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Health-Care Providers Often Underestimate the Cancer Risk from CT Scans

by Dr. Trupti Shirole on  June 24, 2016 at 6:32 AM Research News   - G J E 4
The issue of radiation exposure is significant as doctors continue to order computed tomography (CT) scans with increasing frequency. In Canada alone, there were an estimated 4.4 million CT scans conducted in 2011-2012. While most doctors, radiologists, and imaging technologists recognize there is an increased risk of cancer from CT, many underestimate the actual radiation dose, revealed a new study in the Journal of Medical Imaging and Radiation Sciences.
 Health-Care Providers Often Underestimate the Cancer Risk from CT Scans
Health-Care Providers Often Underestimate the Cancer Risk from CT Scans
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CT scans are an invaluable diagnostic tool in modern medicine, but they do come at a price: exposing patients to potentially dangerous ionizing radiation. Doctors and other healthcare professionals may not be fully aware of a CT scan's effect on lifetime malignancy risk.

‘While most doctors, radiologists, and imaging technologists recognize there is an increased risk of cancer from CT, many underestimate the actual radiation dose.’
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Researchers from the University of Saskatchewan wanted to assess healthcare providers' knowledge regarding radiation dosing from CT scans. Using a survey of medical professionals in Saskatchewan, investigators found that 73% of physicians, 97% of radiologists, and 76% of technologists correctly identified that there is an increased cancer risk from one abdominal-pelvic CT. However, only 18% of physicians, 28% of radiologists, and 22% of technologists were able to correctly identify the dose in relation to chest x-rays. Although 48% of physicians, 78% of radiologists and 63% of technologists either accurately estimated or overestimated this dose, many respondents underestimated the dose level.

"Underestimating radiation dose from a CT scan is more concerning than knowing the exact dose level, particularly when it is a vast underestimation, as this may lead to minimization of the risk estimate when considering a test," explained lead investigator David Leswick, Department of Medical Imaging, College of Medicine, University of Saskatchewan (Saskatoon, Saskatchewan).

Measured in millisieverts (mSv), the average radiation dose from an abdominal-pelvic CT is 10 mSv, compared to 0.02 to 0.2 mSv from one chest x-ray, meaning that a radiation dose from a CT scan is best approximated as between that from 100-250 chest radiographs.

"Although risk from radiation dose levels in the range of medical imaging procedures is small, it is real as evidenced from atomic bomb survivors and nuclear industry workers showing significantly increased risk of malignancy after exposure to doses in the range of diagnostic CT," said Dr. Leswick. "The risk of fatal malignancy may be as high as one in 1000 for a 10-mSv exposure (approximate dose of an abdomen-pelvis CT). This risk is significant on a population basis, with up to 2% of cancers in the United States population possibly attributable to CT."

With such a clear risk relationship between radiation exposure and cancer, it is imperative that healthcare providers understand the facts to ensure the benefits outweigh the possible danger when ordering a diagnostic CT. The survey indicated that 93% of respondents were interested in radiation dose feedback when considering ordering a CT scan. Automated dose calculation software and radiology information systems can be integrated into electronic ordering, which would give doctors immediate access to information when considering ordering a scan.

Another interesting aspect highlighted by the survey was some confusion regarding radiation exposure from magnetic resonance imaging (MRI) and ultrasound. MRIs and ultrasounds do not employ ionizing radiation and yet 20% of physicians, 6% of radiologists, and 7% of technologists attributed radiation exposure to MRIs and 11% of physicians, 0% of radiologists, and 7% of technologists believed an ultrasound used radiation. "Belief that ionizing radiation is utilized by ultrasound and MRI is troubling as it may result in underutilization of these imaging modalities because of unfounded radiation concerns," added Dr. Leswick.

While CT scans can be a lifesaving diagnostic tool, they also present a potential danger if they are overused or incorrectly implemented. It is vital that doctors and other healthcare practitioners fully understand the implications of ordering a CT scan and that patients are counseled appropriately about all available forms of testing and the potential radiation exposure involved.

"Unfortunately, healthcare providers including physicians, radiologists, and medical imaging technologists are often not aware of radiation doses for common CT scans," concluded Dr. Leswick. "It is important for healthcare professionals (including referring physicians, radiologists, and technologists) to be aware of radiation dose levels and risks from imaging tests for several reasons, including the ability to weigh the risks and benefits of tests, counsel patients on relevant risks, optimize protocols to minimize radiation dose, and select appropriate protocols to minimize radiation dose."

Source: Eurekalert
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