Your search keyword '"Willemsen-Bosman, M."' showing total 4 results

1. Online adaptive MR-guided radiotherapy for rectal cancer; feasibility of the workflow on a 1.5T MR-linac; clinical implementation and initial experience

Author

MS Radiotherapie, Cancer, Trialbureau Beeld, Fysica Radiotherapie Research, Klinische Fysica RT, Intven, M P W, de Mol van Otterloo, S R, Mook, S, Doornaert, P A H, de Groot-van Breugel, E N, Sikkes, G G, Willemsen-Bosman, M E, van Zijp, H M, Tijssen, R H N, MS Radiotherapie, Cancer, Trialbureau Beeld, Fysica Radiotherapie Research, Klinische Fysica RT, Intven, M P W, de Mol van Otterloo, S R, Mook, S, Doornaert, P A H, de Groot-van Breugel, E N, Sikkes, G G, Willemsen-Bosman, M E, van Zijp, H M, and Tijssen, R H N

Published

2021

2. Adaptive radiotherapy: The Elekta Unity MR-linac concept

Author

Winkel, D., Bol, G.H., Kroon, P.S., Asselen, B. van, Hackett, S.S., Werensteijn-Honingh, A.M., Intven, M.P.W., Eppinga, W.S.C., Tijssen, R.H.N., Kerkmeijer, L.G.W., Boer, H.C. de, Mook, S., Meijer, G.J, Hes, J., Willemsen-Bosman, M., Breugel, E.N. de Groot-van, Jurgenliemk-Schulz, I.M., Raaymakers, B.W., Winkel, D., Bol, G.H., Kroon, P.S., Asselen, B. van, Hackett, S.S., Werensteijn-Honingh, A.M., Intven, M.P.W., Eppinga, W.S.C., Tijssen, R.H.N., Kerkmeijer, L.G.W., Boer, H.C. de, Mook, S., Meijer, G.J, Hes, J., Willemsen-Bosman, M., Breugel, E.N. de Groot-van, Jurgenliemk-Schulz, I.M., and Raaymakers, B.W.

Abstract

Contains fulltext : 215382.pdf (publisher's version ) (Open Access), Background and purpose: The promise of the MR-linac is that one can visualize all anatomical changes during the course of radiotherapy and hence adapt the treatment plan in order to always have the optimal treatment. Yet, there is a trade-off to be made between the time spent for adapting the treatment plan against the dosimetric gain. In this work, the various daily plan adaptation methods will be presented and applied on a variety of tumour sites. The aim is to provide an insight in the behavior of the state-of-the-art 1.5T MRI guided on-line adaptive radiotherapy methods. Materials and methods: To explore the different available plan adaptation workflows and methods, we have simulated online plan adaptation for five cases with varying levels of inter-fraction motion, regions of interest and target sizes: prostate, rectum, esophagus and lymph node oligometastases (single and multiple target). The plans were evaluated based on the clinical dose constraints and the optimization time was measured. Results: The time needed for plan adaptation ranged between 17 and 485s. More advanced plan adaptation methods generally resulted in more plans that met the clinical dose criteria. Violations were often caused by insufficient PTV coverage or, for the multiple lymph node case, a too high dose to OAR in the vicinity of the PTV. With full online replanning it was possible to create plans that met all clinical dose constraints for all cases. Conclusion: Daily full online replanning is the most robust adaptive planning method for Unity. It is feasible for specific sites in clinically acceptable times. Faster methods are available, but before applying these, the specific use cases should be explored dosimetrically.

Published

2019

3. Treatment robustness of total body irradiation with volumetric modulated arc therapy.

Author

Seravalli E, Willemsen-Bosman M, Zoetelief A, Roosenboom S, Harderwijk T, Krikke L, Bol G, Kotte A, Huijboom E, van Loon K, and Hoeben B

Abstract

This study evaluated the robustness of multi-isocenter Volumetric Modulated Arc Therapy Total Body Irradiation dose distribution in the overlapping region between the head-first and feet-first computed tomography scans, considering the longitudinal isocenter shifts recorded during treatment delivery. For 15 out of 22 patients, the dose distribution in the overlapping region fulfilled all three the robustness criteria. The overlapping region dose distribution of the remaining 7 cases fulfilled two robustness criteria. The dose distribution was found to be robust against daily recorded longitudinal isocenter shifts, as a consequence of the patient position verification procedure, of up to 16 mm., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2024 The Author(s).)

Published

2024

4. Adaptive radiotherapy: The Elekta Unity MR-linac concept.

Author

Winkel D, Bol GH, Kroon PS, van Asselen B, Hackett SS, Werensteijn-Honingh AM, Intven MPW, Eppinga WSC, Tijssen RHN, Kerkmeijer LGW, de Boer HCJ, Mook S, Meijer GJ, Hes J, Willemsen-Bosman M, de Groot-van Breugel EN, Jürgenliemk-Schulz IM, and Raaymakers BW

Abstract

Background and Purpose: The promise of the MR-linac is that one can visualize all anatomical changes during the course of radiotherapy and hence adapt the treatment plan in order to always have the optimal treatment. Yet, there is a trade-off to be made between the time spent for adapting the treatment plan against the dosimetric gain. In this work, the various daily plan adaptation methods will be presented and applied on a variety of tumour sites. The aim is to provide an insight in the behavior of the state-of-the-art 1.5 T MRI guided on-line adaptive radiotherapy methods., Materials and Methods: To explore the different available plan adaptation workflows and methods, we have simulated online plan adaptation for five cases with varying levels of inter-fraction motion, regions of interest and target sizes: prostate, rectum, esophagus and lymph node oligometastases (single and multiple target). The plans were evaluated based on the clinical dose constraints and the optimization time was measured., Results: The time needed for plan adaptation ranged between 17 and 485 s. More advanced plan adaptation methods generally resulted in more plans that met the clinical dose criteria. Violations were often caused by insufficient PTV coverage or, for the multiple lymph node case, a too high dose to OAR in the vicinity of the PTV. With full online replanning it was possible to create plans that met all clinical dose constraints for all cases., Conclusion: Daily full online replanning is the most robust adaptive planning method for Unity. It is feasible for specific sites in clinically acceptable times. Faster methods are available, but before applying these, the specific use cases should be explored dosimetrically.

Published

2019