Universal evaluation of MLC models in treatment planning systems based on a common set of dynamic tests

Jordi Saez; Raquel Bar-Deroma; Evelien Bogaert; Romain Cayez; Tom Chow; Catharine H Clark; Marco Esposito; Vladimir Feygelman; Angelo F Monti; Julia Garcia-Miguel; Eduard Gershkevitsh; Jo Goossens; Carmen Herrero; Mohammad Hussein; Catherine Khamphan; Roel G J Kierkels; Wolfgang Lechner; Matthieu Lemire; Alexander Nevelsky; Daniel Nguyen; Lucia Paganini; Marlies Pasler; José Fernando Pérez Azorín; Luis Isaac Ramos Garcia; Serenella Russo; John Shakeshaft; Laure Vieillevigne; Victor Hernandez

doi:10.1016/j.radonc.2023.109775

Universal evaluation of MLC models in treatment planning systems based on a common set of dynamic tests

Radiother Oncol. 2023 Sep:186:109775. doi: 10.1016/j.radonc.2023.109775. Epub 2023 Jun 28.

Authors

Jordi Saez¹, Raquel Bar-Deroma², Evelien Bogaert³, Romain Cayez⁴, Tom Chow⁵, Catharine H Clark⁶, Marco Esposito⁷, Vladimir Feygelman⁸, Angelo F Monti⁹, Julia Garcia-Miguel¹⁰, Eduard Gershkevitsh¹¹, Jo Goossens¹², Carmen Herrero¹³, Mohammad Hussein¹⁴, Catherine Khamphan¹⁵, Roel G J Kierkels¹⁶, Wolfgang Lechner¹⁷, Matthieu Lemire¹⁸, Alexander Nevelsky², Daniel Nguyen¹⁹, Lucia Paganini²⁰, Marlies Pasler²¹, José Fernando Pérez Azorín²², Luis Isaac Ramos Garcia²³, Serenella Russo²⁴, John Shakeshaft²⁵, Laure Vieillevigne²⁶, Victor Hernandez²⁷

Affiliations

¹ Hospital Clínic de Barcelona, Department of Radiation Oncology, Barcelona, Spain. Electronic address: jordi.saez@gmail.com.
² Rambam Health Care Campus, Department of Radiotherapy, Division of Oncology, Haifa, Israel.
³ Ghent University Hospital and Ghent University, Department of Radiation Oncology, Ghent, Belgium.
⁴ Oscar Lambret Center, Department of Medical Physics, Lille, France.
⁵ Juravinski Hospital and Cancer Centre at Hamilton Health Sciences, Department of Medical Physics, Ontario, Canada.
⁶ National Physical Laboratory, Metrology for Medical Physics Centre, London TW11 0PX, UK; Radiotherapy Physics, University College London Hospital, 250 Euston Rd, London NW1 2PG, UK; Dept Medical Physics and Bioengineering, University College London, Malet Place, London WC1 6BT, UK.
⁷ AUSL Toscana Centro, Medical Physics Unit, Florence, Italy; The Abdus Salam International Center for Theoretical, Trieste, Italy.
⁸ Moffitt Cancer Center, Department of Radiation Oncology, Tampa, FL, USA.
⁹ ASST GOM Niguarda, Department of Medical Physics, Milano, Italy.
¹⁰ Consorci Sanitari de Terrassa, Department of Radiation Oncology, Terrassa, Spain.
¹¹ North Estonia Medical Centre, Department of Medical Physics, Tallinn, Estonia.
¹² Iridium Netwerk, Department of Medical Physics, Antwerp, Belgium.
¹³ Centro Médico de Asturias-IMOMA, Department of Medical Physics, Oviedo, Spain.
¹⁴ National Physical Laboratory, Metrology for Medical Physics Centre, London TW11 0PX, UK.
¹⁵ Institut du Cancer - Avignon Provence, Department of Medical Physics, Avignon, France.
¹⁶ Radiotherapiegroep, Department of Medical Physics, Arnhem/Deventer, the Netherlands.
¹⁷ Medical University of Vienna, Department of Radiation Oncology, Vienna, Austria.
¹⁸ CIUSSS de l'Est-de-l'Île-de-Montréal, Service de Radio-Physique, Montréal, Canada.
¹⁹ Centre de Radiothérapie de Mâcon, France.
²⁰ Humanitas Clinical and Research Center, Radiotherapy and Radiosurgery Department, Rozzano, Italy.
²¹ Lake Constance Radiation Oncology Center, Department of Radiation Oncology, Singen, Friedrichshafen, Germany; Radiotherapy Hirslanden, St. Gallen, Switzerland.
²² Medical Physics and Radiation Protection Department, Gurutzeta-Cruces University Hospital, Barakaldo, Spain; Biocruces Health Research Institute, Barakaldo, Spain.
²³ Servei de Radiofísica Hospitalària, Hospital Arnau de Vilanova, Lleida, Spain.
²⁴ AUSL Toscana Centro, Medical Physics Unit, Florence, Italy.
²⁵ Gold Coast University Hospital, ICON Cancer Centre, Gold Coast, Australia.
²⁶ Institut Claudius Regaud-Institut Universitaire du Cancer de Toulouse, Department of Medical Physics, Toulouse, France.
²⁷ Hospital Sant Joan de Reus, Department of Medical Physics, Reus, Spain; Universitat Rovira i Virgili, Tarragona, Spain.

PMID: 37385376
DOI: 10.1016/j.radonc.2023.109775

Abstract

Purpose: To demonstrate the feasibility of characterising MLCs and MLC models implemented in TPSs using a common set of dynamic beams.

Materials and methods: A set of tests containing synchronous (SG) and asynchronous sweeping gaps (aSG) was distributed among twenty-five participating centres. Doses were measured with a Farmer-type ion chamber and computed in TPSs, which provided a dosimetric characterisation of the leaf tip, tongue-and-groove, and MLC transmission of each MLC, as well as an assessment of the MLC model in each TPS. Five MLC types and four TPSs were evaluated, covering the most frequent combinations used in radiotherapy departments.

Results: Measured differences within each MLC type were minimal, while large differences were found between MLC models implemented in clinical TPSs. This resulted in some concerning discrepancies, especially for the HD120 and Agility MLCs, for which differences between measured and calculated doses for some MLC-TPS combinations exceeded 10%. These large differences were particularly evident for small gap sizes (5 and 10 mm), as well as for larger gaps in the presence of tongue-and-groove effects. A much better agreement was found for the Millennium120 and Halcyon MLCs, differences being within ± 5% and ± 2.5%, respectively.

Conclusions: The feasibility of using a common set of tests to assess MLC models in TPSs was demonstrated. Measurements within MLC types were very similar, but TPS dose calculations showed large variations. Standardisation of the MLC configuration in TPSs is necessary. The proposed procedure can be readily applied in radiotherapy departments and can be a valuable tool in IMRT and credentialing audits.

Keywords: Audits; Comissioning; IMRT; MLC; Standardization; VMAT.

MeSH terms

Humans
Phantoms, Imaging
Radiometry / methods
Radiotherapy Dosage
Radiotherapy Planning, Computer-Assisted* / methods
Radiotherapy, Intensity-Modulated* / methods