On-line MR imaging for dose validation of abdominal radiotherapy

Publication date

2015-11-21

Authors

Glitzner, M
Crijns, S P MISNI 0000000396863953
de Senneville, B. Denis
Kontaxis, C
Prins, F M
Lagendijk, J J WISNI 0000000393637862
Raaymakers, Bas WORCID 0000-0002-8036-6808ISNI 0000000392005337

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Advisors

Supervisors

Document Type

Article

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License

taverne

Abstract

For quality assurance and adaptive radiotherapy, validation of the actual delivered dose is crucial.Intrafractional anatomy changes cannot be captured satisfactorily during treatment with hitherto available imaging modalitites. Consequently, dose calculations are based on the assumption of static anatomy throughout the treatment. However, intra- and interfraction anatomy is dynamic and changes can be significant.In this paper, we investigate the use of an MR-linac as a dose tracking modality for the validation of treatments in abdominal targets where both respiratory and long-term peristaltic and drift motion occur.The on-line MR imaging capability of the modality provides the means to perform respiratory gating of both delivery and acquisition yielding a model-free respiratory motion management under free breathing conditions.In parallel to the treatment, the volumetric patient anatomy was captured and used to calculate the applied dose. Subsequently, the individual doses were warped back to the planning grid to obtain the actual dose accumulated over the entire treatment duration. Ultimately, the planned dose was validated by comparison with the accumulated dose.Representative for a site subject to breathing modulation, two kidney cases (25 Gy target dose) demonstrated the working principle on volunteer data and simulated delivery. The proposed workflow successfully showed its ability to track local dosimetric changes. Integration of the on-line anatomy information could reveal local dose variations  -2.3-1.5 Gy in the target volume of a volunteer dataset. In the adjacent organs at risk, high local dose errors ranging from  -2.5 to 1.9 Gy could be traced back.

Keywords

dose reconstruction, respiratory motion compensation, adaptive radiotherapy, hypofractionated treatment, local deformations, MR guidance, Taverne

Citation

Glitzner, M, Crijns, S P M, de Senneville, B D, Kontaxis, C, Prins, F M, Lagendijk, J J W & Raaymakers, B W 2015, 'On-line MR imaging for dose validation of abdominal radiotherapy', Physics in Medicine and Biology, vol. 60, no. 22, pp. 8869-8883. https://doi.org/10.1088/0031-9155/60/22/8869