Estimated radiation exposure and cancer risk from CT and PET/CT scans in patients with lymphoma.

[hodgkin lymphoma, classical]

The purpose of this study was to estimate total effective dose and cancer risk related to treatment monitoring and surveillance computed tomography (CT ) scans in a cohort of patients diagnosed with lymphoma .76 patients with head , neck , chest , abdomen or pelvis CT and whole-body positron emission tomography (PET )/CT were identified from an institutional lymphoma database ; this included 54 (71 %) patients with non-Hodgkin and 22 (29 %) patients with classical Hodgkin lymphoma . Average treatment and surveillance periods were 8 months (range , 3 -14 mo ) and 23 months (range , 1 -40 mo ), respectively . Radiation exposure was estimated from the dose-length product (DLP ) for CT scans and milli-Curies and DLP for PET /CT scans . Cancer risk was estimated using the Biological Effects of Ionizing Radiation model .During their treatment period , 45 patients had 161 CT exams and 39 patients had 73 PET /CT exams . Mean effective dose was 39 .3 mSv (range , 7 .1 -100 mSv ). During the surveillance period , 60 patients had 378 CT exams and 25 patients had 39 PET /CT exams . Mean effective dose was 53 .2 mSv (range , 2 .6 -154 mSv ). Seventeen of 76 (22 .4 %) patients had total cumulative doses greater than 100 mSv . The mean increase in estimated cancer risk was 0 .40 %; the greatest estimated risk to any one patient was 1 .19 %.Mean total effective dose and mean estimated cancer risk were low in patients with lymphoma undergoing serial imaging , suggesting that theoretical risks of radiation-induced cancer need not be a major consideration in radiologic follow-up .