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Hauptverfasser: Slagowski, Jordan M., Pearson, Erik, Tummala, Rajit, Redler, Gage, Velarde, Daniela Olivera, Epel, Boris, Halpern, Howard J., Aydogan, Bulent
Format: Preprint
Veröffentlicht: 2025
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Online-Zugang:https://arxiv.org/abs/2501.15684
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author Slagowski, Jordan M.
Pearson, Erik
Tummala, Rajit
Redler, Gage
Velarde, Daniela Olivera
Epel, Boris
Halpern, Howard J.
Aydogan, Bulent
author_facet Slagowski, Jordan M.
Pearson, Erik
Tummala, Rajit
Redler, Gage
Velarde, Daniela Olivera
Epel, Boris
Halpern, Howard J.
Aydogan, Bulent
contents Techniques for preclinical intensity modulated radiation therapy are being developed to improve translation by replicating the clinical paradigm. This study presents the first treatment planning comparison between small animal IMRT (SA-IMRT) and three-dimensional conformal radiotherapy (CRT) in a model application, oxygen-guided dose painting of tumor hypoxia, using actual mouse data. A novel compensator-based platform was employed to generate SA-IMRT and CRT plans with 2-15 beam angles for seventeen mice with fibrosarcoma tumors. The whole tumor received a dose of 22.5 Gy, with a simultaneous integrated boost of 13 Gy to hypoxic voxels identified via electron paramagnetic resonance imaging. Plan quality was assessed using the Paddick conformity index (CI), uniformity, and dose volume histograms. For 3-angles, SA-IMRT yielded significantly improved dose conformity (median hypoxic CI =0.45 versus 0.17), tumor dose uniformity (11.0% versus 14.3%), and dosimetric spread between boost and non-boost targets (D50% difference = 13.0 Gy [ideal], 13.1 Gy [SA-IMRT], 7. 3 Gy [CRT]). No significant improvement in CI was associated with >3 beam angles (Wilcoxon signed-rank test, p < 0.05). This study demonstrates that SA-IMRT provides significant improvements in radiation plan quality and yields dose distributions that more closely mimic the clinical setting relative to current CRT approaches.
format Preprint
id arxiv_https___arxiv_org_abs_2501_15684
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Compensator-based small animal IMRT enables conformal preclinical dose painting: application to tumor hypoxia
Slagowski, Jordan M.
Pearson, Erik
Tummala, Rajit
Redler, Gage
Velarde, Daniela Olivera
Epel, Boris
Halpern, Howard J.
Aydogan, Bulent
Medical Physics
Techniques for preclinical intensity modulated radiation therapy are being developed to improve translation by replicating the clinical paradigm. This study presents the first treatment planning comparison between small animal IMRT (SA-IMRT) and three-dimensional conformal radiotherapy (CRT) in a model application, oxygen-guided dose painting of tumor hypoxia, using actual mouse data. A novel compensator-based platform was employed to generate SA-IMRT and CRT plans with 2-15 beam angles for seventeen mice with fibrosarcoma tumors. The whole tumor received a dose of 22.5 Gy, with a simultaneous integrated boost of 13 Gy to hypoxic voxels identified via electron paramagnetic resonance imaging. Plan quality was assessed using the Paddick conformity index (CI), uniformity, and dose volume histograms. For 3-angles, SA-IMRT yielded significantly improved dose conformity (median hypoxic CI =0.45 versus 0.17), tumor dose uniformity (11.0% versus 14.3%), and dosimetric spread between boost and non-boost targets (D50% difference = 13.0 Gy [ideal], 13.1 Gy [SA-IMRT], 7. 3 Gy [CRT]). No significant improvement in CI was associated with >3 beam angles (Wilcoxon signed-rank test, p < 0.05). This study demonstrates that SA-IMRT provides significant improvements in radiation plan quality and yields dose distributions that more closely mimic the clinical setting relative to current CRT approaches.
title Compensator-based small animal IMRT enables conformal preclinical dose painting: application to tumor hypoxia
topic Medical Physics
url https://arxiv.org/abs/2501.15684