Are
Electromagnetic Fields Hazardous to Your Health?
Jackie LaMuth
There has been much written
in popular magazines about the possible health hazards of electromagnetic fields
(EMFs). Consumers are bombarded by quasi-scientific reports, many of which are
more confusing than accurate. This fact sheet will examine current scientific
evidence and offer some insight into the various claims.
What are electromagnetic
fields?
Electrical currents cause
electromagnetic fields. Common household current is alternating current (AC),
which reverses its direction (its charge) then switches back. One complete
cycle per second is a hertz (Hz). For example, if a hair dryer operates at 60
Hz, its current changes direction 60 times per second. This cycle creates
electric and magnetic fields at the same frequency. The fields created by
power lines that distribute power throughout the country are power frequency
fields.
Electrical fields, magnetic
fields, and power frequency fields can be high or low in intensity, continuous
or brief in duration. None of them linger in the environment. The moment the
power is turned off, the fields and induced currents disappear. At low
frequencies, the electric and magnetic fields are separable; at high and super
high frequencies, the fields are inseparable.
Electromagnetic fields are
divided into several categories:
-
appliances and power
lines--extremely low frequencies (ELF)
-
AM radio
transmission--high and low frequencies (HF and LF)
-
TVs and video display
terminals--very low frequencies (VLF)
-
TV and FM radio
transmissions--very high frequencies (VHF)
-
microwaves--super high
frequencies (SHF)
The super high frequencies
can affect molecules. When microwave energy passes through something
containing water, it causes the water molecules to vibrate and produce heat.
Infrared and the different frequencies of visible light (which produce the
different colors of the rainbow) occupy only a small portion of the
electromagnetic energy spectrum. The EMFs produced from greater than 60 Hz
electric power are called ionizing radiation because they have enough energy
to strip electrons from atoms. X-rays, for example, have enough energy to
break apart molecules that contain genes. Excessive exposure to ionizing
frequencies can cause cancer.
How are humans exposed?
Pinpointing a single source
of exposure is difficult because humans may be exposed to a multitude of
possible sources. Electromagnetic fields are found naturally in the
environment, such as in lightning and in the Earth's magnetic field, which
causes a compass needle to point north. The natural electromagnetic fields in
the human body allow messages to flow through the nervous system.
Electric and magnetic
fields are produced by distribution or power lines, the electrical wires
inside the walls of homes, and a wide assortment of electrical appliances.
While electric fields do not pass through building materials, magnetic field
do. Magnetic fields can also be found near buried electric lines.
Electromagnetic fields are
commonly found around:
-
high voltage power
lines
-
neighborhood
transmission lines
-
grounding systems that
protect residents from lightning
-
grounding systems that
protect residents from electric shock that can result from faulty
appliances
-
the operation of common
electrical appliances, including microwave ovens
-
ovens, electric ranges,
aquariums, table fans, electric space heaters
-
computer monitors,
electric clocks, clock radios, heated waterbeds
-
electric blankets, hair
dryers, cellular phones
Recently, video display
terminals (VDTs) have been a source of concern because many people are
spending a significant amount of time close to them. Although evidence
suggests that continuous exposure to VDTs can aggravate some health
conditions, there is insufficient information linking EMFs directly to these
health conditions. As computers manufacturers build computers that use less
electricity more efficiently, lower EMFs are generated.
How much are we exposed?
The amount of exposure is
difficult to determine. Exposure to forces produced by external sources is
generally constant, but the structure of a building determines how much of the
final field strength can be found inside the building. EMFs produced inside a
home can widely vary depending upon the wiring system and appliance usage.
These variables cloud efforts to determine the relative importance of local
power lines as opposed to the use of appliances or to internal house wiring.
What are the effects of
exposure?
Most of the
research--especially research focusing on the relationship between exposure to
EMFs and cancer--has focused on public health issues. In most cases, the
findings are difficult to trust because of the difficulty in controlling the
amount of exposure and other variables, including socioeconomic status,
nutrition, lifestyles, genetics, occupation, and exposure to other
cancer-causing factors. Many study designs lack validity, which causes further
doubt about their value.
Given these limitations and
shortcomings, the research nevertheless does suggest the need for further
investigation of the association between EMFs and some cancers. These include
childhood brain cancer and female breast cancer. Occupational concerns related
to EMFs include adult brain cancer, adult leukemia, and male breast cancer.
A review of occupational
studies examined the occurrence of malignant melanoma, colon cancer, lung
cancer, bladder cancer, and non-Hodgkin's lymphoma and found questionable
evidence linking those cancers with EMFs or with working in an
"electrical" job.
A number of studies
examined the relationship between parental "electrical" occupation
and childhood central nervous system cancers and found little to suggest a
link. The evidence for adult central nervous system cancers, male breast
cancer, and leukemia is also very weak. Many respected scientists critique the
studies as being flawed.
In spite of limited
evidence concerning the link between EMFs and cancer, a weak connection
between the two appears to exist. Further, valid studies are needed to
determine the specific nature of this link.
Are there any measurable
negative effects?
Currently, the only known
measurable negative effects of EMFs are related to quality-of-life issues.
Local power lines, poles, substations, and high voltage transmission lines are
aesthetically displeasing; a possible reduction in property values and a
deterioration of community may occur as families choose to relocate to avoid
EMFs. Those who live in areas selected for new EMF facilities may be resentful
and resistant to them being built..
In woodlands and farmlands,
several rare but easily explained occurrences result from electromagnetic
fields. Damaged conifer needles growing close to power lines serve much the
same function as a lightning rod in discharging electricity build-up in the
air; power lines sometimes create stray voltage effects that cause constant
low-level electric shock. Decreased milk production in dairy cows and other
minor problems can be avoided by properly grounding equipment and buildings.
The placement of
distribution towers that produce EMFs into recreational areas and natural
areas are said to have a negative effect, although no quantifiable data are
available and there appears to be no noticeable decrease in the use of those
areas.
Generally, scientists on
both sides say they are dealing at most with rare diseases and an increased
risk that is almost infinitesimal, especially compared with life's other
everyday risks.
Are there any regulations
governing EMFs?
Both state and federal
legislation concerning EMFs, the construction of power lines, and the siting
of such lines in residential areas have been introduced. The National Energy
Policy Act of 1992 called for an EMF research study of $65 million. The Ohio
Power Siting Board believes that electric transmission facilities should be
designed and sited in ways that prudently address EMF issues until more
conclusive studies on the possible health effects of EMFs are completed.
What can someone do?
In spite of the absence of
valid evidence based on solid scientific research, the effects of EMFs on the
health of individuals and environments may still be of concern to some people.
Until research data suggests a need for more extreme action, those who want to
do something may wish to consider the following suggestions:
-
Stay away from the EMF
sources. The strength of a magnetic field drops quickly just a few feet
from the source. Do not sleep or sit for long periods of time near
electrical devices, especially those with motors.
-
Stay a minimum of 18
inches away from a video display terminal (VDT). Turn it off when not in
use. Don't sit close to the back or sides of the monitor even when it is
in another room or behind a partition.
-
Where feasible, turn
off or unplug waterbed heaters and electric blankets before going to bed.
Unplugging and turning these appliances off removes the electric field.
-
Stay several feet away
from all sides of a television including TVs located in another room
against a wall.
Other suggestions:
-
Don't place beds or
cribs against wall with major appliances nearby or on the other side of
the wall.
-
Move electric clocks,
clock radios, and telephone answering machines at least 4 feet away from
the head of the bed.
-
Fluorescent bulbs
generate stronger fields than incandescent lamps. Estimate 1 foot for
incandescent bulbs and 3 feet for fluorescent lamps.
-
Avoid using electric
blankets and hair blow dryers.
-
Check the background
field in your home. You can purchase an EMF meter for $30 to $150 or call
a utility company to install one.
Conclusion
No scientific data support
definitive answers to questions about the existence or nonexistence of health
risks related to electromagnetic fields. More research to produce more
reliable information is needed before any conclusions can be drawn.
References
Priorities '95, Environmental
Risk Summary Reports, Priorities '95 Technical Advisory Committee, February 23,
1995.
Electric and Magnetic Fields
from 60 Hertz Electric Power: What Do We Know about Possible Health Risks? M.
Granger Morgan, Department of Engineering and Public Policy, 1989 (sixth
printing) pp. 34-38.
"A Critical Review of
Epidemiological Literature Concerning Power-Frequency (50-60 Hz) electric and
Magnetic fields and Cancer," Ruth D. Miller, John S. Neuberger, Kenneth B.
A. Gerald, Topeka, Kansas, KEURP, 1993.
Warning: The electricity
around you may be hazardous to your health, Ellen Sugarman, New York, Simon
& Shuster.
FACTS, Characteristics and
Sources of electric and magnetic fields, Edison Electric Institute, 1992.
Your Guide to Understanding
EMF, Electric and Magnetic Fields, Culver Company, 1992.
"Oncologist assesses
latest EMF research," Current, March 1993.
"Epidemiologic and
Laboratory Research on the Potential Human Health Effects from Exposure to Power
Frequency Electric and Magnetic Fields," prepared for the Minnesota
Environmental Quality Board, Dr. Asher R. Sheppard, 1994.
"Questions and Answers
About Electric and Magnetic Fields," (EMFs), United States Environmental
Protection Agency, Radiation and Indoor Air Radiation Studies Division, December
1992.
Health Effects of Power-Line
Electromagnetic Fields, (EMFs), CRS Issue Brief, Congressional Research Service,
The Library of Congress, Updated April 9, 1993.
Ohio State University
Extension
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