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Intensity modulated proton arc therapy via geometry-based energy selection for ependymoma. | LitMetric

AI Article Synopsis

  • - The study developed and tested a new method for intensity modulated proton arc therapy (IMPAT) that requires similar computing resources as standard intensity-modulated proton therapy (IMPT), potentially benefiting patients with ependymoma or similar tumor shapes.
  • - The IMPAT planning process uses geometric energy selection and optimizes scanning spots via a proton treatment planning system, yielding plans that successfully covered the target volumes while maintaining acceptable doses for critical areas like the brainstem.
  • - Results showed that IMPAT plans provided better homogeneity and conformity compared to IMPT plans, along with higher relative biological effectiveness for the treated areas, indicating the method's potential for improved patient outcomes.

Article Abstract

Purpose: We developed and tested a novel method of creating intensity modulated proton arc therapy (IMPAT) plans that uses computing resources similar to those for regular intensity-modulated proton therapy (IMPT) plans and may offer a dosimetric benefit for patients with ependymoma or similar tumor geometries.

Methods: Our IMPAT planning method consists of a geometry-based energy selection step with major scanning spot contributions as inputs computed using ray-tracing and single-Gaussian approximation of lateral spot profiles. Based on the geometric relation of scanning spots and dose voxels, our energy selection module selects a minimum set of energy layers at each gantry angle such that each target voxel is covered by sufficient scanning spots as specified by the planner, with dose contributions above the specified threshold. Finally, IMPAT plans are generated by robustly optimizing scanning spots of the selected energy layers using a commercial proton treatment planning system (TPS). The IMPAT plan quality was assessed for four ependymoma patients. Reference three-field IMPT plans were created with similar planning objective functions and compared with the IMPAT plans.

Results: In all plans, the prescribed dose covered 95% of the clinical target volume (CTV) while maintaining similar maximum doses for the brainstem. While IMPAT and IMPT achieved comparable plan robustness, the IMPAT plans achieved better homogeneity and conformity than the IMPT plans. The IMPAT plans also exhibited higher relative biological effectiveness (RBE) enhancement than did the corresponding reference IMPT plans for the CTV in all four patients and brainstem in three of them.

Conclusions: The proposed method demonstrated potential as an efficient technique for IMPAT planning and may offer a dosimetric benefit for patients with ependymoma or tumors in close proximity to critical organs. IMPAT plans created using this method had elevated RBE enhancement associated with increased linear energy transfer (LET) in both targets and abutting critical organs.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10338743PMC
http://dx.doi.org/10.1002/acm2.13954DOI Listing

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