Radon gas—the hidden killer

Background.

Radon is a naturally occurring radioactive soil gas that is produced from the process of radioactive decay of radium, thorium, and uranium in soils and rocks throughout the world.³ Radon itself is not a problem, but its products of degradation, called radon daughters, are solid radioactive particles that can stick to any surface, such as dust or lung epithelium, and the α radiation emanated from them severely damages DNA, potentially leading to lung cancer. Radon is the principal cause of lung cancer in non-smokers and the second most common cause in smokers,^4–6 and lifetime risk of lung cancer increases in a linear fashion with radon exposure.^3,7 The risk depends on radon concentration, the duration of exposure, and smoking habits. Indeed, the risk of lung cancer in smokers is greatly potentiated by radon exposure³ (1 in 20 for non-smokers vs 1 in 3 for smokers⁵).

Exposure to inhaled radon was first identified as a cause of lung cancer by epidemiologic studies of uranium among miners,^8–10 and current evidence strongly indicates that exposure to high levels found in homes and workplaces provides an increased risk of developing lung cancer.^11–13 Elevated risk of other types of cancer was not identified when a pooled analysis of miner cohorts exposed to radon was performed.¹² Radon is odourless, colourless, and tasteless, making it difficult to detect. In nature, radon ascends through small spaces in the soil reaching the surface and atmosphere. In outdoor air, radon is diluted and is not a health concern. When a house is heated, air rises within the house producing a negative pressure, which draws radon from the ground; the gas accumulates, reaching high concentrations, and becomes a health hazard. This is especially evident during winter months when houses are less ventilated to retain heat. Radon diffuses into houses by cracks in the basement, floor drains, and sump holes, and by cracks in hollow blocks or exposed soil and rock in crawl spaces. Radon can also enter houses when it is dissolved in well water and then spread through running water from taps and showers.¹⁴

Some genes might modulate the carcinogenic pathway of radon radiation. A hospital-based case-control study involving 792 patients found that the absence of genes GSTM1 and GSTT1 increased the risk of lung cancer when exposed to radon.¹⁵ The absence of these genes results in decreased production of protective enzymes (eg, glutathione S-transferases) for cellular detoxification processes.¹⁶ The GSTM1 and GSTT1 genes can be deleted in up to 50% and 20% of white patients, respectively.¹⁷

As more knowledge is obtained about this gas, many countries have decreased the permissible levels for exposure. In 2007, Health Canada decreased the national maximum acceptable guideline for indoor air from 800 Bq/m³ to 200 Bq/m³.¹⁸ However, the recommendation for the maximum acceptable radon exposure by the World Health Organization is 100 Bq/m³,⁴ and entities such us the International Commission on Radiological Protection and the International Atomic Energy Agency recommend reducing radon concentrations to as low as reasonably possible below the set standards.^19–21

Radon meters are used to test levels in houses, and cost-effective methods are available to reduce radon gas when high levels are found in dwellings. Radon meters are used to test levels in houses. If elevated, increasing ventilation in basements, sealing floors and walls, and depressurizing subslabs are effective measures.⁵ Ventilation alone can sometimes increase radon levels, as radon can be sucked in owing to relative negative pressure built inside the house.

Role of family physicians.

It is estimated that 21 100 Canadian deaths due to lung cancer occurred in 2017² (an increased number of deaths per year from previous estimations³), and 16% of them were due to radon exposure.^6,22 There are no areas in Canada that are radon free,²² and it has been found that 7% of Canadian houses have radon levels above the recommended Canadian maximum.¹³ For these reasons, patient education, health prevention, promotion of health, and health advocacy need to be undertaken by family physicians.

Family doctors screen for and educate patients about different types of cancer on a daily basis (cervical, colon, prostate, breast, skin) and also counsel against smoking to prevent lung cancer. Thus, family physicians are in the perfect position to disseminate radon prevention education to prevent further lung cancer in both patients who smoke and those who do not, and such education should therefore be included in routine screening activities. A short educational sentence during the periodic health review appointment can provide the needed information. Providing handouts and website educational links can allow for more structured instruction (Table 1). The only way to determine if a home has elevated radon levels is to measure those levels in the home.¹³ The physician can provide further guidance based on that measured radon level.

Patients can purchase 1-time test kits online or from hardware stores at affordable prices ($30 to $70). These devices collect measurements for a 90-day period and are then sent to a laboratory for analysis. Another option is to obtain electronic radon monitors (about $260), which provide daily, weekly, and monthly average concentrations. If high levels are found (> 200 Bq/m³), prompt actions to decrease radon levels are required, and standard steps to assess for lung cancer should be followed. The patient’s clinical assessment can include a complete history, focusing in particular on smoking habits, family history of cancer, and previous exposure to pollution and environmental pollutants, and a focused physical examination. Unfortunately, no guidelines exist to inform further steps. If no abnormalities are found, long-term surveillance and periodic reassessment is prudent, and evaluation of other people who live in the same household should be ensured.

Investigations could include, in some cases, chest radiographs or computed tomography scans for patients with prolonged exposure to high levels of radon and positive physical findings, but once again, there are no recommendations or guidelines as to how to study this in patients. If any abnormality is found during clinical or radiological assessment, referral to a lung specialist could be necessary for cases that require further investigation, such as bronchoscopy-guided biopsy or open lung biopsy. If cancer is encountered, referral to an oncologist is clearly necessary.

There is evidence that exposure to radon in childhood increases lifetime risk of developing lung cancer²³; if a child was exposed to very high levels of radon at home for only a few years, his or her risk of developing lung cancer as an adult could be equivalent to that following lifetime exposure to moderate levels of radon.²³ For this reason, the higher the concentration of radon, the sooner remedial action should be taken.²⁴ Besides medical assessment, if patients identify elevated radon levels through home self-testing, recommend that they contact certified professionals in radon mitigation to manage or reduce concentration of radon at home (Table 1). The average cost for house mitigation is between $1500 and $3000, depending on the precise engineering details of the residence.⁶

Physicians across Canada can influence the determinants of health through requests to government entities to create requirements to meet the national guideline for radon in indoor air,²¹ to reduce the maximum permissible indoor levels to 100 Bq/m³, to request actions to achieve levels as low as reasonably possible below this level,²¹ and to provide specific community-level information to inform local policies to guide testing and remediation.²⁵ Recommendations for preventive actions that are being introduced in Ontario and Quebec, including testing and mitigation for houses, day-care centres, schools, workplaces, and public-access buildings, should be implemented across Canada. To further encourage health prevention actions, tax deduction incentives or subsidies could be offered to citizens with low income to facilitate measurement of radon levels in their dwellings.^3,21