Effect of skull contours on dose calculations in Gamma Knife Perfexion stereotactic radiosurgery

In treatment planning of Leksell Gamma Knife (LGK) radiosurgery, the skull geometry defined by generally dedicated scalar measurement has a crucial effect on dose calculation. The LGK Perfexion (PFX) unit is equipped with a cone‐shaped collimator divided into eight sectors, and its configuration is...

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Autores principales: Nakazawa, Hisato, Komori, Masataka, Mori, Yoshimasa, Hagiwara, Masahiro, Shibamoto, Yuta, Tsugawa, Takahiko, Hashizume, Chisa, Kobayashi, Tatsuya
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley and Sons Inc. 2014
Materias:
Radiation Oncology Physics
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5875478/
https://www.ncbi.nlm.nih.gov/pubmed/24710447
http://dx.doi.org/10.1120/jacmp.v15i2.4603
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author Nakazawa, Hisato
Komori, Masataka
Mori, Yoshimasa
Hagiwara, Masahiro
Shibamoto, Yuta
Tsugawa, Takahiko
Hashizume, Chisa
Kobayashi, Tatsuya
author_facet Nakazawa, Hisato
Komori, Masataka
Mori, Yoshimasa
Hagiwara, Masahiro
Shibamoto, Yuta
Tsugawa, Takahiko
Hashizume, Chisa
Kobayashi, Tatsuya
author_sort Nakazawa, Hisato
collection PubMed
description In treatment planning of Leksell Gamma Knife (LGK) radiosurgery, the skull geometry defined by generally dedicated scalar measurement has a crucial effect on dose calculation. The LGK Perfexion (PFX) unit is equipped with a cone‐shaped collimator divided into eight sectors, and its configuration is entirely different from previous model C. Beam delivery on the PFX is made by a combination of eight sectors, but it is also mechanically available from one sector with the remaining seven blocked. Hence the treatment time using one sector is more likely to be affected by discrepancies in the skull shape than that of all sectors. In addition, the latest version (Ver. 10.1.1) of the treatment planning system Leksell GammaPlan (LGP) includes a new function to directly generate head surface contouring from computed tomography (CT) images in conjunction with the Leksell skull frame. This paper evaluates change of treatment time induced by different skull models. A simple simulation using a uniform skull radius of 80 mm and anthropomorphic phantom was implemented in LGP to find the trend between dose and skull measuring error. To evaluate the clinical effect, we performed an interobserver comparison of ruler measurement for 41 patients, and compared instrumental and CT‐based contours for 23 patients. In the phantom simulation, treatment time errors were less than 2% when the difference was within 3 mm. In the clinical cases, the variability of treatment time induced by the differences in interobserver measurements was less than 0. 91%, on average. Additionally the difference between measured and CT‐based contours was good, with a difference of [Formula: see text] (mean ±1 standard deviation) on average and a maximum of 3.4%. Although the skull model created from CT images reduced the dosimetric uncertainty caused by different measurers, these results showed that even manual skull measurement could reproduce the skull shape close to that of a patient's head within an acceptable range. PACS number: 87.53.Ly
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spelling pubmed-58754782018-04-02 Effect of skull contours on dose calculations in Gamma Knife Perfexion stereotactic radiosurgery Nakazawa, Hisato Komori, Masataka Mori, Yoshimasa Hagiwara, Masahiro Shibamoto, Yuta Tsugawa, Takahiko Hashizume, Chisa Kobayashi, Tatsuya J Appl Clin Med Phys Radiation Oncology Physics In treatment planning of Leksell Gamma Knife (LGK) radiosurgery, the skull geometry defined by generally dedicated scalar measurement has a crucial effect on dose calculation. The LGK Perfexion (PFX) unit is equipped with a cone‐shaped collimator divided into eight sectors, and its configuration is entirely different from previous model C. Beam delivery on the PFX is made by a combination of eight sectors, but it is also mechanically available from one sector with the remaining seven blocked. Hence the treatment time using one sector is more likely to be affected by discrepancies in the skull shape than that of all sectors. In addition, the latest version (Ver. 10.1.1) of the treatment planning system Leksell GammaPlan (LGP) includes a new function to directly generate head surface contouring from computed tomography (CT) images in conjunction with the Leksell skull frame. This paper evaluates change of treatment time induced by different skull models. A simple simulation using a uniform skull radius of 80 mm and anthropomorphic phantom was implemented in LGP to find the trend between dose and skull measuring error. To evaluate the clinical effect, we performed an interobserver comparison of ruler measurement for 41 patients, and compared instrumental and CT‐based contours for 23 patients. In the phantom simulation, treatment time errors were less than 2% when the difference was within 3 mm. In the clinical cases, the variability of treatment time induced by the differences in interobserver measurements was less than 0. 91%, on average. Additionally the difference between measured and CT‐based contours was good, with a difference of [Formula: see text] (mean ±1 standard deviation) on average and a maximum of 3.4%. Although the skull model created from CT images reduced the dosimetric uncertainty caused by different measurers, these results showed that even manual skull measurement could reproduce the skull shape close to that of a patient's head within an acceptable range. PACS number: 87.53.Ly John Wiley and Sons Inc. 2014-03-06 /pmc/articles/PMC5875478/ /pubmed/24710447 http://dx.doi.org/10.1120/jacmp.v15i2.4603 Text en © 2014 The Authors. This is an open access article under the terms of the 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
Nakazawa, Hisato
Komori, Masataka
Mori, Yoshimasa
Hagiwara, Masahiro
Shibamoto, Yuta
Tsugawa, Takahiko
Hashizume, Chisa
Kobayashi, Tatsuya
Effect of skull contours on dose calculations in Gamma Knife Perfexion stereotactic radiosurgery
title Effect of skull contours on dose calculations in Gamma Knife Perfexion stereotactic radiosurgery
title_full Effect of skull contours on dose calculations in Gamma Knife Perfexion stereotactic radiosurgery
title_fullStr Effect of skull contours on dose calculations in Gamma Knife Perfexion stereotactic radiosurgery
title_full_unstemmed Effect of skull contours on dose calculations in Gamma Knife Perfexion stereotactic radiosurgery
title_short Effect of skull contours on dose calculations in Gamma Knife Perfexion stereotactic radiosurgery
title_sort effect of skull contours on dose calculations in gamma knife perfexion stereotactic radiosurgery
topic Radiation Oncology Physics
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5875478/
https://www.ncbi.nlm.nih.gov/pubmed/24710447
http://dx.doi.org/10.1120/jacmp.v15i2.4603
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