A Probability-Based Investigation on the Setup Robustness of Pencil-beam Proton Radiation Therapy for Skull-Base Meningioma

INTRODUCTION: The intracranial skull-base meningioma is in proximity to multiple critical organs and heterogeneous tissues. Steep dose gradients often result from avoiding critical organs in proton treatment plans. Dose uncertainties arising from setup errors under image-guided radiation therapy are...

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Autores principales: Zou, Wei, Kurtz, Goldie, Nakib, Mayisha, Burgdorf, Brendan, Alp, Murat, Li, Taoran, Lustig, Robert, Xiao, Ying, Dong, Lei, Kassaee, Alireza, Alonso-Basanta, Michelle
Formato: Online Artículo Texto
Lenguaje:English
Publicado: The Particle Therapy Co-operative Group 2021
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Original Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7886272/
https://www.ncbi.nlm.nih.gov/pubmed/33604414
http://dx.doi.org/10.14338/IJPT-20-00009.1
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author Zou, Wei
Kurtz, Goldie
Nakib, Mayisha
Burgdorf, Brendan
Alp, Murat
Li, Taoran
Lustig, Robert
Xiao, Ying
Dong, Lei
Kassaee, Alireza
Alonso-Basanta, Michelle
author_facet Zou, Wei
Kurtz, Goldie
Nakib, Mayisha
Burgdorf, Brendan
Alp, Murat
Li, Taoran
Lustig, Robert
Xiao, Ying
Dong, Lei
Kassaee, Alireza
Alonso-Basanta, Michelle
author_sort Zou, Wei
collection PubMed
description INTRODUCTION: The intracranial skull-base meningioma is in proximity to multiple critical organs and heterogeneous tissues. Steep dose gradients often result from avoiding critical organs in proton treatment plans. Dose uncertainties arising from setup errors under image-guided radiation therapy are worthy of evaluation. PATIENTS AND METHODS: Fourteen patients with skull-base meningioma were retrospectively identified and planned with proton pencil beam scanning (PBS) single-field uniform dose (SFUD) and multifield optimization (MFO) techniques. The setup uncertainties were assigned a probability model on the basis of prior published data. The impact on the dose distribution from nominal 1-mm and large, less probable setup errors, as well as the cumulative effect, was analyzed. The robustness of SFUD and MFO planning techniques in these scenarios was discussed. RESULTS: The target coverage was reduced and the plan dose hot spot increased by all setup uncertainty scenarios regardless of the planning techniques. For 1 mm nominal shifts, the deviations in clinical target volume (CTV) coverage D99% was −11 ± 52 cGy and −45 ± 147 cGy for SFUD and MFO plans. The setup uncertainties affected the organ at risk (OAR) dose both positively and negatively. The statistical average of the setup uncertainties had <100 cGy impact on the plan qualities for all patients. The cumulative deviations in CTV D95% were 1 ± 34 cGy and −7 ± 18 cGy for SFUD and MFO plans. CONCLUSION: It is important to understand the impact of setup uncertainties on skull-base meningioma, as the tumor target has complex shape and is in proximity to multiple critical organs. Our work evaluated the setup uncertainty based on its probability distribution and evaluated the dosimetric consequences. In general, the SFUD plans demonstrated more robustness than the MFO plans in target coverages and brainstem dose. The probability-weighted overall effect on the dose distribution is small compared to the dosimetric shift during single fraction.
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spelling pubmed-78862722021-02-17 A Probability-Based Investigation on the Setup Robustness of Pencil-beam Proton Radiation Therapy for Skull-Base Meningioma Zou, Wei Kurtz, Goldie Nakib, Mayisha Burgdorf, Brendan Alp, Murat Li, Taoran Lustig, Robert Xiao, Ying Dong, Lei Kassaee, Alireza Alonso-Basanta, Michelle Int J Part Ther Original Articles INTRODUCTION: The intracranial skull-base meningioma is in proximity to multiple critical organs and heterogeneous tissues. Steep dose gradients often result from avoiding critical organs in proton treatment plans. Dose uncertainties arising from setup errors under image-guided radiation therapy are worthy of evaluation. PATIENTS AND METHODS: Fourteen patients with skull-base meningioma were retrospectively identified and planned with proton pencil beam scanning (PBS) single-field uniform dose (SFUD) and multifield optimization (MFO) techniques. The setup uncertainties were assigned a probability model on the basis of prior published data. The impact on the dose distribution from nominal 1-mm and large, less probable setup errors, as well as the cumulative effect, was analyzed. The robustness of SFUD and MFO planning techniques in these scenarios was discussed. RESULTS: The target coverage was reduced and the plan dose hot spot increased by all setup uncertainty scenarios regardless of the planning techniques. For 1 mm nominal shifts, the deviations in clinical target volume (CTV) coverage D99% was −11 ± 52 cGy and −45 ± 147 cGy for SFUD and MFO plans. The setup uncertainties affected the organ at risk (OAR) dose both positively and negatively. The statistical average of the setup uncertainties had <100 cGy impact on the plan qualities for all patients. The cumulative deviations in CTV D95% were 1 ± 34 cGy and −7 ± 18 cGy for SFUD and MFO plans. CONCLUSION: It is important to understand the impact of setup uncertainties on skull-base meningioma, as the tumor target has complex shape and is in proximity to multiple critical organs. Our work evaluated the setup uncertainty based on its probability distribution and evaluated the dosimetric consequences. In general, the SFUD plans demonstrated more robustness than the MFO plans in target coverages and brainstem dose. The probability-weighted overall effect on the dose distribution is small compared to the dosimetric shift during single fraction. The Particle Therapy Co-operative Group 2021-01-28 /pmc/articles/PMC7886272/ /pubmed/33604414 http://dx.doi.org/10.14338/IJPT-20-00009.1 Text en ©Copyright 2020 The Author(s) Distributed under Creative Commons CC-BY (https://creativecommons.org/licenses/cc-by/4.0/)
spellingShingle Original Articles
Zou, Wei
Kurtz, Goldie
Nakib, Mayisha
Burgdorf, Brendan
Alp, Murat
Li, Taoran
Lustig, Robert
Xiao, Ying
Dong, Lei
Kassaee, Alireza
Alonso-Basanta, Michelle
A Probability-Based Investigation on the Setup Robustness of Pencil-beam Proton Radiation Therapy for Skull-Base Meningioma
title A Probability-Based Investigation on the Setup Robustness of Pencil-beam Proton Radiation Therapy for Skull-Base Meningioma
title_full A Probability-Based Investigation on the Setup Robustness of Pencil-beam Proton Radiation Therapy for Skull-Base Meningioma
title_fullStr A Probability-Based Investigation on the Setup Robustness of Pencil-beam Proton Radiation Therapy for Skull-Base Meningioma
title_full_unstemmed A Probability-Based Investigation on the Setup Robustness of Pencil-beam Proton Radiation Therapy for Skull-Base Meningioma
title_short A Probability-Based Investigation on the Setup Robustness of Pencil-beam Proton Radiation Therapy for Skull-Base Meningioma
title_sort probability-based investigation on the setup robustness of pencil-beam proton radiation therapy for skull-base meningioma
topic Original Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7886272/
https://www.ncbi.nlm.nih.gov/pubmed/33604414
http://dx.doi.org/10.14338/IJPT-20-00009.1
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