A feasibility study on the use of tomotherapy megavoltage computed tomography images for palliative patient treatment planning

A feasibility study on the use of tomotherapy megavoltage computed tomography images for palliative patient treatment planning

Dedicated rapid access palliative radiation therapy improves patients' access to care, allowing more timely treatment which would positively impact on quality of life. The TomoTherapy (Accuray, Sunnyvale, CA) system provides megavoltage (MV) fan-beam computed tomography (FBCT) as the image guid...

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Main Authors: Yunfei Hu, Mikel Byrne, Ben Archibald-Heeren, Matthew Squires, Amy Teh, Kylie Seiffert, Sonja Cheers, Yang Wang
Format: Article
Language:English
Published: Wolters Kluwer Medknow Publications 2017-01-01
Series:Journal of Medical Physics
Subjects:
Imaging
megavoltage computed tomography
palliative radiotherapy
TomoTherapy
Online Access:http://www.jmp.org.in/article.asp?issn=0971-6203;year=2017;volume=42;issue=3;spage=163;epage=170;aulast=Hu
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spelling doaj-6dea83e494a2450a9a7eb3695b1399f82020-11-24T23:16:56ZengWolters Kluwer Medknow PublicationsJournal of Medical Physics0971-62031998-39132017-01-0142316317010.4103/jmp.JMP_32_17A feasibility study on the use of tomotherapy megavoltage computed tomography images for palliative patient treatment planningYunfei HuMikel ByrneBen Archibald-HeerenMatthew SquiresAmy TehKylie SeiffertSonja CheersYang WangDedicated rapid access palliative radiation therapy improves patients' access to care, allowing more timely treatment which would positively impact on quality of life. The TomoTherapy (Accuray, Sunnyvale, CA) system provides megavoltage (MV) fan-beam computed tomography (FBCT) as the image guidance technique, and a module called “statRT” that allows the use of these MV FBCT images for direct planning. The possibility of using this imaging modality for palliative radiotherapy treatment planning is assessed against accepted planning CT standards by performing tests following AAPM TG 66 and an end-to-end measurement. Results have shown that MV FBCT images acquired by TomoTherapy are of sufficient quality for the purpose of target delineation and dose calculation for palliative treatments. Large image noise and extended scan acquisition time are the two main drawbacks, so this imaging modality should only be used for palliative treatments at areas with well-known, easily distinguishable, and relatively immobile targets such as spine and whole brain.http://www.jmp.org.in/article.asp?issn=0971-6203;year=2017;volume=42;issue=3;spage=163;epage=170;aulast=HuImagingmegavoltage computed tomographypalliative radiotherapyTomoTherapy
collection DOAJ
language English
format Article
sources DOAJ
author Yunfei Hu
Mikel Byrne
Ben Archibald-Heeren
Matthew Squires
Amy Teh
Kylie Seiffert
Sonja Cheers
Yang Wang
spellingShingle Yunfei Hu
Mikel Byrne
Ben Archibald-Heeren
Matthew Squires
Amy Teh
Kylie Seiffert
Sonja Cheers
Yang Wang
A feasibility study on the use of tomotherapy megavoltage computed tomography images for palliative patient treatment planning
Journal of Medical Physics
Imaging
megavoltage computed tomography
palliative radiotherapy
TomoTherapy
author_facet Yunfei Hu
Mikel Byrne
Ben Archibald-Heeren
Matthew Squires
Amy Teh
Kylie Seiffert
Sonja Cheers
Yang Wang
author_sort Yunfei Hu
title A feasibility study on the use of tomotherapy megavoltage computed tomography images for palliative patient treatment planning
title_short A feasibility study on the use of tomotherapy megavoltage computed tomography images for palliative patient treatment planning
title_full A feasibility study on the use of tomotherapy megavoltage computed tomography images for palliative patient treatment planning
title_fullStr A feasibility study on the use of tomotherapy megavoltage computed tomography images for palliative patient treatment planning
title_full_unstemmed A feasibility study on the use of tomotherapy megavoltage computed tomography images for palliative patient treatment planning
title_sort feasibility study on the use of tomotherapy megavoltage computed tomography images for palliative patient treatment planning
publisher Wolters Kluwer Medknow Publications
series Journal of Medical Physics
issn 0971-6203
1998-3913
publishDate 2017-01-01
description Dedicated rapid access palliative radiation therapy improves patients' access to care, allowing more timely treatment which would positively impact on quality of life. The TomoTherapy (Accuray, Sunnyvale, CA) system provides megavoltage (MV) fan-beam computed tomography (FBCT) as the image guidance technique, and a module called “statRT” that allows the use of these MV FBCT images for direct planning. The possibility of using this imaging modality for palliative radiotherapy treatment planning is assessed against accepted planning CT standards by performing tests following AAPM TG 66 and an end-to-end measurement. Results have shown that MV FBCT images acquired by TomoTherapy are of sufficient quality for the purpose of target delineation and dose calculation for palliative treatments. Large image noise and extended scan acquisition time are the two main drawbacks, so this imaging modality should only be used for palliative treatments at areas with well-known, easily distinguishable, and relatively immobile targets such as spine and whole brain.
topic Imaging
megavoltage computed tomography
palliative radiotherapy
TomoTherapy
url http://www.jmp.org.in/article.asp?issn=0971-6203;year=2017;volume=42;issue=3;spage=163;epage=170;aulast=Hu
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