Increased use of computed tomography (CT) in pediatrics raises concerns about cancer
risk from exposure to ionizing radiation.
To quantify trends in the use of CT in pediatrics and the associated radiation exposure
and cancer risk.
Retrospective observational study.
Seven US health care systems.
The use of CT was evaluated for children younger than 15 years of age from 1996 to
2010, including 4 857 736 child-years of observation. Radiation doses were calculated
for 744 CT scans performed between 2001 and 2011.
Rates of CT use, organ and effective doses, and projected lifetime attributable risks
of cancer. RESULTS The use of CT doubled for children younger than 5 years of age
and tripled for children 5 to 14 years of age between 1996 and 2005, remained stable
between 2006 and 2007, and then began to decline. Effective doses varied from 0.03
to 69.2 mSv per scan. An effective dose of 20 mSv or higher was delivered by 14% to
25% of abdomen/pelvis scans, 6% to 14% of spine scans, and 3% to 8% of chest scans.
Projected lifetime attributable risks of solid cancer were higher for younger patients
and girls than for older patients and boys, and they were also higher for patients
who underwent CT scans of the abdomen/pelvis or spine than for patients who underwent
other types of CT scans. For girls, a radiation-induced solid cancer is projected
to result from every 300 to 390 abdomen/pelvis scans, 330 to 480 chest scans, and
270 to 800 spine scans, depending on age. The risk of leukemia was highest from head
scans for children younger than 5 years of age at a rate of 1.9 cases per 10 000 CT
scans. Nationally, 4 million pediatric CT scans of the head, abdomen/pelvis, chest,
or spine performed each year are projected to cause 4870 future cancers. Reducing
the highest 25% of doses to the median might prevent 43% of these cancers.
The increased use of CT in pediatrics, combined with the wide variability in radiation
doses, has resulted in many children receiving a high-dose examination. Dose-reduction
strategies targeted to the highest quartile of doses could dramatically reduce the
number of radiation-induced cancers.