Browse 8,700 peer-reviewed studies on electromagnetic field health effects from 4 research libraries.
Showing 742 studies in Cancer & Tumors
Committee on Man and Radiation (COMAR), IEEE · 1980
This 1980 IEEE committee position statement outlined research priorities for radio-frequency electromagnetic fields in medical applications, including breast cancer detection and tissue monitoring. The committee identified barriers preventing progress in RF research and proposed establishing study panels and funding mechanisms to advance the field.
Charlotte Silverman · 1980
This 1980 review examined epidemiological studies on microwave radiation health effects in humans, including U.S. naval radar operators and American Embassy staff in Moscow. The research investigated various health concerns including eye problems, nervous system effects, birth defects, and cancer. The findings were mixed, with some studies showing potential health effects while others found no clear evidence.
Committee on the Biological Effects of Ionizing Radiations · 1980
This 1980 government committee report examined the biological effects of low-level ionizing radiation exposure on human populations. The study represents a comprehensive assessment of radiation health risks at exposure levels below acute doses. This research laid groundwork for understanding how chronic, low-intensity radiation affects public health.
Bhudatt R. Paliwal et al. · 1980
This 1980 technical study examined heating patterns produced by a 434 MHz medical microwave device called the Erbotherm UHF 69-1. Researchers mapped how this frequency creates heat distribution in tissues, which was important for medical hyperthermia treatments that use controlled heating to treat cancer.
W. Dewey et al. · 1980
This 1980 international symposium brought together leading researchers to examine how heat therapy (hyperthermia) combined with radiation and drugs could treat cancer. The conference explored various heating methods including microwaves, radiofrequency, and ultrasound to raise tumor temperatures. This research laid important groundwork for understanding how electromagnetic energy interacts with human tissue at therapeutic levels.
Melvin A. Astrahan, F. W. George III · 1980
This 1980 study describes the technical development of an experimental radiofrequency hyperthermia system for cancer treatment. Researchers designed temperature control circuitry to regulate heat delivery to tumors using localized current field technology. The work focused on engineering safety and performance considerations for medical RF applications.
M. Gautherie et al. · 1980
Researchers used 9 GHz microwave radiometry to study breast cancer patients and other tumor patients, comparing this technique to infrared thermography. The study found that microwave radiometry could detect thermal conditions in deeper tumor tissues where infrared thermography failed, providing valuable information about tumor metabolism and blood flow patterns.
D.D. Nguyen et al. · 1980
This 1980 study examined how microwave probes (2-10 GHz frequency range) interact with human tissue for medical thermal imaging applications. Researchers developed mathematical models to understand how microwaves penetrate tissue and detect temperature patterns, particularly for tumor detection. The work laid groundwork for understanding microwave-tissue interactions in medical diagnostics.
Committee on the Biological Effects of Ionizing Radiations · 1980
This 1980 government report examined how low-level ionizing radiation affects human populations, establishing foundational understanding of radiation health risks. The Committee on Biological Effects of Ionizing Radiations analyzed population-wide exposure patterns and biological responses. This work helped establish safety standards and risk assessment methods still used today.
Unknown authors · 1980
Queensland researchers tracked malignant melanoma rates from 1966 to 1977, finding the annual incidence doubled from 16 to 32.7 cases per 100,000 people. The study showed more cases were being caught earlier and at more superficial levels. This suggests improved early detection and treatment rather than just increased disease occurrence.
Unknown authors · 1980
Queensland researchers tracked skin cancer rates from 1966 to 1977, finding that malignant melanoma cases doubled from 16 to 32.7 per 100,000 people. The good news: doctors were catching tumors earlier and smaller, suggesting improved detection was partly responsible for the increased numbers.
James B. Brinton · 1979
This 1979 study by James Brinton explored using radiofrequency (RF) energy as a hyperthermia treatment for cancer in cattle. The research investigated how microwave heating could be applied therapeutically to treat bovine cancers. This represents early work in RF-based medical treatments that would later inform human cancer therapies.
Kenji TAZAWA et al. · 1979
Japanese researchers tested radiofrequency therapy at 13.56 MHz on experimental tumors in rats, finding that targeted heating to 40-46°C caused tumor regression in some cases. The RF energy raised tumor temperatures 5-10°C above surrounding tissue, with complete tumor regression achieved in 7 of 23 rats during longer treatments.
Richard M. Stern · 1979
This 1979 Danish technical report by Stern examined cancer risks, representing early research into environmental cancer factors. While specific EMF findings aren't detailed, this work contributed to the foundational understanding of cancer risk assessment methodologies. Such historical research helped establish frameworks for evaluating environmental health threats that continue to inform EMF safety studies today.
William Regelson et al. · 1979
This 1979 study exposed neuroblastoma cells and mouse embryos to various electromagnetic fields, including pulsed low-frequency fields and 27 MHz radiation. Researchers found that different wave forms could either promote cell growth or cause tissue damage, depending on the specific frequency and timing used.
Harvey et al. · 1979
This 1979 clinical study treated 10 patients with skin cancers using microwave hyperthermia (heating tissue to 43-50°C) combined with radiation therapy. The research found that microwave-induced heating alone was relatively ineffective, but showed promise when combined with conventional radiation treatment for certain skin cancers and melanoma metastases.
G.M. Samaras et al. · 1979
This 1979 study developed two methods for using microwave radiation to create controlled heat in cat brains as a potential cancer treatment. Researchers found they could precisely heat brain tissue to therapeutic temperatures using either implanted antennas at 2450 MHz or external arrays at 915 MHz. The goal was killing brain tumors with heat while protecting healthy tissue.
Charles L. Sheridan et al. · 1979
This 1979 study exposed mice to near-lethal doses of 2450 MHz microwave radiation while in the womb and tracked their lifespan over three years. The research found that exposed mice actually developed fewer tumors than unexposed controls, though the difference was too small to be statistically meaningful. The study also discovered that intense microwave exposure causes dangerous overheating but animals cannot sense the radiation to escape it.
D.D. N'Guyen, A. Mamouni, Y. Leroy, E. Constant · 1979
This 1979 technical study explored combining microwave heating with microwave temperature monitoring in the same system for medical applications. Researchers demonstrated that microwaves could both heat living tissue to controlled temperatures (around 43°C) and simultaneously measure that temperature using microwave radiometry. The dual-purpose system was designed for cancer hyperthermia therapy and diagnostic imaging.
A. MAMOUNI, Y. LEROY, M. SANSEL, M. GAUTHERIE · 1979
Researchers used a 9 GHz microwave radiometer to examine breast cancer patients and others with various tumors (55 cases total), comparing microwave thermal mapping to infrared thermography. The study found that microwave thermal imaging could provide meaningful information about tumor metabolism and thermal conditions in subcutaneous tissues, particularly where infrared thermography fails.
Unknown authors · 1979
This 1979 journal issue focused on microwave technology applications in medical settings, particularly for cancer treatment through hyperthermia (controlled heating of tissue) and thermography (thermal imaging). The research explored how microwave energy could be precisely controlled for therapeutic purposes, representing early medical applications of electromagnetic fields.
Unknown authors · 1979
Researchers in Colorado studied homes where children developed cancer between 1976-1977 and found an excess of electrical wiring configurations that suggested high current flow near these homes compared to control homes. The correlation appeared strongest for children who had lived at the same address their entire lives and showed a dose-response relationship.
L. Yencharis · 1978
This 1978 research focused on developing temperature monitoring technology for cancer hyperthermia treatments using microwave energy. The study explored fiber optic temperature probes with semiconductor components to safely measure heat during microwave-based cancer therapy. This work contributed to understanding how to control microwave energy delivery in medical applications.
David P. Rall · 1978
This 1978 conference paper examined how well animal studies predict human health risks, particularly for cancer-causing substances. The research addressed fundamental questions about translating laboratory findings to real-world human exposure scenarios. This methodological work remains crucial for evaluating EMF health studies that rely heavily on animal research.
Unknown authors · 1978
Researchers exposed mice to 2.5 GHz microwave radiation at high intensity (30 mW/cm²) for 30 minutes, then tested whether their blood serum and immune cells could better fight cancer. The study found that serum and lymphocytes from microwave-exposed mice showed enhanced ability to destroy transplanted tumor cells. This suggests microwave exposure may boost certain immune system functions.