Potential Clinical Significance of Overall Targeting Accuracy and Motion Management in the Treatment of Tumors That Move With Respiration: Lessons Learnt From a Quarter Century of Stereotactic Body Radiotherapy From Dose Response Models

Anand Mahadevan; Bahman Emami; Jimm Grimm; Lawrence R. Kleinberg; Kristin J. Redmond; James S. Welsh; Robert Rostock; Eric Kemmerer; Kenneth M. Forster; Jason Stanford; Sunjay Shah; Sucha O. Asbell; Tamara A. LaCouture; Carla Scofield; Ian Butterwick; Jinyu Xue; Alexander Muacevic; John R. Adler

doi:10.3389/fonc.2020.591430

Potential Clinical Significance of Overall Targeting Accuracy and Motion Management in the Treatment of Tumors That Move With Respiration: Lessons Learnt From a Quarter Century of Stereotactic Body Radiotherapy From Dose Response Models

Anand Mahadevan, Bahman Emami, Jimm Grimm, Lawrence R. Kleinberg, Kristin J. Redmond, James S. Welsh, Robert Rostock, Eric Kemmerer, Kenneth M. Forster, Jason Stanford, Sunjay Shah, Sucha O. Asbell, Tamara A. LaCouture, Carla Scofield, Ian Butterwick, Jinyu Xue, Alexander Muacevic, John R. Adler

School of Medicine

Research output: Contribution to journal › Article › peer-review

Abstract

Objective: To determine the long-term normal tissue complication probability with stereotactic body radiation therapy (SBRT) treatments for targets that move with respiration and its relation with the type of respiratory motion management (tracking vs. compression or gating). Methods: A PubMed search was performed for identifying literature regarding dose, volume, fractionation, and toxicity (grade 3 or higher) for SBRT treatments for tumors which move with respiration. From the identified papers logistic or probit dose-response models were fitted to the data using the maximum-likelihood technique and confidence intervals were based on the profile-likelihood method in the dose-volume histogram (DVH) Evaluator. Results: Pooled logistic and probit models for grade 3 or higher toxicity for aorta, chest wall, duodenum, and small bowel suggest a significant difference when live motion tracking was used for targeting tumors with move with respiration which was on the average 10 times lower, in the high dose range. Conclusion: Live respiratory motion management appears to have a better toxicity outcome when treating targets which move with respiration with very steep peripheral dose gradients. This analysis is however limited by sparsity of rigorous data due to poor reporting in the literature.

Original language	English (US)
Article number	591430
Journal	Frontiers in Oncology
Volume	10
DOIs	https://doi.org/10.3389/fonc.2020.591430
State	Published - Feb 9 2021

Keywords

dose response
normal tissue complication probability
radiosurgery
stereotactic body radiation therapy
tracking

ASJC Scopus subject areas

Oncology
Cancer Research

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Mahadevan, A., Emami, B., Grimm, J., Kleinberg, L. R., Redmond, K. J., Welsh, J. S., Rostock, R., Kemmerer, E., Forster, K. M., Stanford, J., Shah, S., Asbell, S. O., LaCouture, T. A., Scofield, C., Butterwick, I., Xue, J., Muacevic, A., & Adler, J. R. (2021). Potential Clinical Significance of Overall Targeting Accuracy and Motion Management in the Treatment of Tumors That Move With Respiration: Lessons Learnt From a Quarter Century of Stereotactic Body Radiotherapy From Dose Response Models. Frontiers in Oncology, 10, Article 591430. https://doi.org/10.3389/fonc.2020.591430

Potential Clinical Significance of Overall Targeting Accuracy and Motion Management in the Treatment of Tumors That Move With Respiration: Lessons Learnt From a Quarter Century of Stereotactic Body Radiotherapy From Dose Response Models. / Mahadevan, Anand; Emami, Bahman; Grimm, Jimm et al.
In: Frontiers in Oncology, Vol. 10, 591430, 09.02.2021.

Research output: Contribution to journal › Article › peer-review

Mahadevan, A, Emami, B, Grimm, J, Kleinberg, LR , Redmond, KJ, Welsh, JS, Rostock, R, Kemmerer, E, Forster, KM, Stanford, J, Shah, S, Asbell, SO, LaCouture, TA, Scofield, C, Butterwick, I, Xue, J, Muacevic, A & Adler, JR 2021, 'Potential Clinical Significance of Overall Targeting Accuracy and Motion Management in the Treatment of Tumors That Move With Respiration: Lessons Learnt From a Quarter Century of Stereotactic Body Radiotherapy From Dose Response Models', Frontiers in Oncology, vol. 10, 591430. https://doi.org/10.3389/fonc.2020.591430

Mahadevan A, Emami B, Grimm J, Kleinberg LR , Redmond KJ, Welsh JS et al. Potential Clinical Significance of Overall Targeting Accuracy and Motion Management in the Treatment of Tumors That Move With Respiration: Lessons Learnt From a Quarter Century of Stereotactic Body Radiotherapy From Dose Response Models. Frontiers in Oncology. 2021 Feb 9;10:591430. doi: 10.3389/fonc.2020.591430

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title = "Potential Clinical Significance of Overall Targeting Accuracy and Motion Management in the Treatment of Tumors That Move With Respiration: Lessons Learnt From a Quarter Century of Stereotactic Body Radiotherapy From Dose Response Models",

abstract = "Objective: To determine the long-term normal tissue complication probability with stereotactic body radiation therapy (SBRT) treatments for targets that move with respiration and its relation with the type of respiratory motion management (tracking vs. compression or gating). Methods: A PubMed search was performed for identifying literature regarding dose, volume, fractionation, and toxicity (grade 3 or higher) for SBRT treatments for tumors which move with respiration. From the identified papers logistic or probit dose-response models were fitted to the data using the maximum-likelihood technique and confidence intervals were based on the profile-likelihood method in the dose-volume histogram (DVH) Evaluator. Results: Pooled logistic and probit models for grade 3 or higher toxicity for aorta, chest wall, duodenum, and small bowel suggest a significant difference when live motion tracking was used for targeting tumors with move with respiration which was on the average 10 times lower, in the high dose range. Conclusion: Live respiratory motion management appears to have a better toxicity outcome when treating targets which move with respiration with very steep peripheral dose gradients. This analysis is however limited by sparsity of rigorous data due to poor reporting in the literature.",

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author = "Anand Mahadevan and Bahman Emami and Jimm Grimm and Kleinberg, {Lawrence R.} and Redmond, {Kristin J.} and Welsh, {James S.} and Robert Rostock and Eric Kemmerer and Forster, {Kenneth M.} and Jason Stanford and Sunjay Shah and Asbell, {Sucha O.} and LaCouture, {Tamara A.} and Carla Scofield and Ian Butterwick and Jinyu Xue and Alexander Muacevic and Adler, {John R.}",

note = "Publisher Copyright: {\textcopyright} Copyright {\textcopyright} 2021 Mahadevan, Emami, Grimm, Kleinberg, Redmond, Welsh, Rostock, Kemmerer, Forster, Stanford, Shah, Asbell, LaCouture, Scofield, Butterwick, Xue, Muacevic and Adler.",

year = "2021",

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T2 - Lessons Learnt From a Quarter Century of Stereotactic Body Radiotherapy From Dose Response Models

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AU - Emami, Bahman

AU - Grimm, Jimm

AU - Kleinberg, Lawrence R.

AU - Redmond, Kristin J.

AU - Welsh, James S.

AU - Rostock, Robert

AU - Kemmerer, Eric

AU - Forster, Kenneth M.

AU - Stanford, Jason

AU - Shah, Sunjay

AU - Asbell, Sucha O.

AU - LaCouture, Tamara A.

AU - Scofield, Carla

AU - Butterwick, Ian

AU - Xue, Jinyu

AU - Muacevic, Alexander

AU - Adler, John R.

N1 - Publisher Copyright: © Copyright © 2021 Mahadevan, Emami, Grimm, Kleinberg, Redmond, Welsh, Rostock, Kemmerer, Forster, Stanford, Shah, Asbell, LaCouture, Scofield, Butterwick, Xue, Muacevic and Adler.

PY - 2021/2/9

Y1 - 2021/2/9

N2 - Objective: To determine the long-term normal tissue complication probability with stereotactic body radiation therapy (SBRT) treatments for targets that move with respiration and its relation with the type of respiratory motion management (tracking vs. compression or gating). Methods: A PubMed search was performed for identifying literature regarding dose, volume, fractionation, and toxicity (grade 3 or higher) for SBRT treatments for tumors which move with respiration. From the identified papers logistic or probit dose-response models were fitted to the data using the maximum-likelihood technique and confidence intervals were based on the profile-likelihood method in the dose-volume histogram (DVH) Evaluator. Results: Pooled logistic and probit models for grade 3 or higher toxicity for aorta, chest wall, duodenum, and small bowel suggest a significant difference when live motion tracking was used for targeting tumors with move with respiration which was on the average 10 times lower, in the high dose range. Conclusion: Live respiratory motion management appears to have a better toxicity outcome when treating targets which move with respiration with very steep peripheral dose gradients. This analysis is however limited by sparsity of rigorous data due to poor reporting in the literature.

AB - Objective: To determine the long-term normal tissue complication probability with stereotactic body radiation therapy (SBRT) treatments for targets that move with respiration and its relation with the type of respiratory motion management (tracking vs. compression or gating). Methods: A PubMed search was performed for identifying literature regarding dose, volume, fractionation, and toxicity (grade 3 or higher) for SBRT treatments for tumors which move with respiration. From the identified papers logistic or probit dose-response models were fitted to the data using the maximum-likelihood technique and confidence intervals were based on the profile-likelihood method in the dose-volume histogram (DVH) Evaluator. Results: Pooled logistic and probit models for grade 3 or higher toxicity for aorta, chest wall, duodenum, and small bowel suggest a significant difference when live motion tracking was used for targeting tumors with move with respiration which was on the average 10 times lower, in the high dose range. Conclusion: Live respiratory motion management appears to have a better toxicity outcome when treating targets which move with respiration with very steep peripheral dose gradients. This analysis is however limited by sparsity of rigorous data due to poor reporting in the literature.

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KW - stereotactic body radiation therapy

KW - tracking

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Potential Clinical Significance of Overall Targeting Accuracy and Motion Management in the Treatment of Tumors That Move With Respiration: Lessons Learnt From a Quarter Century of Stereotactic Body Radiotherapy From Dose Response Models

Abstract

Keywords

ASJC Scopus subject areas

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