Publications in peer-reviewed journals
Accepted!
  • Kong W. Huiskes M., Habraken S., Astreinidou E., Rasch C., Heijmen B. & Breedveld S. (2025) Automated planning for bias-free validation of discrete proton arc therapy for oropharyngeal cancer Int. J. Particle Therapy

2025
  1. Giżyńska M., Oud M. Breedveld S., Heijmen B. & Hoogeman M. (2025) Automatic target delineation for online adaptive H&N IMPT with a plan library approach – a feasibility study Phys. Medica 139 105191 (DOI)
  2. De Jong J.I., Habraken S., Rojo-Santiago J., Lathouwers D., Perkó Z., Breedveld S. & Hoogeman M. (2025) Probabilistic evaluation guided IMPT planning with realistic setup and range uncertainties improves OAR sparing or target coverage in neuro-oncological patients Radiother. Oncol. 213 111171 (DOI)
  3. Rossi L., Bijman R., Chopra S., Mittal P., Panda S., Westerveld H., Christianen M., Kolkman-Deurloo I-K, Breedveld S., Nout R. & Heijmen B. (2025) Rule-based AI automated adaptive treatment planning for image guided cervical cancer brachytherapy Brachyt. 24 711-720 (DOI)
  4. Huiskes M., Kong W., Breedveld S., Crama K., Habraken S., Heijmen B., Rasch C. & Astreinidou E. (2025) Validation of Fully Automated Intensity-Modulated Proton Therapy with and without Transmission Beams for Nasopharyngeal Cancer phiRO 35 100831 (DOI)
  5. Poel R., Rüfenacht E., Scheib S., Hemmatazad H., Krcek R., Tran S., Edourd R., Rogers S., Stieb S., Riyas Poolakundan M., Al-Abdulla H., Foerster R., Schröder C., Oehler C., Hong J., Breedveld S., Andratschke1 N., Manser P., Fix M., Aebersold D., Reyes M. & Ermiş E. (2025) COMMUTE: A Comprehensive Multifaceted Technical Evaluation Framework for Implementation of Auto-Segmentation Models in Radiotherapy Communications Medicine 5 319 (DOI)
  6. Rossi L., Bijman R., Westerveld H., Christianen M., Luthart L., Huge M., Kolkman-Deurloo I-K., Mens J-W., Abusaris H., de Boer R., Breedveld S., Heijmen B., & Nout R. (2025) Prospective evaluation of AI-based BiCycle autoplanning for advanced cervical cancer brachytherapy Radiother. Oncol. 210 111029 (DOI)
  7. Oud M., Breedveld S., Ng Wei Siang K., Cassetta R., Habraken S., Perkó Z., Heijmen B. & Hoogeman M. (2025) A planning approach for online adaptive proton therapy to cope with cone beam computed tomography inaccuracies phiRO 34 100752 (DOI)
  8. Kong W., Huiskes M., Habraken S., Astreinidou E., Rasch C., Heijmen B. & Breedveld S. (2025) ‘iCycle-pBAO’: Automated patient-specific beam-angle selection in proton therapy applied to oropharyngeal cancer Radiother. Oncol. 203 110662 (DOI)
  9. Van Genderingen J. Nguyen D., Knuth F., Nomer H., Incrocci L., Sharfo A-W., Zolnay A., Oelfke U., Jiang S., Rossi L., Heijmen B. & Breedveld S. (2025) Deep learning dose prediction to approach Erasmus-iCycle dosimetric plan quality within seconds for instantaneous treatment planning Radiother. Oncol. 203 110662 (DOI)
2024
  1. Nomer H., Kunth F., van Genderingen J. Nguyen D., Sattler M., Zolnay A., Oelfke U., Jiang S., Rossi L., Heijmen B. & Breedveld S. (2024) Deep learning prediction of scenario doses for direct plan robustness evaluations in IMPT for head-and-neck Phys. Med. Biol. 69 225014 (DOI)
  2. Oud M., Breedveld S., Giżyńska M., Chen Y., Habraken S., Perkó Z., Heijmen B. & Hoogeman M. (2024) Dosimetric advantages of adaptive IMPT vs. enhanced workload and treatment time -- a need for automation Radiother. Oncol. 201 110548 (DOI)
  3. Kong W., Huiskes M., Habraken S., Astreinidou E., Rasch C., Heijmen B. & Breedveld S. (2024) Improving IMPT dose by integrating transmission pencil beams for lateral penumbra sharpening Radiother. Oncol. 198 110388 (DOI)
  4. Huiskes M., Kong W., Oud M., Crama K., Rasch C., Breedveld S., Heijmen B. & Astreinidou E. (2024) Validation of fully automated robust multi-criterial treatment planning for HNC IMPT Int. J. Radiat. Oncol. Biol. Phys. 119 968-977 (DOI)
  5. Fjellanger K., Heijmen B., Breedveld S., Sandvik I-M. & Hysing L. (2024) Deep inspiration breath hold in intensity modulated proton therapy of locally advanced lung cancer phiRO 30 100590 (DOI)
  6. Oud M., Breedveld S., Rojo Santiago J., Giżyńska M., Kroesen M., Habraken S., Perkó Z., Heijmen B. & Hoogeman M. (2024) A fast and robust constraint-based online re-optimization approach for automated online adaptive intensity modulated proton therapy in head and neck cancer Phys. Med. Biol. 69 075007 (DOI)
  7. Kong W., Oud M., Habraken S., Huiskes M., Astreinidou E., Rasch C., Heijmen B. & Breedveld S. (2024) SISS-MCO: large scale Sparsity-Induced Spot Selection for fast and fully-automated robust multi-criteria optimization of proton plans Phys. Med. Biol. 69 055035 (DOI)
  8. Kuipers S., Godart J., Corbeau A., Breedveld S., Mens J-W., de Boer S., Nout R. & Hoogeman M. (2024) Dosimetric impact of bone marrow sparing for robustly optimized IMPT for locally advanced cervical cancer Radiother. Oncol. 195 110222 (DOI)
  9. Koteva V., Eiben B., Dunlop A., Gupta A., Gangil T., Wong K., Breedveld S., Nill S., Harrington K. & Oelfke U. (2024) Clinical acceptance and dosimetric impact of automatically delineated elective target and organs at risk for head and neck MR-Linac patients Front. Radiat. Ther. On. 14 (DOI)
2023
  1. Kuipers S., Godart J., Corbeau A., Sharfo A-W., Breedveld S., Mens J-W., de Boer S., Nout R. & Hoogeman M. (2023) The impact of bone marrow sparing on organs at risk dose for cervical cancer: a Pareto front analysis Front. Radiat. Ther. On. 13 1-9 (DOI)
  2. Fjellanger K., Hordnes M., Sandvik I., Sulen T., Heijmen B., Breedveld S., Rossi L., Pettersen H. & Bolstad Hysing L. (2023) Improving knowledge-based treatment planning for lung cancer radiotherapy with automatic multi-criteria optimized training plans Acta Oncol. (DOI)
  3. Rossi L., Breedveld S., & Heijmen B. (2023) Per-fraction planning to enhance optimization degrees of freedom compared to the conventional single-plan approach Phys. Med. Biol. 68 175014 (DOI)
  4. Huiskes M., Astreinidou E., Kong W., Breedveld S., Heijmen B. & Rasch C. (2023) Dosimetric impact of adaptive proton therapy in head and neck cancer – a review Clin. Tran. Radiat. Oncol. 39 100598 (DOI)
  5. Santo R., Habraken S., Breedveld S. & Hoogeman M. (2023) Pencil-beam delivery pattern optimization increases dose rate for stereotactic FLASH proton therapy Int. J. Radiat. Oncol. Biol. Phys. 115 759-767(DOI)
2022
  1. Oud M., Breedveld S., Giżyńska M., Kroesen M., Hutschemaekers S. Habraken S., Petit S., Perkó Z., Heijmen B. & Hoogeman M. (2022) An online adaptive plan library approach for intensity modulated proton therapy for head and neck cancer Radiother. Oncol. 176 68-75 (DOI)
  2. Habraken S., Breedveld S., Groen J., Nuyttens J. & Hoogeman M. (2022) Trade-off in healthy tissue sparing of FLASH and fractionation in stereotactic proton therapy of lung lesions with transmission beams Radiother. Oncol. 175 231-237 (DOI)
  3. Fjellanger K., Rossi L., Heijmen B., Pettersen H., Sandvik I., Breedveld S., Sulen T. & Bolstad Hysing L. (2022) Patient selection, inter-fraction plan robustness and reduction of toxicity risk with deep inspiration breath hold in intensity-modulated radiotherapy of locally advanced non-small cell lung cancer Front. Radiat. Ther. On. (DOI)
  4. Leitão J., Bijman R., Sharfo A-W., Brusa Y., Rossi L., Breedveld S. & Heijmen B. (2022) Automated multi-criterial planning with beam angle optimization to develop non-coplanar VMAT class solutions for nasopharyngeal carcinoma Phys. Medica 101 20-27 (DOI)
  5. Schipaanboord B., Heijmen B. & Breedveld S. (2022) TBS-BAO: Fully automated beam angle optimization for IMRT guided by a Total-Beam-Space reference plan Phys. Med. Biol. 67 035004 (DOI)
2021
  1. Jagt T., Breedveld S. & Hoogeman M. (2021) Evaluation of alternative parameter settings for dose restoration and full plan adaptation in IMPT for prostate cancer Phys. Medica 92 15-23 (DOI)
  2. Fjellanger K., Bolstad Hysing L., Heijmen B., Pettersen H., Sandvik I., Sulen T., Breedveld S. & Rossi L. (2021) Enhancing radiotherapy for Locally Advanced Non-Small Cell Lung Cancer patients with iCE, a novel system for automated multi-criterial treatment planning including beam angle optimization Cancers 13 5683 (DOI)
  3. Bijman R., Rossi L., Janssen T., de Ruiter P., van Triest B., Breedveld S., Sonke J-J., & Heijmen B. (2021) MR-Linac Radiotherapy – The Beam Angle Selection Problem Front. Radiat. Ther. On. 11 3916 (DOI)
  4. Schipaanboord B., Giżyńska M., Rossi L., de Vries K., Heijmen B. & Breedveld S. (2021) Fully automated treatment planning for MLC-based robotic radiotherapy Med. Phys. 48 4139-4147(DOI)
  5. Petit S., Breedveld S., Unkelbach J., den Hertog D. & Balvert M. (2021) Robust dose-painting-by-numbers vs. non-selective dose escalation for non-small cell lung cancer patients Med. Phys. 48 3096-3108 (DOI)
  6. Sharfo A-W., Rossi L., Dirkx M., Breedveld S., Aluwini S. & Heijmen B. (2021) Complementing prostate SBRT VMAT with a two-beam non-coplanar IMRT class solution to enhance rectum and bladder sparing with minimum increase in treatment time Front. Radiat. Ther. On. 11 620978 (DOI)
  7. Bijman R., Sharfo A-W., Rossi L., Breedveld S. & Heijmen B. (2021) Pre-clinical validation of a novel system for fully-automated treatment planning Radother. Oncol. 158 253-261 (DOI)
  8. Rossi L., Cambraia Lopes P., Marquez Leitão J., Janus C., van De Pol M., Breedveld S., Penninkhof J. & Heijmen B. (2021) On the importance of individualized, non-coplanar beam configurations in mediastinal lymphoma radiotherapy, optimized with automated planning Front. Radiat. Ther. On. 11 619929 (DOI)
2020
  1. Kandalan R., Nguyen D., Rezaeian N., Barragán-Montero A., Breedveld S., Namuduri K., Jiang S. & Lin M-H. (2020) Dose prediction with deep learning for prostate cancer radiation therapy: model adaptation to different treatment planning practices Radiother. Oncol. 153 228-235 (DOI)
  2. Jagt T., Breedveld S., van Haveren R., Heijmen B. & Hoogeman M. (2020) Online-adaptive versus robust IMPT for prostate cancer: how much can we gain? Radiother. Oncol. 151 228-233 (DOI)
  3. Hoekstra N., Habraken S., Swaak-Kragten A., Breedveld S., Pignol J-P. & Hoogeman M. (2020) Reducing the risk of secondary lung cancer in treatment planning of accelerated partial breast irradiation Front. Radiat. Ther. On. 10 1445 (DOI)
  4. Schipaanboord B., Heijmen B. & Breedveld S. (2020) Accurate 3D-dose-based generation of MLC segments for robotic radiotherapy Phys. Med. Biol. 65 175011 (DOI)
  5. Bijman R., Rossi L., Janssen T., de Ruiter P., Carbaat C., van Triest B., Breedveld S., Sonke J-J. & Heijmen B. (2020) First system for fully-automated multi-criterial treatment planning for a high-magnetic field MR-Linac applied to rectal cancer Acta Onocol. 59 926-932 (DOI)
  6. Bijman R., Rossi L., Sharfo A-W., Heemsbergen W., Incrocci L., Breedveld S. & Heijmen B. (2020) Automated radiotherapy planning for patient-specific exploration of the trade-off between tumor dose coverage and predicted radiation-induced toxicity – a proof of principle study for prostate cancer Front. Radiat. Ther. On. 10 943 (DOI)
  7. Oud M., Kolkman-Deurloo I-K., Mens J-W., Lathouwers D., Perkó Z., Heijmen B. & Breedveld S. (2020) Fast and fully-automated multi-criterial treatment planning for adaptive HDR brachytherapy for locally advanced cervical cancer Radiother. Oncol. 148 143-150 (DOI)
  8. Van Haveren R., Heijmen B. & Breedveld S. (2020) Automatic configuration of the reference point method for fully automated multi-objective treatment planning applied to oropharyngeal cancer Med. Phys. 47 1499-1508 (DOI)
2019
  1. Breedveld S., Bennan A., Aluwini S., Schaart D., Kolkman-Deurloo I-K. & Heijmen B. (2019) Fast automated multi-criteria planning for HDR brachytherapy explored for prostate cancer Phys. Med. Biol. 64 205002 (DOI)
  2. Jagt T., Breedveld S., van Haveren R. Nout R., Astreinidou E., Heijmen B. & Hoogeman M. (2019) Plan-library supported automated replanning for online-adaptive intensity-modulated proton therapy of cervical cancer Acta Oncol. 58 1440-1445 (DOI)
  3. Van Haveren R. & Breedveld S. (2019) Fast and exact Hessian computation for a class of nonlinear functions used in radiation therapy treatment planning Phys. Med. Biol. 64 16NT01 (DOI, CORRIGENDUM)
  4. Schipaanboord B., Breedveld S., Rossi L., Keijzer M. & Heijmen B. (2019) Automated prioritised 3D dose-based MLC segment generation for step-and-shoot IMRT Phys. Med. Biol. 64 165013 (DOI)
  5. Breedveld S., Craft D., van Haveren R. & Heijmen B. (2019) Multi-criteria optimisation and decision-making in radiotherapy Eur. J. Oper. Res. 277 1-19 (DOI)
  6. Rossi L., Méndez Romero A., Milder M., de Klerk E., Breedveld S. & Heijmen B. (2019) Individualized automated planning for dose bath reduction in robotic radiosurgery for benign tumors PLoS One 14 e0210279 (DOI)
  7. Van Haveren R., Heijmen B. & Breedveld S. (2019) Automatically configuring the reference point method for automated multi-objective treatment planning Phys. Med. Biol. 64 035002 (DOI)
2018
  1. Rossi L., Sharfo A-W., Aluwini S., Dirkx M., Breedveld S. & Heijmen B. (2018) First fully automated planning solution for robotic radiosurgery - comparison with automatically planned volumetric arc therapy for prostate cancer Acta Oncol. 57 1490-1498 (DOI)
  2. Jagt T., Breedveld S., van Haveren R., Heijmen B. & Hoogeman M. (2018) An Automated Planning Strategy for Near Real-Time Adaptive Proton Therapy in Prostate Cancer Phys. Med. Biol. 63 135017 (DOI)
  3. Sharfo A-W., Dirkx M., Bijman R., Schillemans W., Breedveld S., Aluwini S., Pos F., Incrocci L. & Heijmen B. (2018) Late toxicity in the randomized multicenter HYPRO trial for prostate cancer analyzed with automated treatment planning Radiother. Oncol. 128 349-356 (DOI)
  4. Heijmen B., Voet P., Fransen D., Penninkhof J., Milder M., Akhiat H., Bonomo P., Casati M., Georg D., Goldner G., Henry A., Lilley J., Lohr F., Marrazzo L., Pallotta S., Pellegrini R., Seppenwoolde Y., Simontacchi G., Steil V., Stieler F., Wilson S. & Breedveld S. (2018) Fully automated, multi-criterial planning for Volumetric Modulated Arc Therapy – An international multi-center validation for prostate cancer Radiother. Oncol. 128 343-348(DOI)
  5. Sharfo A-W., Stieler F., Kupfer O., Heijmen B., Dirkx M., Breedveld S., Wenz F., Lohr F., Boda-Heggemann J. & Buergy D. (2018) Automated VMAT planning for postoperative adjuvant treatment of advanced gastric cancer Radiat. Oncol. 13 74 (DOI)
  6. Buschmann M., Sharfo A-W., Penninkhof J., Seppenwoolde Y., Goldner G., Georg D., Breedveld S. & Heijmen B. (2017) Automated volumetric modulated arc therapy planning for whole pelvic prostate radiotherapy Strahlenther. Onkol. 194 333-342 (DOI)
2017
  1. Arts T., Breedveld S., de Jong M., Astreinidou E., Tans L., Keskin-Cambay F., Krol A., van de Water S., Bijman R. & Hoogeman M. (2017) The impact of treatment accuracy on proton therapy patient selection for oropharyngeal patients Radiother. Oncol. 125 520-525 (DOI)
  2. Bijman R., Breedveld S., Arts T., Astreinidou E., de Jong M., Granton P., Petit S. & Hoogeman M. (2017) Impact of model and dose uncertainty on model-based selection of oropharyngeal cancer patients for proton therapy Acta Oncol. 56 1444-1450 (DOI)
  3. Breedveld S., van den Berg B. & Heijmen B. (2017) An interior-point implementation developed and tuned for radiation therapy treatment planning Comput. Optim. Appl. 68 209-242 (DOI)
  4. Van Haveren R., Breedveld S., Keijzer M., Voet P., Heijmen B. & Ogryczak W. (2017) Lexicographic Extension of the Reference Point Method Applied in Radiation Therapy Treatment Planning Eur. J. Oper. Res. 263 247–257 (DOI)
  5. Sharfo A-W., Dirkx M., Breedveld S., Méndez Romero A. & Heijmen B. (2017) VMAT plus a few computer-optimized non-coplanar IMRT beams (VMAT+) tested for liver SBRT Radiother. Oncol. 123 49-56 (DOI)
  6. Van Haveren R., Ogryczak W., Verduijn G., Keijzer M., Heijmen B. & Breedveld S. (2017) Fast and fuzzy multi-objective radiotherapy treatment plan generation for head-and-neck cancer patients with the lexicographic reference point method (LRPM) Phys. Med. Biol. 62 4318 (DOI)
  7. Jagt T., Breedveld S., van de Water S., Heijmen B. & Hoogeman M. (2017) Near real-time automated dose restoration in IMPT to compensate for daily tissue density variations in prostate cancer Phys. Med. Biol. 62 4254 (DOI)
  8. Penninkhof J., Spadola S., Breedveld S., Baaijens M., Lanconelli N. & Heijmen B. (2017) Individualized selection of beam angles and treatment isocenter in tangential breast IMRT Int. J. Radiat. Oncol. Biol. Phys. 98 447-453 (DOI)
  9. Breedveld S. & Heijmen B. (2017) Data for TROTS - The Radiotherapy Optimisation Test Set Data in Brief 12 143-149 (TROTS location, DOI)
  10. Buergy D., Sharfo A-W., Heijmen B., Voet P., Breedveld S., Wenz F., Lohr F. & Stieler F. (2017) Fully automated treatment planning of spinal metastases - A comparison to manual planning of Volumetric Modulated Arc Therapy for conventionally fractionated irradiation Radiat. Oncol. 12 33 (DOI)
2016
  1. Sharfo A-W., Breedveld S., Voet P., Heijkoop S., Mens J-W., Hoogeman M. & Heijmen B. (2016) Validation of fully automated VMAT plan generation for library-based plan-of-the-day cervical cancer radiotherapy PLoS One 11 e0169202 (DOI)
  2. Wang Y., Breedveld S., Heijmen B. & Petit S. (2016) Evaluation of plan quality assurance models for prostate cancer patients based on fully automatically generated Pareto-optimal treatment plans Phys. Med. Biol. 61 4268 (DOI)
2015
  1. Rossi L., Breedveld S., Aluwini S. & Heijmen B. (2015) Non-coplanar beam angle class solutions to replace time-consuming patient-specific beam angle optimization in robotic prostate SBRT Int. J. Radiat. Oncol. Biol. Phys. 92 762-770 (DOI)
  2. Sharfo A-W., Voet P., Breedveld S., Mens J-W., Hoogeman M. & Heijmen B. (2015) Comparison of VMAT and IMRT strategies for cervical cancer patients using automated planning Radiother. Oncol. 114 395-401 (DOI)
2014
  1. Voet P., Dirkx M., Breedveld S., Al-Mamgani A., Incrocci L. & Heijmen B. (2014) Fully automated VMAT plan generation for prostate cancer patients Int. J. Radiat. Oncol. Biol. Phys. 88 1175-1179 (DOI)
  2. Budiarto E., Keijzer M., Storchi P., Heemink A., Breedveld S. & Heijmen B. (2014) Computation of mean and variance of the radiotherapy dose for PCA-modeled random shape and position variations of the target Phys. Med. Biol. 59 289 (DOI)
2013
  1. Leinders S., Breedveld S., Méndez Romero A., Schaart D., Seppenwoolde Y. & Heijmen B. (2013) Adaptive liver stereotactic body radiation therapy: Automated daily plan reoptimization prevents dose delivery degradation caused by anatomy deformations Int. J. Radiat. Oncol. Biol. Phys. 87 1016-1021 (DOI)
  2. Van de Water S., Kraan A., Breedveld S., Schillemans W., Teguh D., Kooy H., Madden T., Heijmen B. & Hoogeman M. (2013) Improved efficiency of multi-criteria IMPT treatment planning using iterative resampling of randomly placed pencil beams Phys. Med. Biol. 58 6969 (DOI)
  3. Voet P., Dirkx M., Breedveld S. & Heijmen B. (2013) Automated generation of IMRT treatment plans for prostate cancer patients with metal hip prostheses: Comparison of different planning strategies Med. Phys. 40 071704 (DOI)
  4. Voet P., Dirkx M., Breedveld S., Fransen D., Levendag P. & Heijmen B. (2013) Toward fully automated multicriterial plan Generation: a prospective clinical study Int. J. Radiat. Oncol. Biol. Phys. 85 866-872 (DOI)
2012
  1. Rossi L., Breedveld S., Heijmen B., Voet P., Lanconelli N. & Aluwini S. (2012) On the beam direction search space in computerized non-coplanar beam angle optimization for IMRT -- prostate SBRT Phys. Med. Biol. 57 5441-5458 (DOI)
  2. Voet P., Breedveld S., Dirkx M., Levendag P. & Heijmen B. (2012) Integrated multicriterial optimization of beam angles and intensity profiles for coplanar and noncoplanar head and neck IMRT and implications for VMAT Med. Phys. 39 4858-4865 (DOI)
  3. Breedveld S., Storchi P. Voet P. & Heijmen B. (2012) iCycle: Integrated, multicriterial beam angle, and profile optimization for generation of coplanar and noncoplanar IMRT plans Med. Phys. 39 951-963 (DOI)
  4. Osman S., Astreinidou E., de Boer H., Keskin-Cambay F., Breedveld S., Voet P., Al-Mamgani A., Heijmen B. & Levendag P. (2012) IMRT for image-guided single vocal cord irradiation Int. J. Radiat. Oncol. Biol. Phys. 82 989-997 (DOI)
2011
  1. Van de Water S., Hoogeman M., Breedveld S., Nuyttens J., Schaart D. & Heijmen B. (2011) Variable circular collimator in robotic radiosurgery: a time-efficient alternative to a mini-multileaf collimator? Int. J. Radiat. Oncol. Biol. Phys. 81 863-870 (DOI)
  2. Van de Water S., Hoogeman M., Breedveld S. & Heijmen B. (2011) Shortening treatment time in robotic radiosurgery using a novel node reduction technique Med. Phys. 38 1397-1405 (DOI)
2009
  1. Breedveld, S., Storchi, P. & Heijmen, B. (2009) The equivalence of multi-criteria methods for radiotherapy plan optimization Phys. Med. Biol. 54 7199-7209 (DOI)
2007
  1. Breedveld, S., Storchi, P., Keijzer, M., Heemink, A. & Heijmen, B. (2007) A novel approach to multi-criteria inverse planning for IMRT Phys. Med. Biol. 52 6339-6353 (DOI)
2006
  1. Breedveld, S., Storchi, P., Keijzer, M. and Heijmen, B. (2006) Fast, multiple optimizations of quadratic dose objective functions in IMRT Phys. Med. Biol. 51 3569-3579 (DOI)