Background: Patients with Ewing sarcoma are subject to various diagnostic procedures that incur exposure to ionising radiation.
Objective: To estimate the radiation doses received from all radiologic and nuclear imaging episodes during diagnosis and treatment, and to determine whether 18F-fluorodeoxyglucose positron emission tomography - computed tomography (18F-FDG PET-CT) is a major contributor of radiation.
Materials and methods: Twenty Ewing sarcoma patients diagnosed in Norway in 2005-2012 met the inclusion criteria (age <30 years, operable disease, uncomplicated chemotherapy and surgery, no metastasis or residual disease within a year of diagnosis). Radiation doses from all imaging during the first year were calculated for each patient.
Results: The mean estimated cumulative radiation dose for all patients was 34 mSv (range: 6-70), radiography accounting for 3 mSv (range: 0.2-12), CT for 13 mSv (range: 2-28) and nuclear medicine for 18 mSv (range: 2-47). For the patients examined with PET-CT, the mean estimated cumulative effective dose was 38 mSv, of which PET-CT accounted for 14 mSv (37%).
Conclusion: There was large variation in number and type of examinations performed and also in estimated cumulative radiation dose. The mean radiation dose for patients examined with PET-CT was 23% higher than for patients not examined with PET-CT.
Keywords: 18F-fluorodeoxyglucose positron emission tomography – computed tomography (18F-FDG PET-CT); Adolescents; Children; Computed tomography; Ewing sarcoma; Oncological treatment protocol; Radiation dose; Radiography.