Evolution of motion uncertainty in rectal cancer: implications for adaptive radiotherapy

Publication date

2016

Authors

Kleijnen, Jean Paul Johannes
van Asselen, BISNI 0000000391220676
Burbach, J P Maarten
Intven, Martijn PwORCID 0000-0002-5068-5517ISNI 0000000393019546
Philippens, Mariëlle E PORCID 0000-0003-0205-3459ISNI 0000000387302804
Reerink, O.ISNI 0000000393077738
Lagendijk, J J WISNI 0000000393637862
Raaymakers, Bas WORCID 0000-0002-8036-6808ISNI 0000000392005337

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Document Type

Article

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taverne

Abstract

Reduction of motion uncertainty by applying adaptive radiotherapy strategies depends largely on the temporal behavior of this motion. To fully optimize adaptive strategies, insight into target motion is needed. The purpose of this study was to analyze stability and evolution in time of motion uncertainty of both the gross tumor volume (GTV) and clinical target volume (CTV) for patients with rectal cancer. We scanned 16 patients daily during one week, on a 1.5 T MRI scanner in treatment position, prior to each radiotherapy fraction. Single slice sagittal cine MRIs were made at the beginning, middle, and end of each scan session, for one minute at 2 Hz temporal resolution. GTV and CTV motion were determined by registering a delineated reference frame to time-points later in time. The 95th percentile of observed motion (dist95%) was taken as a measure of motion. The stability of motion in time was evaluated within each cine-MRI separately. The evolution of motion was investigated between the reference frame and the cine-MRIs of a single scan session and between the reference frame and the cine-MRIs of several days later in the course of treatment. This observed motion was then converted into a PTV-margin estimate. Within a one minute cine-MRI scan, motion was found to be stable and small. Independent of the time-point within the scan session, the average dist95% remains below 3.6 mm and 2.3 mm for CTV and GTV, respectively 90% of the time. We found similar motion over time intervals from 18 min to 4 days. When reducing the time interval from 18 min to 1 min, a large reduction in motion uncertainty is observed. A reduction in motion uncertainty, and thus the PTV-margin estimate, of 71% and 75% for CTV and tumor was observed, respectively. Time intervals of 15 and 30 s yield no further reduction in motion uncertainty compared to a 1 min time interval.

Keywords

Taverne, Journal Article

Citation

Kleijnen, J-P J E, van Asselen, B, Burbach, J P M, Intven, M, Philippens, M E P, Reerink, O, Lagendijk, JJW & Raaymakers, B W 2016, 'Evolution of motion uncertainty in rectal cancer : implications for adaptive radiotherapy', Physics in Medicine and Biology, vol. 61, no. 1, pp. 1-11. https://doi.org/10.1088/0031-9155/61/1/1