Our 24/7 cancer helpline provides information and answers for people dealing with cancer. We can connect you with trained cancer information specialists who will answer questions about a cancer diagnosis and provide guidance and a compassionate ear.
Our highly trained specialists are available 24/7 via phone and on weekdays can assist through video calls and online chat. We connect patients, caregivers, and family members with essential services and resources at every step of their cancer journey. Ask us how you can get involved and support the fight against cancer. Some of the topics we can assist with include:
For medical questions, we encourage you to review our information with your doctor.
Radiation is the emission (sending out) of energy from any source. X-rays are one example of radiation, but so is the light that comes from the sun and the heat that constantly comes off our bodies.
When talking about radiation and cancer, many people think of specific kinds of radiation such as x-rays or the radiation made by nuclear reactors. But there are other types of radiation that act differently.
Radiation exists across a spectrum from very low-energy (low-frequency) radiation to very high-energy (high-frequency) radiation. This is sometimes referred to as the electromagnetic spectrum.
The electromagnetic spectrum illustration below shows the possible frequencies of electromagnetic energy. It ranges from extremely low frequencies (such as those from power lines) to extremely high frequencies (x-rays and gamma rays), and it includes both non-ionizing and ionizing radiation.
Examples of high-energy radiation include x-rays and gamma rays. These rays, as well as some higher energy ultraviolet (UV) rays, are forms of ionizing radiation, which means they have enough energy to remove an electron from (ionize) an atom. This can damage the DNA (genes) inside of cells, which can sometimes lead to cancer.
Radiofrequency (RF) radiation, which includes radio waves and microwaves, is at the low-energy end of the electromagnetic spectrum. It is a type of non-ionizing radiation. Non-ionizing radiation does not have enough energy to remove electrons from an atom. RF radiation has lower energy than some other types of non-ionizing radiation, like infrared and visible light, but it has higher energy than extremely low-frequency (ELF) radiation.
If RF radiation is absorbed by the body in large enough amounts, it can produce heat. This can lead to burns and body tissue damage. Although RF radiation is not thought to cause cancer by damaging the DNA in cells the way ionizing radiation does, there has been concern that in some circumstances, some forms of non-ionizing radiation might still have other effects on cells that might somehow lead to cancer.
People can be exposed to RF radiation from both natural and human-made sources.
Natural sources include:
Human-made RF radiation sources include:
Some people can have significant RF exposure as part of their jobs. This includes people who maintain antenna towers that broadcast communication signals and people who use or maintain radar equipment. Other people who may have higher levels of RF exposure include some healthcare workers (particularly those working near MRI scanners) and people who work with devices that use RF radiation, such as plastic sealers, certain types of welding equipment, and induction heaters.
Most people are exposed to lower levels of RF radiation every day, from RF signals all around us. They come from radio and TV broadcasts, Wi-Fi and Bluetooth devices, cell phones (and cell phone towers), and other sources.
Microwave ovens work by using very high levels of a certain frequency of RF radiation (in the microwave spectrum) to heat foods. When food absorbs microwaves, it causes the water molecules in the food to vibrate, which produces heat. Microwaves do not use x-rays or gamma rays, and they do not make food radioactive.
Microwave ovens are designed so that the microwaves are contained within the oven itself. The oven only makes microwaves when the door is shut and the oven is on. When microwave ovens are used according to instructions, there is no evidence that they pose a health risk. In the US, federal standards limit the amount of RF radiation that can leak from a microwave oven to a level far below what would harm people. Ovens that are damaged or modified, however, could allow microwaves to leak out, and could pose a hazard to people nearby by possibly causing burns.
In many airports in the United States, the Transportation Security Administration (TSA) uses full body scanners to screen passengers. The scanners currently used by the TSA employ millimeter wave imaging. These scanners send out a small amount of millimeter wave radiation (a type of RF radiation) toward the person in the scanner. The RF radiation passes through clothing and bounces off the person’s skin, as well as any objects under the clothes. Receivers sense the radiation and create an image of the outline of the person.
Millimeter wave scanners do not use x-rays (or any other kind of high-energy radiation), and the amount of RF radiation used is very low. According to the US Food and Drug Administration (FDA), these scanners have no known health effects. However, TSA often allows people to be screened in a different way if they object to screening with these scanners.
Cell phones and cell phone towers (base stations) use RF radiation to transmit and receive signals. Some concerns have been raised that these signals might increase the risk of cancer, and research in this area continues. For more information, see Cellular Phones and Cell Phone Towers.
Researchers use 2 main types of studies to try to determine if something might cause cancer:
Often neither type of study provides enough evidence on its own, so researchers usually look at both lab-based and human studies when trying to figure out if something causes cancer.
The following is a brief summary of some of the major studies that have looked at this issue to date. However, this is not a comprehensive review of all studies that have been done.
RF waves don’t have enough energy to damage DNA directly, the way that ionizing waves do. Because of this, it’s not clear how RF radiation might be able to cause cancer. Some studies have found possible increased rates of certain types of tumors in lab animals exposed to RF radiation, but overall, the results of these types of studies have not provided clear answers so far.
A few studies have reported evidence of biological effects that could be linked to cancer, but this is still an area of research. For example, some studies have suggested that RF radiation might stress cells. This could lead to the creation of reactive oxygen species inside the cells, which can damage DNA. However, other studies have found that RF radiation might protect cells from DNA damage.
In large studies published in 2018 by the US National Toxicology Program (NTP) and by the Ramazzini Institute in Italy, researchers exposed groups of lab rats (as well as mice, in the case of the NTP study) to RF waves over their entire bodies for many hours a day, starting before birth and continuing for at least most of their natural lives. Both studies found an increased risk of uncommon heart tumors called malignant schwannomas in male rats, but not in female rats (nor in male or female mice, in the NTP study). The NTP study also reported possible increased risks of certain types of tumors in the brain and in the adrenal glands.
While both of these studies had strengths, they also had limitations that make it hard to know how they might apply to humans being exposed to RF radiation. A 2019 review of these two studies by the International Commission on Non-Ionizing Radiation Protection (ICNIRP) determined that the limitations of the studies didn’t allow conclusions to be drawn regarding the ability of RF energy to cause cancer.
Still, the results of these studies do not rule out the possibility that RF radiation might somehow be able to impact human health. Further lab studies are needed to help better understand the possible health effects of RF radiation.
Studies of people who might have been exposed to higher levels of RF radiation at their jobs (such as people who work around or with radar equipment, those who service communication antennae, and radio operators) have found no clear increase in cancer risk.
A number of studies have looked for a possible link between cell phones and cancer. Some studies have shown a possible link, but many others have not. For many reasons, it is hard to study if there might be a link between cell phones and cancer, including the relatively short time that cell phones have been in widespread use, changes in the technology over time, and difficulty in estimating each person’s exposure. The topic of cell phones and cancer risk is covered in more detail in Cellular Phones.
The American Cancer Society (ACS) does not have an official position or statement on whether or not radiofrequency radiation from cell phones, cell phones towers, or other sources is a cause of cancer. ACS generally looks to other expert organizations to determine if something causes cancer (that is, if it is a carcinogen), including:
Other major organizations might also comment on the ability of certain exposures to cause cancer.
Based on a review of studies published up until 2011, the International Agency for Research on Cancer (IARC) has classified RF radiation as “possibly carcinogenic to humans,” based on limited evidence of a possible increase in risk for brain tumors among cell phone users, and inadequate evidence for other types of cancer. (For more information on the IARC classification system, see Known and Probable Human Carcinogens.)
In 2020, the US Food and Drug Administration (FDA) issued a technical report based on results of studies published between 2008 and 2018, as well as national trends in cancer rates. The report concluded: “Based on the studies that are described in detail in this report, there is insufficient evidence to support a causal association between radiofrequency radiation (RFR) exposure and [tumor formation].”
So far, the National Toxicology Program (NTP) has not included RF radiation in its Report on Carcinogens, which lists exposures that are known to be or reasonably anticipated to be human carcinogens. (For more on this report, see Known and Probable Human Carcinogens.)
According to the US Federal Communications Commission (FCC):
“[C]urrently no scientific evidence establishes a causal link between wireless device use and cancer or other illnesses. Those evaluating the potential risks of using wireless devices agree that more and longer-term studies should explore whether there is a better basis for RF safety standards than is currently used.”
Because sources of RF radiation are so common in the modern world, there is no way to completely avoid exposure to it. There are some ways you can lower your exposure to RF radiation, such as:
Still, it isn’t clear that doing these things will be helpful in terms of health risks.
Our team is made up of doctors and oncology certified nurses with deep knowledge of cancer care as well as journalists, editors, and translators with extensive experience in medical writing.
Along with the American Cancer Society, other sources of information include:
Federal Communications Commission (FCC)
Wireless Devices and Health Concerns: www.fcc.gov/consumers/guides/wireless-devices-and-health-concerns
RF Safety FAQ: www.fcc.gov/engineering-technology/electromagnetic-compatibility-division/radio-frequency-safety/faq/rf-safety
National Cancer Institute (NCI)
Toll-free number: 1-800-422-6237 (1-800-4-CANCER)
Electromagnetic Fields and Cancer: www.cancer.gov/about-cancer/causes-prevention/risk/radiation/electromagnetic-fields-fact-sheet
National Institute of Environmental Health Sciences (NIEHS)
Electric & Magnetic Fields: www.niehs.nih.gov/health/topics/agents/emf/index.cfm
*Inclusion on this list does not imply endorsement by the American Cancer Society.
No matter who you are, we can help. Contact us anytime, day or night, for information and support. Call us at 1-800-227-2345 or visit www.cancer.org.
Castillo M, Quencer RM. Sublethal exposure to microwave radar. JAMA. 1988;259(3):355.
Elder JA, Chou CK. Auditory response to pulsed radiofrequency energy. Bioelectromagnetics. 2003;Suppl 6:S162-73.
Elder JA. Ocular effects of radiofrequency energy. Bioelectromagnetics. 2003;Suppl 6:S148-61.
Falcioni L, Bua L, Tibaldi E, et al. Report of final results regarding brain and heart tumors in Sprague-Dawley rats exposed from prenatal life until natural death to mobile phone radiofrequency field representative of a 1.8 GHz GSM base station environmental emission. Environ Res. 2018;165:496-503.
Federal Communications Commission. RF Safety FAQ. Accessed at https://www.fcc.gov/engineering-technology/electromagnetic-compatibility-division/radio-frequency-safety/faq/rf-safety on October 26, 2022.
Food and Drug Administration. Microwave Ovens. 2020. Accessed at https://www.fda.gov/radiation-emitting-products/home-business-and-entertainment-products/microwave-ovens on October 26, 2022.
Food and Drug Administration. Products for Security Screening of People. 2018. Accessed at https://www.fda.gov/radiation-emitting-products/security-systems/products-security-screening-people on October 26, 2022.
Food & Drug Administration. Review of Published Literature between 2008 and 2018 of Relevance to Radiofrequency Radiation and Cancer. 2020. Accessed at https://www.fda.gov/media/135043/download on October 26, 2022.
Gulati S, Kosik P, Durdik M, et al. Effects of different mobile phone UMTS signals on DNA, apoptosis and oxidative stress in human lymphocytes. Environ Pollut. 2020 Dec;267:115632.
Hansson Mild K, Hand J, Hietanen M, et al. Exposure classification of MRI workers in epidemiological studies. Bioelectromagnetics. 2013 Jan;34(1):81-84.
International Agency for Research on Cancer. IARC Monographs on the Evaluation of Carcinogenic Risks to Humans. Volume 102, part 2: Non-Ionizing Radiation, Radiofrequency Electromagnetic Fields. 2013. Accessed at https://publications.iarc.fr/126 on October 26, 2022.
International Commission on Non-Ionizing Radiation Protection (ICNIRP). ICNIRP Note: Critical Evaluation of Two Radiofrequency Electromagnetic Field Animal Carcinogenicity Studies Published in 2018. Health Phys. 2019 Aug 27. [Epub ahead of print]
Jin H, Kim K, Park G-Y, et al. The protective effects of EMF-LTE against DNA double-strand break damage in vitro and in vivo. Int J Mol Sci. 2021; 22(10):5134.
Migault L, Bowman JD, Kromhout H, et al. Development of a job-exposure matrix for assessment of occupational exposure to high-frequency electromagnetic fields (3 kHz-300 GHz). Ann Work Expo Health. 2019 Nov 13;63(9):1013-1028.
National Toxicology Program. Cell Phone Radio Frequency Radiation Studies. 2019. Accessed at www.niehs.nih.gov/health/materials/cell_phone_radiofrequency_radiation_studies_508.pdf on October 26, 2022.
Saliev T, Begimbetova D, Masoud AR, Matkarimov B. Biological effects of non-ionizing electromagnetic fields: Two sides of a coin. Prog Biophys Mol Biol. 2019 Jan;141:25-36.
Smith-Roe SL, Wyde ME, Stout MD, et al. Evaluation of the genotoxicity of cell phone radiofrequency radiation in male and female rats and mice following subchronic exposure. Environ Mol Mutagen. 2020 Feb;61(2):276-290.
Schuermann D, Mevissen M. Manmade electromagnetic fields and oxidative stress - Biological effects and consequences for health. Int J Mol Sci. 2021 Apr 6;22(7):3772.
Wilén J, Hörnsten R, Sandström M, et al. Electromagnetic field exposure and health among RF plastic sealer operators. Bioelectromagnetics. 2004 Jan;25(1):5-15.
Zielinski J, Ducray AD, Moeller AM, et al. Effects of pulse-modulated radiofrequency magnetic field (RF-EMF) exposure on apoptosis, autophagy, oxidative stress and electron chain transport function in human neuroblastoma and murine microglial cells. Toxicol In Vitro. 2020 Oct;68:104963.
Last Revised: October 28, 2022