Christopher H. Dodge, Zorach R. Glaser · 1984
This 1984 review examined the state of electromagnetic field research and regulatory responses across various EMF sources including medical devices, power lines, and early wireless technologies. The author highlighted that the scientific evidence base remained inconclusive and insufficient for proper risk assessment. The review identified critical knowledge gaps that were hampering safety evaluations of emerging technologies like NMR imaging, VDTs, and cordless phones.
Luther Kloth, Mary Ann Morrison, Barbara H. Ferguson · 1984
This 1984 government report by Kloth examined the therapeutic use of microwave and shortwave diathermy, focusing on thermal effectiveness and safety considerations. The research evaluated how these electromagnetic frequencies are used in medical treatments to generate controlled heating in body tissues. This work helped establish safety protocols for therapeutic EMF applications that remain relevant today.
Donald M. Witters, Jr., William A. Herman · 1984
Researchers tested nine inexpensive microwave detection instruments available to consumers in 1984, evaluating their accuracy and reliability for measuring microwave radiation leakage. The study examined technical performance including calibration accuracy, response to different signal types, and sensitivity to interference. This matters because accurate measurement tools are essential for detecting potentially harmful microwave exposures from ovens and other sources.
Thomas C. Rozzell · 1984
This 1984 document reports on West Germany's publication of electromagnetic field exposure standards for both electric and magnetic fields across different frequencies. The standards addressed occupational exposure limits, representing an early governmental effort to regulate EMF exposure based on available scientific understanding at the time.
Christopher H. Dodge, Robert Kainz · 1983
This 1983 Congressional report examined non-ionizing radiation health and safety issues, focusing on microwave and radiofrequency exposures in occupational settings. The document addressed regulatory standards and safety protocols during a period when microwave technology was rapidly expanding in workplace environments. This represents early government recognition of potential health concerns from RF and microwave radiation exposure.
Eric J. Lerner · 1983
This 1983 review examined mounting evidence of biological hazards from electromagnetic fields across multiple research studies. The author concluded that accumulating evidence suggested significant health risks from EMF exposure that could lead to new understanding of biological processes.
B.M. Savin et al. · 1983
This 1983 research by B.M. Savin examined changes in microwave radiation exposure standards, likely comparing different national approaches to radiofrequency safety limits. The study appears to focus on how exposure guidelines evolved during the early 1980s, a critical period when microwave technology was expanding rapidly in both civilian and military applications.
John R. Lester, Dennis F. Moore · 1982
Researchers studied cancer patterns in Wichita, Kansas and found higher cancer rates on elevated terrain facing radar installations, with lower rates in valleys. The study suggests a connection between microwave radar emissions and geographic cancer distribution patterns.
John R. Lester, Ph.D. and Dennis F. Moore, M.D. · 1982
This 1982 study analyzed cancer mortality rates across U.S. counties from 1950-1969, comparing areas with Air Force bases to those without. Counties containing Air Force bases showed significantly higher cancer death rates during this 20-year period. The findings suggest potential health impacts from radar and other electromagnetic radiation sources concentrated around military installations.
Zory R. Glaser · 1982
This 1982 review examined government efforts to establish RF/microwave radiation safety standards across multiple U.S. agencies including OSHA, NIOSH, FCC, and EPA. The study compared various approaches to setting occupational and public exposure limits for microwave radiation. It highlighted the complex regulatory landscape surrounding EMF safety standards development.
K. A. Wickersheim, R. B. Alves · 1982
This 1982 technical document describes a new fiber optic thermometer that can accurately measure temperature to within 0.1°C even in the presence of radiofrequency, microwave, or other electromagnetic fields. The fluoroptic technology uses rare earth phosphors and spectral line intensity ratios to maintain precision where traditional thermometers would be disrupted by EMF interference.
H. P. Schwan · 1982
This 1982 study by Dr. Herman Schwan examined the scientific basis for setting safe exposure limits to microwave and radio frequency radiation. The research analyzed different frequency ranges and their effects on human tissue, supporting the 10 mW/cm² safety standard that became foundational for modern EMF regulations.
Zory R. Glaser, Robert F. Cleveland, Jr., P. Czerski · 1982
This 1982 status report examined how different countries and organizations were developing safety standards for radiofrequency and microwave radiation exposure. The review compared efforts by U.S. agencies like OSHA, FCC, and EPA with international bodies including WHO and various countries like Germany, Sweden, and the USSR. It highlighted the lack of coordination between different standard-setting bodies worldwide.
Unknown authors · 1982
This 1982 conference paper examined the health effects of cathode ray tube (CRT) video displays, which were the dominant computer and television screens of that era. The research focused on electromagnetic emissions from these displays and their potential impact on human health, including sensory effects and microwave radiation exposure.
Sol M. Michaelson · 1982
This 1981 book review by Sol M. Michaelson examined the World Health Organization's Environmental Health Criteria document on radiofrequency and microwave electromagnetic fields. The review assessed WHO's evaluation of biological effects and health criteria for RF/microwave exposure. This represents an early critical analysis of international health standards for electromagnetic field exposure.
John R. Lester, Ph.D. and Dennis F. Moore, M.D. · 1982
This 1982 study examined cancer death rates in U.S. counties with Air Force bases compared to counties without them from 1950-1969. Counties with Air Force bases showed significantly higher cancer mortality rates. The finding suggests potential health impacts from radar and other electromagnetic radiation sources commonly found at military installations.
P. Hansen · 1982
This 1982 government safety guide examined radiation emissions from video display terminals (VDTs), the computer monitors widely used in offices at the time. The study focused on measuring X-ray and electromagnetic radiation levels to establish workplace safety standards. This research represents early recognition that electronic display devices could pose occupational health concerns through radiation exposure.
Unknown authors · 1982
This 1982 technical report established American national safety standards for human exposure to radiofrequency electromagnetic fields from 300 kHz to 100 GHz. The document set exposure limits across the RF spectrum, covering frequencies used by radio, television, microwave ovens, and early cellular technology. These standards became foundational guidelines for protecting people from RF radiation exposure.
Unknown authors · 1981
This 1981 conference registration document relates to an International Microwave Power Institute (IMPI) meeting focused on microwave safety, compliance standards, and electromagnetic field measurements. The meeting addressed technical aspects of microwave exposure assessment and hyperthermia applications. While specific findings aren't available, this represents early professional efforts to establish microwave safety protocols.
Eliot Marshall · 1981
In 1981, the FDA investigated radiation risks from video display terminals (VDT screens), examining concerns about microwave and x-ray emissions that might cause eye strain or cataracts. The agency concluded there was no radiation risk from these early computer screens. This study represents an early regulatory assessment of electromagnetic field exposure from workplace technology.
Christopher H. Dodge, Zorach (Zory) R. Glaser · 1981
This 1981 conference paper by researcher CH Dodge reviewed a decade of bioeffects research on radiofrequency and microwave radiation from 1977-1987. The review examined scientific literature on how non-ionizing electromagnetic radiation affects biological systems. This type of comprehensive review helps identify patterns and gaps in EMF health research during a critical period of technological development.
Unknown authors · 1981
This 1981 Department of Defense budget revision document outlined military expenditure changes during the early Reagan Administration. While not directly EMF-related, defense spending historically includes significant funding for radar systems, communications equipment, and other electromagnetic technologies that contribute to our overall EMF exposure environment.
J.W. Frazer · 1981
This 1981 conference paper examined how radiofrequency (RF) fields interact with biological systems, focusing on potential biohazards, electromagnetic hot spots, and modulation effects. The research explored the fundamental mechanisms by which RF energy affects living organisms. This early work helped establish the scientific foundation for understanding EMF health effects decades before widespread wireless technology adoption.
Multiple symposium speakers and organizers · 1981
This 1981 scientific symposium brought together engineers, physicists, and biologists to examine how microwave radiation heats body tissues and how living organisms detect and respond to this thermal challenge. The gathering focused on understanding the mechanisms by which microwave energy penetrates deep tissues and the biological systems that must cope with this heating effect.
Maria A. Stuchly et al. · 1981
Researchers measured the electrical properties of living cat tissues (muscle, liver, kidney, spleen, and brain) using frequencies from 10 MHz to 1 GHz. They found significant differences between tissue types and discovered that many tissues have non-uniform electrical properties throughout. This foundational research helps scientists understand how electromagnetic fields interact with living tissue.
