
Dynamic electron arc radiotherapy (DEAR): a feasibility study.
Compared to other radiation therapy modalities, clinical electron beam therapy has remained practically unchanged for the past few decades even though electron beams with multiple energies are widely available on most linacs. In this paper, we present the concept of dynamic electron arc radiotherapy (DEAR), a new conformal electron therapy technique with synchronized couch motion. DEAR utilizes combination of gantry rotation, couch motion, and dose rate modulation to achieve desirable dose distributions in patient. The electron applicator is kept to minimize scatter and maintain narrow penumbra. The couch motion is synchronized with the gantry rotation to avoid collision between patient and the electron cone. In this study, we investigate the feasibility of DEAR delivery and demonstrate the potential of DEAR to improve dose distributions on simple cylindrical phantoms. DEAR was delivered on Varian's TrueBeam linac in Research Mode. In conjunction with the recorded trajectory log files, mechanical motion accuracies and dose rate modulation precision were analyzed. Experimental and calculated dose distributions were investigated for different energies (6 and 9 MeV) and cut-out sizes (1×10 cm(2) and 3×10 cm(2) for a 15×15 cm(2) applicator). Our findings show that DEAR delivery is feasible and has the potential to deliver radiation dose with high accuracy (root mean square error, or RMSE of <0.1 MU, <0.1° gantry, and <0.1 cm couch positions) and good dose rate precision (1.6 MU min(-1)). Dose homogeneity within ±2% in large and curved targets can be achieved while maintaining penumbra comparable to a standard electron beam on a flat surface. Further, DEAR does not require fabrication of patient-specific shields. These benefits make DEAR a promising technique for conformal radiotherapy of superficial tumors.
Duke Scholars
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Related Subject Headings
- Radiotherapy, Conformal
- Radiotherapy Planning, Computer-Assisted
- Radiotherapy Dosage
- Radiometry
- Particle Accelerators
- Nuclear Medicine & Medical Imaging
- Humans
- Feasibility Studies
- 5105 Medical and biological physics
- 1103 Clinical Sciences
Citation

Published In
DOI
EISSN
Publication Date
Volume
Issue
Start / End Page
Location
Related Subject Headings
- Radiotherapy, Conformal
- Radiotherapy Planning, Computer-Assisted
- Radiotherapy Dosage
- Radiometry
- Particle Accelerators
- Nuclear Medicine & Medical Imaging
- Humans
- Feasibility Studies
- 5105 Medical and biological physics
- 1103 Clinical Sciences