ESTRO 2023 - Abstract Book

S1437

Digital Posters

ESTRO 2023

Conclusion IQM is a reliable tool for PSQA. With the new updated version, that was introduced and tested in our clinic before making it available on the market, a marked improvement in the performances was achieved for plans containing large number of segments with a small area. Complexity analysis proved to be a useful tool for evaluating the behavior of the calculation model.

PO-1721 A new light on dose verification of high modulated spine SBRT plans with FFF

M. Oellers 1 , A. Swinnen 1 , M. Walpot 1 , F. Verhaegen 1

1 MAASTRO, Medical Physics, MAASTRICHT, The Netherlands

Purpose or Objective Stereotactic body radiotherapy (SBRT) for spine is related to complex highly modulated plans in a heterogenous tissue environment. Treatment with 10 MV flattening filter free (FFF) beams ensures fast treatment times and consequently less chance of intra-fraction movement. In recent literature dose verification anomalies up to 10% have been seen for these plans and these were contributed to plan complexity and inaccurate dosimetric leaf gap (DLG) values in Eclipse TPS [1,2]. However we will show that, in high density tissue like bone, the dose anomalies are more likely to be related to the dose reporting mode in Acuros, being either dose-to-medium (D2M) or dose-to-water (D2M) in relation to homogeneous and heterogeneous dose verification phantoms. This is supported by recent findings in [3]. Materials and Methods In total 13 spine SBRT patients were selected and planned with VMAT, 10MV FFF and Acuros using D2M in Eclipse TPS (v16.1). Patients were treated on a Truebeam STx linac. Dose verification plans were calculated in D2M and D2W. The homogeneous PTW Octavius phantom with 1000 SRS detector and heterogeneous CIRS E2E SBRT phantom using EBT-XD film were used for the verification measurements. Verisoft (PTW) and FilmQA pro (Ashland) software was used for analysis based on gamma pass rates. Pass rates above 90% with 2%/2mm at the 80% isodose were considered as clinically acceptable.

Results Verification plans calculated with

D2M and D2W and measured in Octavius/1000 SRS showed clinically acceptable gamma pass rates in 4 (31%) and 12 (92%) patients, respectively. Verification plans calculated with D2M and measured in a heterogeneous anthropomorphic phantom showed clinically acceptable plans in all 13 (100%) patients [Fig.1].

Conclusion Water-equivalent phantoms like Octavius/1000 SRS should be used with caution for dose verification in bone tissue like spine. Acceptable results were however acquired if D2W was used as dose reporting mode in Acuros. The most realistic and accurate dose verification method for spine SBRT is to report in D2M and perform the dose verification in a heterogeneous anthropomorphic phantom. [1] Kim J, Han JS, Hsia AT, Li S, Xu Z, Ryu S. Relationship between dosimetric leaf gap and dose calculation errors for high definition multi-leaf collimators in radiotherapy. Phys Imaging Radiat Oncol. 2018 Feb 20;5:31-36. doi: 10.1016/j.phro.2018.01.003. [2] Vieillevigne L, Khamphan C, Saez J, Hernandez V. On the need for tuning the dosimetric leaf gap for stereotactic treatment plans in the Eclipse treatment planning system. J Appl Clin Med Phys. 2019 Jul;20(7):68-77. doi: 10.1002/acm2.12656. Epub 2019 Jun 21. PMID: 31225938; PMCID: PMC6612699.