Motion mitigation in scanned ion beam therapy through 4D-optimization

Physica Medica

Volumn 30, Issue 5, 2014, Pages 570-577

  Graeff, Christian ^a  

^a GSI HELMHOLTZZENTRUM FÜR SCHWERIONENFORSCHUNG GMBH   (Germany)

Author keywords

4D optimization; Intrafractional motion; Motion mitigation; Treatment planning

Indexed keywords

ARTICLE; BODY MOVEMENT; DOSIMETRY; HUMAN; ION THERAPY; PHOTON THERAPY; PROCESS OPTIMIZATION; RADIATION BEAM; RADIATION DOSE; RADIATION DOSE DISTRIBUTION; RADIATION DOSE ESCALATION; RADIATION FIELD; RADIATION MONITORING; TREATMENT DURATION; TREATMENT PLANNING; COMPUTER ASSISTED RADIOTHERAPY; FOUR DIMENSIONAL COMPUTED TOMOGRAPHY; LUNG NEOPLASMS; MOVEMENT (PHYSIOLOGY); PATHOPHYSIOLOGY; PHOTON; PROCEDURES; RADIOGRAPHY; THERAPEUTIC USE;

FOUR-DIMENSIONAL COMPUTED TOMOGRAPHY; HUMANS; LUNG NEOPLASMS; MOVEMENT; PHOTONS; RADIOTHERAPY PLANNING, COMPUTER-ASSISTED;

EID: 84902255043     PISSN: 11201797     EISSN: 1724191X     Source Type: Journal    
DOI: 10.1016/j.ejmp.2014.03.011     Document Type: Article

References (46)

1. Ferlay J., Shin H.R., Bray F., Forman D., Mathers C., Parkin D.M. Estimates of worldwide burden of cancer in 2008: GLOBOCAN 2008. Int J Cancer 2010, 127:2893-2917.
2. Greco C., Zelefsky M.J., Lovelock M., Fuks Z., Hunt M., Rosenzweig K., et al. Predictors of local control after single-dose stereotactic image-guided intensity-modulated radiotherapy for extracranial metastases. Int J Radiat Oncol Biol Phys 2011, 79:1151-1157.
3. Sharma A., Wong D., Weidlich G., Fogarty T., Jack A., Sumanaweera T., et al. Noninvasive stereotactic radiosurgery (CyberHeart) for creation of ablation lesions in the atrium. Heart Rhythm 2010, 7:802-810.
4. Constantinescu A, Lehmann HI, Graeff C, Packer D, Durante M, Bert C. Planning studies for non-invasive isolation of the pulmonary veins with a scanned carbon ion beam. In: PTCOG 52. Essen, Germany; 2013.
5. Bert C., Durante M. Motion in radiotherapy: particle therapy. Phys Med Biol 2011, 56:R113-R144.
6. Knopf A.C., Boye D., Lomax A., Mori S. Adequate margin definition for scanned particle therapy in the incidence of intrafractional motion. Phys Med Biol 2013, 58:6079-6094.
7. Keall P.J. 4-dimensional computed tomography imaging and treatment planning. Semin Radiat Oncol 2004, 14:81-90.
8. Papiez L., Rangaraj D., Keall P. Real-time DMLC IMRT delivery for mobile and deforming targets. Med Phys 2005, 32:3037-3048.
9. Papiez L., McMahon R., Timmerman R. 4D DMLC leaf sequencing to minimize organ at risk dose in moving anatomy. Med Phys 2007, 34:4952-4956.
10. Trofimov A., Rietzel E., Lu H.M., Martin B., Jiang S., Chen G.T.Y., et al. Temporo-spatial IMRT optimization: concepts, implementation and initial results. Phys Med Biol 2005, 50:2779-2798.
11. Rietzel E., Chen G.T.Y., Choi N.C., Willet C.G. Four-dimensional image-based treatment planning: target volume segmentation and dose calculation in the presence of respiratory motion. Int J Radiat Oncol Biol Phys 2005, 61:1535-1550.
12. Ma Y., Lee L., Keshet O., Keall P., Xing L. Four-dimensional inverse treatment planning with inclusion of implanted fiducials in IMRT segmented fields. Med Phys 2009, 36:2215-2221.
13. Zhang T., Jeraj R., Keller H., Lu W., Olivera G.H., McNutt T.R., et al. Treatment plan optimization incorporating respiratory motion. Med Phys 2004, 31:1576-1586.
14. Zhang T., Lu W., Olivera G.H., Keller H., Jeraj R., Manon R., et al. Breathing-synchronized delivery: a potential four-dimensional tomotherapy treatment technique. Int J Radiat Oncol Biol Phys 2007, 68:1572-1578.
15. Ma Y., Chang D., Keall P., Xie Y., Park J.Y., Suh T.S., et al. Inverse planning for four-dimensional (4D) volumetric modulated arc therapy. Med Phys 2010, 37:5627-5633.
16. Chin E., Otto K. Investigation of a novel algorithm for true 4D-VMAT planning with comparison to tracked, gated and static delivery. Med Phys 2011, 38:2698-2707.
17. Chin E., Loewen S.K., Nichol A., Otto K. 4D VMAT, gated VMAT, and 3D VMAT for stereotactic body radiation therapy in lung. Phys Med Biol 2013, 58:749-770.
18. Schlaefer A., Fisseler J., Dieterich S., Shiomi H., Cleary K., Schweikard A. Feasibility of four-dimensional conformal planning for robotic radiosurgery. Med Phys 2005, 32:3786-3792.
19. Tewatia D., Zhang T., Tome W., Paliwal B., Metha M. Clinical implementation of target tracking by breathing synchronized delivery. Med Phys 2006, 33:4330-4336.
20. Tewatia D., Chebrolu V., Tolakanahalli R., Paliwal B., Tome W. Efficacy assessment of breathing phase adaptive lung tumor motion management for various degrees of freedom in Volumetric Modulated Arc Therapy (VMAT). Int J Radiat Oncol Biol Phys 2011, 81:S846-847.
21. Li X., Wang X., Li Y., Zhang X. A4D IMRT planning method using deformable image registration to improve normal tissue sparing with contemporary delivery techniques. Radiat Oncol 2011, 6:83.
22. Keall P.J., Joshi S., Vedam S.S., Siebers J.V., Kini V.R., Mohan R. Four-dimensional radiotherapy planning for DMLC-based respiratory motion tracking. Med Phys 2005, 32:942-951.
23. Nohadani O., Seco J., Bortfeld T. Motion management with phase-adapted 4D-optimization. Phys Med Biol 2010, 55:5189-5202.
24. Rietzel E., Bert C. Respiratory motion management in particle therapy. Med Phys 2010, 37:449-460.
25. Graeff C., Durante M., Bert C. Motion mitigation in intensity modulated particle therapy by internal target volumes covering range changes. Med Phys 2012, 39:6004-6013.
26. Bert C., Saito N., Schmidt A., Chaudhri N., Schardt D., Rietzel E. Target motion tracking with a scanned particle beam. Med Phys 2007, 34:4768-4771.
27. Saito N., Bert C., Chaudhri N., Gemmel A., Schardt D., Rietzel E. Speed and accuracy of a beam tracking system for treatment of moving targets with scanned ion beams. Phys Med Biol 2009, 54:4849-4862.
28. Safai S., Bula C., Meer D., Pedroni E. Improving the precision and performance of proton pencil beam scanning. Transl Cancer Res October 2012, 1(3). Translational Cancer Research (Particle Beam Therapy I) 2012.
29. Lüchtenborg R., Saito N., Durante M., Bert C. Experimental verification of a real-time compensation functionality for dose changes due to target motion in scanned particle therapy. Med Phys 2011, 38:5448-5458.
30. Bert C., Gemmel A., Saito N., Chaudhri N., Schardt D., Durante M., et al. Dosimetric precision of an ion beam tracking system. Radiat Oncol 2010, 5:61.
31. Krämer M., Durante M. Ion beam transport calculations and treatment plans in particle therapy. Eur Phys J D 2010, 60:195-202.
32. Elsässer T., Scholz M. Cluster effects within the local effect model. Radiat Res 2007, 167:319-329.
33. Richter D., Schwarzkopf A., Trautmann J., Kramer M., Durante M., Jakel O., et al. Upgrade and benchmarking of a 4D treatment planning system for scanned ion beam therapy. Med Phys 2013, 40:051722.
34. Eley J. Scanned ion beam therapy for thoracic tumors 2013, PhD thesis, The University of Texas M. D. Anderson Cancer Center.
35. Graeff C., Constantinescu A., Luchtenborg R., Durante M., Bert C. Multigating, a 4D optimized beam tracking in scanned ion beam therapy. Technol Cancer Res Treat 2013, [Epub ahead of print].
36. Graeff C., Luchtenborg R., Eley J.G., Durante M., Bert C. A4D-optimization concept for scanned ion beam therapy. Radiother Oncol 2013, 109:419-424.
37. Furukawa T., Inaniwa T., Sato S., Shirai T., Mori S., Takeshita E., et al. Moving target irradiation with fast rescanning and gating in particle therapy. Med Phys 2010, 37:4874-4879.
38. Miyamoto T., Yamamoto N., Nishimura H., Koto M., Tsuji H., Mizoe J.E., et al. Carbon ion radiotherapy for stage I non-small cell lung cancer. Radiother Oncol 2003, 66:127-140.
39. Shackleford J.A., Kandasamy N., Sharp G.C. On developing B-spline registration algorithms for multi-core processors. Phys Med Biol 2010, 55:6329-6351.
40. Elsässer T., Weyrather W.K., Friedrich T., Durante M., Iancu G., Krämer M., et al. Quantification of the relative biological effectiveness for ion beam radiotherapy: direct experimental comparison of proton and carbon ion beams and a novel approach for treatment planning. Int J Radiat Oncol Biol Phys 2010, 78:1177-1183.
41. Kumagai M., Hara R., Mori S., Yanagi T., Asakura H., Kishimoto R., et al. Impact of intrafractional bowel gas movement on carbon ion beam dose distribution in pancreatic radiotherapy. Int J Radiat Oncol Biol Phys 2009, 73:1276-1281.
42. Seco J., Robertson D., Trofimov A., Paganetti H. Breathing interplay effects during proton beam scanning: simulation and statistical analysis. Phys Med Biol 2009, 54:N283-N294.
43. Boye D., Lomax T., Knopf A. Mapping motion from 4D-MRI to 3D-CT for use in 4D dose calculations: a technical feasibility study. Med Phys 2013, 40:061702.
44. Nohadani O., Seco J., Martin B.C., Bortfeld T. Dosimetry robustness with stochastic optimization. Phys Med Biol 2009, 54:3421-3432.
45. Chen W., Unkelbach J., Trofimov A., Madden T., Kooy H., Bortfeld T., et al. Including robustness in multi-criteria optimization for intensity-modulated proton therapy. Phys Med Biol 2012, 57:591-608.
46. Kraus K.M., Heath E., Oelfke U. Dosimetric consequences of tumour motion due to respiration for a scanned proton beam. Phys Med Biol 2011, 56:6563-6581.