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Development of a modified head and neck quality assurance phantom for use in stereotactic radiosurgery trials

An anthropomorphic head phantom, constructed from a water‐equivalent plastic shell with only a spherical target, was modified to include a nonspherical target (pituitary) and an adjacent organ at risk (OAR) (optic chiasm), within 2 mm, simulating the anatomy encountered when treating acromegaly. The...

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Autores principales: Faught, Austin M., Kry, Stephen F., Luo, Dershan, Molineu, Andrea, Bellezza, David, Gerber, Russell L., Davidson, Scott E., Bosch, Walter, Drzymala, Robert E., Galvin, Jim, Timmerman, Robert, Sheehan, Jason, Gillin, Michael T., Ibbott, Geoffrey S., Followill, David S.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley and Sons Inc. 2013
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5714534/
https://www.ncbi.nlm.nih.gov/pubmed/23835394
http://dx.doi.org/10.1120/jacmp.v14i4.4313
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author Faught, Austin M.
Kry, Stephen F.
Luo, Dershan
Molineu, Andrea
Bellezza, David
Gerber, Russell L.
Davidson, Scott E.
Bosch, Walter
Drzymala, Robert E.
Galvin, Jim
Timmerman, Robert
Sheehan, Jason
Gillin, Michael T.
Ibbott, Geoffrey S.
Followill, David S.
author_facet Faught, Austin M.
Kry, Stephen F.
Luo, Dershan
Molineu, Andrea
Bellezza, David
Gerber, Russell L.
Davidson, Scott E.
Bosch, Walter
Drzymala, Robert E.
Galvin, Jim
Timmerman, Robert
Sheehan, Jason
Gillin, Michael T.
Ibbott, Geoffrey S.
Followill, David S.
author_sort Faught, Austin M.
collection PubMed
description An anthropomorphic head phantom, constructed from a water‐equivalent plastic shell with only a spherical target, was modified to include a nonspherical target (pituitary) and an adjacent organ at risk (OAR) (optic chiasm), within 2 mm, simulating the anatomy encountered when treating acromegaly. The target and OAR spatial proximity provided a more realistic treatment planning and dose delivery exercise. A separate dosimetry insert contained two TLD for absolute dosimetry and radiochromic film, in the sagittal and coronal planes, for relative dosimetry. The prescription was 25 Gy to 90% of the GTV, with [Formula: see text] of the OAR volume receiving [Formula: see text] for the phantom trial. The modified phantom was used to test the rigor of the treatment planning process and phantom reproducibility using a Gamma Knife, CyberKnife, and linear accelerator (linac)‐based radiosurgery system. Delivery reproducibility was tested by repeating each irradiation three times. TLD results from three irradiations on a CyberKnife and Gamma Knife agreed with the calculated target dose to within ± 4% with a maximum coefficient of variation of [Formula: see text]. Gamma analysis in the coronal and sagittal film planes showed an average passing rate of 99.4% and 99.5% using [Formula: see text] criteria, respectively. Results from the linac irradiation were within [Formula: see text] for TLD with a coefficient of variation of [Formula: see text]. Distance to agreement was calculated to be 1.2 mm and 1.3 mm along the inferior and superior edges of the target in the sagittal film plane, and 1.2 mm for both superior and inferior edges in the coronal film plane. A modified, anatomically realistic SRS phantom was developed that provided a realistic clinical planning and delivery challenge that can be used to credential institutions wanting to participate in NCI‐funded clinical trials. PACS number: 87.55 ‐v
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spelling pubmed-57145342018-04-02 Development of a modified head and neck quality assurance phantom for use in stereotactic radiosurgery trials Faught, Austin M. Kry, Stephen F. Luo, Dershan Molineu, Andrea Bellezza, David Gerber, Russell L. Davidson, Scott E. Bosch, Walter Drzymala, Robert E. Galvin, Jim Timmerman, Robert Sheehan, Jason Gillin, Michael T. Ibbott, Geoffrey S. Followill, David S. J Appl Clin Med Phys Radiation Oncology Physics An anthropomorphic head phantom, constructed from a water‐equivalent plastic shell with only a spherical target, was modified to include a nonspherical target (pituitary) and an adjacent organ at risk (OAR) (optic chiasm), within 2 mm, simulating the anatomy encountered when treating acromegaly. The target and OAR spatial proximity provided a more realistic treatment planning and dose delivery exercise. A separate dosimetry insert contained two TLD for absolute dosimetry and radiochromic film, in the sagittal and coronal planes, for relative dosimetry. The prescription was 25 Gy to 90% of the GTV, with [Formula: see text] of the OAR volume receiving [Formula: see text] for the phantom trial. The modified phantom was used to test the rigor of the treatment planning process and phantom reproducibility using a Gamma Knife, CyberKnife, and linear accelerator (linac)‐based radiosurgery system. Delivery reproducibility was tested by repeating each irradiation three times. TLD results from three irradiations on a CyberKnife and Gamma Knife agreed with the calculated target dose to within ± 4% with a maximum coefficient of variation of [Formula: see text]. Gamma analysis in the coronal and sagittal film planes showed an average passing rate of 99.4% and 99.5% using [Formula: see text] criteria, respectively. Results from the linac irradiation were within [Formula: see text] for TLD with a coefficient of variation of [Formula: see text]. Distance to agreement was calculated to be 1.2 mm and 1.3 mm along the inferior and superior edges of the target in the sagittal film plane, and 1.2 mm for both superior and inferior edges in the coronal film plane. A modified, anatomically realistic SRS phantom was developed that provided a realistic clinical planning and delivery challenge that can be used to credential institutions wanting to participate in NCI‐funded clinical trials. PACS number: 87.55 ‐v John Wiley and Sons Inc. 2013-07-08 /pmc/articles/PMC5714534/ /pubmed/23835394 http://dx.doi.org/10.1120/jacmp.v14i4.4313 Text en © 2013 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 Oncology Physics
Faught, Austin M.
Kry, Stephen F.
Luo, Dershan
Molineu, Andrea
Bellezza, David
Gerber, Russell L.
Davidson, Scott E.
Bosch, Walter
Drzymala, Robert E.
Galvin, Jim
Timmerman, Robert
Sheehan, Jason
Gillin, Michael T.
Ibbott, Geoffrey S.
Followill, David S.
Development of a modified head and neck quality assurance phantom for use in stereotactic radiosurgery trials
title Development of a modified head and neck quality assurance phantom for use in stereotactic radiosurgery trials
title_full Development of a modified head and neck quality assurance phantom for use in stereotactic radiosurgery trials
title_fullStr Development of a modified head and neck quality assurance phantom for use in stereotactic radiosurgery trials
title_full_unstemmed Development of a modified head and neck quality assurance phantom for use in stereotactic radiosurgery trials
title_short Development of a modified head and neck quality assurance phantom for use in stereotactic radiosurgery trials
title_sort development of a modified head and neck quality assurance phantom for use in stereotactic radiosurgery trials
topic Radiation Oncology Physics
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5714534/
https://www.ncbi.nlm.nih.gov/pubmed/23835394
http://dx.doi.org/10.1120/jacmp.v14i4.4313
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