Low Incidence of Chest Wall Pain with a Risk-Adapted Lung Stereotactic Body Radiation Therapy Approach Using Three or Five Fractions Based on Chest Wall Dosimetry

PURPOSE: To examine the frequency and potential of dose-volume predictors for chest wall (CW) toxicity (pain and/or rib fracture) for patients receiving lung stereotactic body radiotherapy (SBRT) using treatment planning methods to minimize CW dose and a risk-adapted fractionation scheme. METHODS: W...

Descripción completa

Detalles Bibliográficos
Autores principales: Coroller, Thibaud P., Mak, Raymond H., Lewis, John H., Baldini, Elizabeth H., Chen, Aileen B., Colson, Yolonda L., Hacker, Fred L., Hermann, Gretchen, Kozono, David, Mannarino, Edward, Molodowitch, Christina, Wee, Jon O., Sher, David J., Killoran, Joseph H.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2014
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3984241/
https://www.ncbi.nlm.nih.gov/pubmed/24728448
http://dx.doi.org/10.1371/journal.pone.0094859
_version_ 1782311427889954816
author Coroller, Thibaud P.
Mak, Raymond H.
Lewis, John H.
Baldini, Elizabeth H.
Chen, Aileen B.
Colson, Yolonda L.
Hacker, Fred L.
Hermann, Gretchen
Kozono, David
Mannarino, Edward
Molodowitch, Christina
Wee, Jon O.
Sher, David J.
Killoran, Joseph H.
author_facet Coroller, Thibaud P.
Mak, Raymond H.
Lewis, John H.
Baldini, Elizabeth H.
Chen, Aileen B.
Colson, Yolonda L.
Hacker, Fred L.
Hermann, Gretchen
Kozono, David
Mannarino, Edward
Molodowitch, Christina
Wee, Jon O.
Sher, David J.
Killoran, Joseph H.
author_sort Coroller, Thibaud P.
collection PubMed
description PURPOSE: To examine the frequency and potential of dose-volume predictors for chest wall (CW) toxicity (pain and/or rib fracture) for patients receiving lung stereotactic body radiotherapy (SBRT) using treatment planning methods to minimize CW dose and a risk-adapted fractionation scheme. METHODS: We reviewed data from 72 treatment plans, from 69 lung SBRT patients with at least one year of follow-up or CW toxicity, who were treated at our center between 2010 and 2013. Treatment plans were optimized to reduce CW dose and patients received a risk-adapted fractionation of 18 Gy×3 fractions (54 Gy total) if the CW V30 was less than 30 mL or 10–12 Gy×5 fractions (50–60 Gy total) otherwise. The association between CW toxicity and patient characteristics, treatment parameters and dose metrics, including biologically equivalent dose, were analyzed using logistic regression. RESULTS: With a median follow-up of 20 months, 6 (8.3%) patients developed CW pain including three (4.2%) grade 1, two (2.8%) grade 2 and one (1.4%) grade 3. Five (6.9%) patients developed rib fractures, one of which was symptomatic. No significant associations between CW toxicity and patient and dosimetric variables were identified on univariate nor multivariate analysis. CONCLUSIONS: Optimization of treatment plans to reduce CW dose and a risk-adapted fractionation strategy of three or five fractions based on the CW V30 resulted in a low incidence of CW toxicity. Under these conditions, none of the patient characteristics or dose metrics we examined appeared to be predictive of CW pain.
format Online
Article
Text
id pubmed-3984241
institution National Center for Biotechnology Information
language English
publishDate 2014
publisher Public Library of Science
record_format MEDLINE/PubMed
spelling pubmed-39842412014-04-15 Low Incidence of Chest Wall Pain with a Risk-Adapted Lung Stereotactic Body Radiation Therapy Approach Using Three or Five Fractions Based on Chest Wall Dosimetry Coroller, Thibaud P. Mak, Raymond H. Lewis, John H. Baldini, Elizabeth H. Chen, Aileen B. Colson, Yolonda L. Hacker, Fred L. Hermann, Gretchen Kozono, David Mannarino, Edward Molodowitch, Christina Wee, Jon O. Sher, David J. Killoran, Joseph H. PLoS One Research Article PURPOSE: To examine the frequency and potential of dose-volume predictors for chest wall (CW) toxicity (pain and/or rib fracture) for patients receiving lung stereotactic body radiotherapy (SBRT) using treatment planning methods to minimize CW dose and a risk-adapted fractionation scheme. METHODS: We reviewed data from 72 treatment plans, from 69 lung SBRT patients with at least one year of follow-up or CW toxicity, who were treated at our center between 2010 and 2013. Treatment plans were optimized to reduce CW dose and patients received a risk-adapted fractionation of 18 Gy×3 fractions (54 Gy total) if the CW V30 was less than 30 mL or 10–12 Gy×5 fractions (50–60 Gy total) otherwise. The association between CW toxicity and patient characteristics, treatment parameters and dose metrics, including biologically equivalent dose, were analyzed using logistic regression. RESULTS: With a median follow-up of 20 months, 6 (8.3%) patients developed CW pain including three (4.2%) grade 1, two (2.8%) grade 2 and one (1.4%) grade 3. Five (6.9%) patients developed rib fractures, one of which was symptomatic. No significant associations between CW toxicity and patient and dosimetric variables were identified on univariate nor multivariate analysis. CONCLUSIONS: Optimization of treatment plans to reduce CW dose and a risk-adapted fractionation strategy of three or five fractions based on the CW V30 resulted in a low incidence of CW toxicity. Under these conditions, none of the patient characteristics or dose metrics we examined appeared to be predictive of CW pain. Public Library of Science 2014-04-11 /pmc/articles/PMC3984241/ /pubmed/24728448 http://dx.doi.org/10.1371/journal.pone.0094859 Text en © 2014 Coroller et al http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Coroller, Thibaud P.
Mak, Raymond H.
Lewis, John H.
Baldini, Elizabeth H.
Chen, Aileen B.
Colson, Yolonda L.
Hacker, Fred L.
Hermann, Gretchen
Kozono, David
Mannarino, Edward
Molodowitch, Christina
Wee, Jon O.
Sher, David J.
Killoran, Joseph H.
Low Incidence of Chest Wall Pain with a Risk-Adapted Lung Stereotactic Body Radiation Therapy Approach Using Three or Five Fractions Based on Chest Wall Dosimetry
title Low Incidence of Chest Wall Pain with a Risk-Adapted Lung Stereotactic Body Radiation Therapy Approach Using Three or Five Fractions Based on Chest Wall Dosimetry
title_full Low Incidence of Chest Wall Pain with a Risk-Adapted Lung Stereotactic Body Radiation Therapy Approach Using Three or Five Fractions Based on Chest Wall Dosimetry
title_fullStr Low Incidence of Chest Wall Pain with a Risk-Adapted Lung Stereotactic Body Radiation Therapy Approach Using Three or Five Fractions Based on Chest Wall Dosimetry
title_full_unstemmed Low Incidence of Chest Wall Pain with a Risk-Adapted Lung Stereotactic Body Radiation Therapy Approach Using Three or Five Fractions Based on Chest Wall Dosimetry
title_short Low Incidence of Chest Wall Pain with a Risk-Adapted Lung Stereotactic Body Radiation Therapy Approach Using Three or Five Fractions Based on Chest Wall Dosimetry
title_sort low incidence of chest wall pain with a risk-adapted lung stereotactic body radiation therapy approach using three or five fractions based on chest wall dosimetry
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3984241/
https://www.ncbi.nlm.nih.gov/pubmed/24728448
http://dx.doi.org/10.1371/journal.pone.0094859
work_keys_str_mv AT corollerthibaudp lowincidenceofchestwallpainwithariskadaptedlungstereotacticbodyradiationtherapyapproachusingthreeorfivefractionsbasedonchestwalldosimetry
AT makraymondh lowincidenceofchestwallpainwithariskadaptedlungstereotacticbodyradiationtherapyapproachusingthreeorfivefractionsbasedonchestwalldosimetry
AT lewisjohnh lowincidenceofchestwallpainwithariskadaptedlungstereotacticbodyradiationtherapyapproachusingthreeorfivefractionsbasedonchestwalldosimetry
AT baldinielizabethh lowincidenceofchestwallpainwithariskadaptedlungstereotacticbodyradiationtherapyapproachusingthreeorfivefractionsbasedonchestwalldosimetry
AT chenaileenb lowincidenceofchestwallpainwithariskadaptedlungstereotacticbodyradiationtherapyapproachusingthreeorfivefractionsbasedonchestwalldosimetry
AT colsonyolondal lowincidenceofchestwallpainwithariskadaptedlungstereotacticbodyradiationtherapyapproachusingthreeorfivefractionsbasedonchestwalldosimetry
AT hackerfredl lowincidenceofchestwallpainwithariskadaptedlungstereotacticbodyradiationtherapyapproachusingthreeorfivefractionsbasedonchestwalldosimetry
AT hermanngretchen lowincidenceofchestwallpainwithariskadaptedlungstereotacticbodyradiationtherapyapproachusingthreeorfivefractionsbasedonchestwalldosimetry
AT kozonodavid lowincidenceofchestwallpainwithariskadaptedlungstereotacticbodyradiationtherapyapproachusingthreeorfivefractionsbasedonchestwalldosimetry
AT mannarinoedward lowincidenceofchestwallpainwithariskadaptedlungstereotacticbodyradiationtherapyapproachusingthreeorfivefractionsbasedonchestwalldosimetry
AT molodowitchchristina lowincidenceofchestwallpainwithariskadaptedlungstereotacticbodyradiationtherapyapproachusingthreeorfivefractionsbasedonchestwalldosimetry
AT weejono lowincidenceofchestwallpainwithariskadaptedlungstereotacticbodyradiationtherapyapproachusingthreeorfivefractionsbasedonchestwalldosimetry
AT sherdavidj lowincidenceofchestwallpainwithariskadaptedlungstereotacticbodyradiationtherapyapproachusingthreeorfivefractionsbasedonchestwalldosimetry
AT killoranjosephh lowincidenceofchestwallpainwithariskadaptedlungstereotacticbodyradiationtherapyapproachusingthreeorfivefractionsbasedonchestwalldosimetry

Ejemplares similares