Article: Impact of the Acuros XB spatial discretization error on ArcCHECK VMAT QA for small-field SBRT

Purpose: To evaluate the impact of the Acuros XB spatial discretization errors on ArcCHECK volumetric modulated arc therapy (VMAT) QA for small-field SBRT plans.

Methods: Eighteen SBRT VMAT arcs that failed the ArcCHECK VMAT QA were retrospectively analyzed. Plan verification doses were calculated using Eclipse Acuros XB, and absolute 3%/2 mm gamma passing rates were calculated to compare ArcCHECK and MapCHECK2 with MapPHAN. Verification doses were recalculated using AAA in Eclipse and with the EGSnrc Monte Carlo package. In addition, error-reduced Acuros XB doses were calculated by subdividing the entire arc into several sub-arcs ("split-arc" method), with the angular ranges of the sub-arcs optimized to balance accuracy and efficiency. Relative gamma passing rates were calculated and compared for the four methods: (1) Acuros XB; (2) AAA; (3) EGSnrc Monte Carlo; and (4) the split-arc method.

Results: The absolute gamma passing rates were below 90% for ArcCHECK and above 95% for MapCHECK2. The averaged relative gamma passing rates were (1) 84.7% for clinical Acuros XB; (2) 96.8% for AAA; (3) 98.8% for EGSnrc Monte Carlo; and (4) 96.8% for the split-arc method with 60° sub-arc angle. Compared to the clinical Acuros XB, the split-arc method improved the relative gamma passing rate by 12.1% on average. No significant difference was found between AAA and the split-arc method (p > 0.05).

Conclusion: The Acuros XB spatial discretization errors can significantly impact the ArcCHECK VMAT QA results for small-field SBRT plans. The split-arc method may be used to improve the VMAT QA results.

Citing Articles

Dosimetric effects of small field size, dose grid size, and variable split-arc methods on gamma pass rates in radiation therapy.

Kuwae T, Ariga T, Kusada T, Nishie A Radiol Phys Technol. 2024; 17(3):620-628.

PMID: 38767777 DOI: 10.1007/s12194-024-00809-7.

Influence of dose calculation algorithms on the helical diode array using volumetric-modulated arc therapy for small targets.

Ono T, Hirashima H, Adachi T, Iramina H, Fujimoto T, Uto M J Appl Clin Med Phys. 2024; 25(7):e14307.

PMID: 38363044 PMC: 11244667. DOI: 10.1002/acm2.14307.

Impact of the Acuros XB spatial discretization error on ArcCHECK VMAT QA for small-field SBRT.

He C, Pant A, Le A J Appl Clin Med Phys. 2023; 24(9):e14100.

PMID: 37563870 PMC: 10476976. DOI: 10.1002/acm2.14100.

References

1.

Arumugam S, Xing A, Young T, Holloway L . Sensitivity of a helical diode array dosimeter to Volumetric Modulated Arc Therapy delivery errors. Phys Med. 2015; 31(8):1043-1054. DOI: 10.1016/j.ejmp.2015.08.011. View

2.

He C, Pant A, Le A . Impact of the Acuros XB spatial discretization error on ArcCHECK VMAT QA for small-field SBRT. J Appl Clin Med Phys. 2023; 24(9):e14100. PMC: 10476976. DOI: 10.1002/acm2.14100. View

3.

Miften M, Olch A, Mihailidis D, Moran J, Pawlicki T, Molineu A . Tolerance limits and methodologies for IMRT measurement-based verification QA: Recommendations of AAPM Task Group No. 218. Med Phys. 2018; 45(4):e53-e83. DOI: 10.1002/mp.12810. View

4.

Kathirvel M, Subramanian S, Clivio A, Arun G, Fogliata A, Nicolini G . Critical appraisal of the accuracy of Acuros-XB and Anisotropic Analytical Algorithm compared to measurement and calculations with the compass system in the delivery of RapidArc clinical plans. Radiat Oncol. 2013; 8:140. PMC: 3702450. DOI: 10.1186/1748-717X-8-140. View

5.

Zhen H, Hrycushko B, Lee H, Timmerman R, Pompos A, Stojadinovic S . Dosimetric comparison of Acuros XB with collapsed cone convolution/superposition and anisotropic analytic algorithm for stereotactic ablative radiotherapy of thoracic spinal metastases. J Appl Clin Med Phys. 2015; 16(4):181–192. PMC: 5690024. DOI: 10.1120/jacmp.v16i4.5493. View

Impact of the Acuros XB Spatial Discretization Error on ArcCHECK VMAT QA for Small-field SBRT