FCCC LOGO Faculty Publications
Chen L , Paskalev K , Xu X , Zhu J , Wang L , Price RA , Hu W , Feigenberg SJ , Horwitz EM , Pollack A , Ma CM
Rectal dose variation during the course of image-guided radiation therapy of prostate cancer
Radiother Oncol. 2010 May;95(2) :198-202
Back to previous list
BACKGROUND AND PURPOSE: To investigate the change in rectal dose during the treatment course for intensity-modulated radiotherapy (IMRT) of prostate cancer with image-guidance. MATERIALS AND METHODS: Twenty prostate cancer patients were recruited for this retrospective study. All patients have been treated with IMRT. For each patient, MR and CT images were fused for target and critical structure delineation. IMRT treatment planning was performed on the simulation CT images. Inter-fractional motion during the course of treatment was corrected using a CT-on-rails system. The rectum was outlined on both the original treatment plan and the subsequent daily CT images from the CT-on-rails by the same investigator. Dose distributions on these daily CT images were recalculated with the isocenter shifts relative to the simulation CT images using the leaf sequences/MUs based on the original treatment plan. The rectal doses from the subsequent daily CTs were compared with the original doses planned on the simulation CT using our clinical acceptance criteria. RESULTS: Based on 20 patients with 139 daily CT sets, 28% of the subsequent treatment dose distributions did not meet our criterion of V(40) < 35%, and 27% did not meet our criterion of V(65) < 17%. The inter-fractional rectal volume variation is significant for some patients. CONCLUSIONS: Due to the large inter-fractional variation of the rectal volume, it is more favorable to plan prostate IMRT based on an empty rectum and deliver treatment to patients with an empty rectum. Over 70% of actual treatments showed better rectal doses than our clinical acceptance criteria. A significant fraction (27%) of the actual treatments would benefit from adaptive image-guided radiotherapy based on daily CT images.
Chen, Lili Paskalev, Kamen Xu, Xiu Zhu, Jennifer Wang, Lu Price, Robert A Hu, Wei Feigenberg, Steven J Horwitz, Eric M Pollack, Alan Ma, C M Charlie eng CA78331/CA/NCI NIH HHS/ Research Support, N.I.H., Extramural Research Support, U.S. Gov't, Non-P.H.S. Ireland Radiother Oncol. 2010 May;95(2):198-202. doi: 10.1016/j.radonc.2010.02.023. Epub 2010 Mar 18.