Influence of patient's physiologic factors and immobilization choice with stereotactic body radiotherapy for upper lung tumors

The purpose of the present study was to compare the impact of pulmonary function, body habitus, and stereotactic body radiation therapy (SBRT) immobilization on setup and reproducibility for upper lung tumor. From 2008 through 2011, our institution's prospective SBRT database was searched for p...

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Autores principales: Sio, Terence T., Jensen, Andrew R., Miller, Robert C., de los Santos, Luis E. Fong, Hallemeier, Christopher L., Foster, Nathan R., Park, Sean S., Bauer, Heather J., Chang, Kenneth, Garces, Yolanda I., Olivier, Kenneth R.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley and Sons Inc. 2014
Materias:
Radiation Measurements
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5711083/
https://www.ncbi.nlm.nih.gov/pubmed/25207580
http://dx.doi.org/10.1120/jacmp.v15i5.4931
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author Sio, Terence T.
Jensen, Andrew R.
Miller, Robert C.
de los Santos, Luis E. Fong
Hallemeier, Christopher L.
Foster, Nathan R.
Park, Sean S.
Bauer, Heather J.
Chang, Kenneth
Garces, Yolanda I.
Olivier, Kenneth R.
author_facet Sio, Terence T.
Jensen, Andrew R.
Miller, Robert C.
de los Santos, Luis E. Fong
Hallemeier, Christopher L.
Foster, Nathan R.
Park, Sean S.
Bauer, Heather J.
Chang, Kenneth
Garces, Yolanda I.
Olivier, Kenneth R.
author_sort Sio, Terence T.
collection PubMed
description The purpose of the present study was to compare the impact of pulmonary function, body habitus, and stereotactic body radiation therapy (SBRT) immobilization on setup and reproducibility for upper lung tumor. From 2008 through 2011, our institution's prospective SBRT database was searched for patients with upper lung tumors. Two SBRT immobilization strategies were used: full‐length BodyFIX and thermoplastic S‐frame. At simulation, free‐breathing, four‐dimensional computed tomography was performed. For each treatment, patients were set up to isocenter with in‐room lasers and skin tattoos. Shifts from initial and subsequent couch positions with cone‐beam computed tomography (CBCT) were analyzed. Accounting for setup uncertainties, institutional tolerance of CBCT‐based shifts for treatment was 2, 2, and 4 mm in left–right, anterior–posterior, and cranial–caudal directions, respectively; shifts exceeding these limits required reimaging. Each patient's pretreatment pulmonary function test was recorded. A multistep, multivariate linear regression model was performed to elucidate intervariable dependency for three‐dimensional calculated couch shift parameters. BodyFIX was applied to 76 tumors and S‐frame to 17 tumors. Of these tumors, 41 were non–small cell lung cancer and 15 were metastatic from other sites. Lesions measured [Formula: see text] , 1.1 to 2 (50%), 2.1 to 3 (25%), and [Formula: see text] cm. Errors from first shifts of first fractions were significantly less with S‐frame than BodyFIX ([Formula: see text]). No difference in local control (LC) was found between S‐frame and BodyFIX ([Formula: see text]); two‐year LC rate was 94%. Multivariate modeling confirmed that the ratio of forced expiratory volume in the first second of expiration to forced vital capacity, body habitus, and the immobilization device significantly impacted couch shift errors. For upper lung tumors, initial setup was more consistent with S‐frame than BodyFIX, resulting in fewer CBCT scans. Patients with obese habitus and poor lung function had more SBRT setup uncertainty; however, outcome and probability for LC remained excellent. PACS number: 89.20.‐a
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spelling pubmed-57110832018-04-02 Influence of patient's physiologic factors and immobilization choice with stereotactic body radiotherapy for upper lung tumors Sio, Terence T. Jensen, Andrew R. Miller, Robert C. de los Santos, Luis E. Fong Hallemeier, Christopher L. Foster, Nathan R. Park, Sean S. Bauer, Heather J. Chang, Kenneth Garces, Yolanda I. Olivier, Kenneth R. J Appl Clin Med Phys Radiation Measurements The purpose of the present study was to compare the impact of pulmonary function, body habitus, and stereotactic body radiation therapy (SBRT) immobilization on setup and reproducibility for upper lung tumor. From 2008 through 2011, our institution's prospective SBRT database was searched for patients with upper lung tumors. Two SBRT immobilization strategies were used: full‐length BodyFIX and thermoplastic S‐frame. At simulation, free‐breathing, four‐dimensional computed tomography was performed. For each treatment, patients were set up to isocenter with in‐room lasers and skin tattoos. Shifts from initial and subsequent couch positions with cone‐beam computed tomography (CBCT) were analyzed. Accounting for setup uncertainties, institutional tolerance of CBCT‐based shifts for treatment was 2, 2, and 4 mm in left–right, anterior–posterior, and cranial–caudal directions, respectively; shifts exceeding these limits required reimaging. Each patient's pretreatment pulmonary function test was recorded. A multistep, multivariate linear regression model was performed to elucidate intervariable dependency for three‐dimensional calculated couch shift parameters. BodyFIX was applied to 76 tumors and S‐frame to 17 tumors. Of these tumors, 41 were non–small cell lung cancer and 15 were metastatic from other sites. Lesions measured [Formula: see text] , 1.1 to 2 (50%), 2.1 to 3 (25%), and [Formula: see text] cm. Errors from first shifts of first fractions were significantly less with S‐frame than BodyFIX ([Formula: see text]). No difference in local control (LC) was found between S‐frame and BodyFIX ([Formula: see text]); two‐year LC rate was 94%. Multivariate modeling confirmed that the ratio of forced expiratory volume in the first second of expiration to forced vital capacity, body habitus, and the immobilization device significantly impacted couch shift errors. For upper lung tumors, initial setup was more consistent with S‐frame than BodyFIX, resulting in fewer CBCT scans. Patients with obese habitus and poor lung function had more SBRT setup uncertainty; however, outcome and probability for LC remained excellent. PACS number: 89.20.‐a John Wiley and Sons Inc. 2014-09-08 /pmc/articles/PMC5711083/ /pubmed/25207580 http://dx.doi.org/10.1120/jacmp.v15i5.4931 Text en © 2014 The Authors. This is an open access article under the terms of the Creative Commons Attribution (http://creativecommons.org/licenses/by/3.0/) License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.
spellingShingle Radiation Measurements
Sio, Terence T.
Jensen, Andrew R.
Miller, Robert C.
de los Santos, Luis E. Fong
Hallemeier, Christopher L.
Foster, Nathan R.
Park, Sean S.
Bauer, Heather J.
Chang, Kenneth
Garces, Yolanda I.
Olivier, Kenneth R.
Influence of patient's physiologic factors and immobilization choice with stereotactic body radiotherapy for upper lung tumors
title Influence of patient's physiologic factors and immobilization choice with stereotactic body radiotherapy for upper lung tumors
title_full Influence of patient's physiologic factors and immobilization choice with stereotactic body radiotherapy for upper lung tumors
title_fullStr Influence of patient's physiologic factors and immobilization choice with stereotactic body radiotherapy for upper lung tumors
title_full_unstemmed Influence of patient's physiologic factors and immobilization choice with stereotactic body radiotherapy for upper lung tumors
title_short Influence of patient's physiologic factors and immobilization choice with stereotactic body radiotherapy for upper lung tumors
title_sort influence of patient's physiologic factors and immobilization choice with stereotactic body radiotherapy for upper lung tumors
topic Radiation Measurements
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5711083/
https://www.ncbi.nlm.nih.gov/pubmed/25207580
http://dx.doi.org/10.1120/jacmp.v15i5.4931
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