element if we have to put stealth covers on them."

It is this combination of financial reward and stealth that has enabled Britain's phone companies to put up so many masts so quickly. It also explains why so many local communities are only now waking up to the potential health threat.

There is no doubt among scientists that electromagnetic radiation of the type emitted by phone masts can cause cancer and genetic damage at high intensities. However, the scientific community is divided over what emission levels are safe.

The industry in Britain is subject to guideline limits for emissions, which all its masts fall well within. But some scientists believe the limits have been set far too high. They point to other European cities, notably Salzburg in Austria, which has - on scientific advice - imposed radiation limits that are a fraction of the levels allowed in Britain.

Sir William Stewart, chairman of the Health Protection Agency, authored a report in 2000 which said that there was no conclusive evidence of health implications for adults, a view echoed by the World Health Organisation. However, in 2005 he issued a further report, Mobiles Phones and Health, in which he said young children should probably not be exposed to mobile phones. He has also said care should be taken that masts do not direct their strongest beams at schools.

"I can't believe that for three-to eight-year-olds they can be readily justified," he said. On phones in general, he added: "Just because there are 50m of them out there, doesn't mean they are absolutely safe."

Despite these worries, a BBC survey three years ago found that one in 10 schools were overlooked by a phone mast. According to another survey in London almost every school has a nearby mast.

In the case of both St Edward's, one of the top primaries in the country, and Woodlands, children and teachers have spent their daily lives being subjected to the output of a suspect mast sited just 40m away.

Two years ago - prompted by reports of people developing cancer - the parents of children attending St Edward's, together with the school authorities and a group of residents, began pushing for the mast to be removed. They organised surveys of health problems among the schoolchildren, teachers and nearby residents.

"There was a lot of foot-slogging and door-knocking and speaking to people at the school gates, but what we found was shocking," said Jacqui Slater, one of the organisers.

The results were indeed startling. In addition to the plethora of cancers, over half the children surveyed at St Edward's suffered headaches and more than a quarter reported regular nosebleeds and nausea. Among the staff at both schools almost all those asked felt fatigued and had sleep problems, with nearly half suffering dizzy spells and humming in their ears.

A survey of 1,300 nearby residents threw up a further surprise. In a single street, Castle Drive, and part of adjacent roads, 31 cases of cancer were found, a total of around one in every second person in the immediate area.

"When I saw the results I felt sick myself," said Pat Jones, another campaigning resident. "There is big money in mobile phones and yet the operators don't seem to want to know what is happening to people."

The raw data was passed to Dr John Walker, a physicist and member of the Electromagnetic Radiation Research Trust who has studied several similar instances of cancer clusters around other mobile phone masts elsewhere in the UK.

"The masts typically throw out microwaves in three directions, and where the beams hit the ground is where you will usually find the cluster of cancers or disease," he said.

"Coleshill has the largest single cluster I have yet seen, and this may be explained by the fact that Castle Drive is sited at the point where the beams from two masts converge, one of them at the school and another on the other side of the town.

"Residents and teachers are more likely to have health problems because they tend to be exposed to the microwaves for more years than pupils, who eventually leave the school."

For a while, tensions ran very high among the community. Parent protests were organised, with one day "strikes" in which they kept their children away from school.

For 12 months the campaign intensified. Letters declaring an intent to sue O2 if the medical evidence became stronger in the future were sent to the company, while the diocese sent protest letters too.

Mike O'Brien, the area's MP, was then asked by the campaigners to help. He approached the operators but deliberately fought shy of leading off with the residents' health concerns.

"I said to O2 that I wasn't going to put the case on medical grounds, which they don't accept are an issue, but on the fact that the school wanted the land on which the mast stands and the fact that it is an old mast and rather ugly and due for replacement," he said.

His approach, backed up by the strident voices of the campaigners and their extraordinary research, has now resulted in O2 agreeing to tear down their mast. Alternative sites have been found far away from the two schools.

But conflicts over existing and planned masts look set to increase as the rolling out of third-generation (3G) technology, which allows mobile phones internet access, necessitates further antennae across the country.

However, some feel that mutually satisfactory agreements between mobile phone companies and angry residents can be made if they follow the model of Coleshill. O'Brien said: "There is perhaps a precedent here. A lot of the problem stems from residents feeling that something is being done to them that they are unaware of and have no say in."

However, for Hines-Randle and her neighbours who have already developed tumours, the fight goes on. "I don't know whether my cancer was caused by the masts," she said last week. "But it is worth someone looking further into it."

The march of the mobile masts

- About 60m mobile phones are used in the UK, supported by approximately 47,000 masts, also known as base stations. It is estimated that protests by residents unhappy over their proximity to masts number up to 1,000 at any one time

- Since mobile phones were launched in the 1980s, the market has mushroomed. The licences to operate the latest generation of phones, known as third generation or 3G, were sold by the government for £22.5 billion seven years ago

- The British government has adopted guidelines issued by the International Commission on NonIonizing Radiation Protection (ICNIRP) which state that base stations should not emit more than 10 watts per square metre of electromagnetic energy, depending on the frequency used. In reality most give out only a minute fraction of this amount

- Some scientists have suggested, however, that ICNIRP's guidelines should be reduced more than a thousandfold as evidence of links to cancer exist well below its threshold

- Sir William Stewart, chairman of the UK's Health Protection Agency, has called for more discussion on the issue and urged a "precautionary approach" to the technology. But he does not accept that there are any proven links with ill-health

- The existence of phone masts at and near schools has become particularly controversial. The Mobile Operators Association says that fewer than 2% of masts are sited at schools, but many are positioned nearby instead. One recent survey claimed that every school in London was within a short distance of a mast