Short-term home radon tests faulty 99% of the time, Calgary study finds

Short-term radon test kits are not an effective way to find out if your home has unsafe levels of the dangerous gas, a new study says.

University of Calgary found 90-day testing gives more reliable results

University of Calgary scientist Dr. Aaron Goodarzi says his study found that short-term radon test kits for homes are not reliable. (CBC)

Short-term radon test kits are not an effective way to find out if your home has unsafe levels of the dangerous gas, a new study says.

The University of Calgary-led research published this week found that the only reliable way to measure exposure to radon gas is a long-term testing kit, which takes readings within the home for 90 or more days.

"Radon gas levels can fluctuate wildly day-to-day," says Dr. Aaron Goodarzi, who is with the university's Cumming School of Medicine and also teaches biochemistry and molecular biology.

"Short-term tests can give a false sense of alarm, or worse, a false sense of security as they cannot precisely predict long-term exposure."

The researchers placed two test kits — a five-day and 90-day — in the same homes. Tests were done during the summer and winter months.

The results showed that the short-term kits were imprecise up to 99 per cent of the time when compared to a long-term test. 

A 2017 study found that found radon levels are dangerously high in one of eight homes in the Calgary area. The new study also shows the Prairies have the second-highest radon exposed population on Earth.

Radon gas arises from the radioactive decay of radium, thorium and uranium in the bedrock and soils. It permeates through the soil under high pressure toward low- or negative-pressurized areas such as basements.

Exposure to the gas can damage human DNA and increase the risk of getting lung cancer. 

Health Canada lists radon as the No. 1 cause of lung cancer in non-smokers. It's estimated that radon kills 3,000 Canadians a year.

The Canadian guideline for radon in indoor air is 200 becquerels per cubic metre (200 Bq/m3).

The study was supported by the Alberta Real Estate Foundation, Alberta Cancer Foundation, Health Canada, the Canadian Institutes of Health Research and the Robson DNA Science Centre Fund at the Charbonneau Cancer Institute.


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