Image-Guided Radiotherapy Using a Modified Industrial Micro-CT for Preclinical Applications.

Image-Guided Radiotherapy Using a Modified Industrial Micro-CT for Preclinical Applications.

Although radiotherapy is a key component of cancer treatment, its implementation into pre-clinical in vivo models with relatively small target volumes is frequently omitted either due to technical complexity or expected side effects hampering long-term observational studies. We here demonstrate how...

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Main Authors: Manuela C Felix, Jens Fleckenstein, Stefanie Kirschner, Linda Hartmann, Frederik Wenz, Marc A Brockmann, Gerhard Glatting, Frank A Giordano
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2015-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC4438006?pdf=render
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spelling doaj-d8a9c6f4bb834ca8ab7325fe3aac36092020-11-25T01:18:46ZengPublic Library of Science (PLoS)PLoS ONE1932-62032015-01-01105e012624610.1371/journal.pone.0126246Image-Guided Radiotherapy Using a Modified Industrial Micro-CT for Preclinical Applications.Manuela C FelixJens FleckensteinStefanie KirschnerLinda HartmannFrederik WenzMarc A BrockmannGerhard GlattingFrank A GiordanoAlthough radiotherapy is a key component of cancer treatment, its implementation into pre-clinical in vivo models with relatively small target volumes is frequently omitted either due to technical complexity or expected side effects hampering long-term observational studies. We here demonstrate how an affordable industrial micro-CT can be converted into a small animal IGRT device at very low costs. We also demonstrate the proof of principle for the case of partial brain irradiation of mice carrying orthotopic glioblastoma implants.A commercially available micro-CT originally designed for non-destructive material analysis was used. It consists of a CNC manipulator, a transmission X-ray tube (10-160 kV) and a flat-panel detector, which was used together with custom-made steel collimators (1-5 mm aperture size). For radiation field characterization, an ionization chamber, water-equivalent slab phantoms and radiochromic films were used. A treatment planning tool was implemented using a C++ application. For proof of principle, NOD/SCID/γc(-/-) mice were orthotopically implanted with U87MG high-grade glioma cells and irradiated using the novel setup.The overall symmetry of the radiation field at 150 kV was 1.04 ± 0.02%. The flatness was 4.99 ± 0.63% and the penumbra widths were between 0.14 mm and 0.51 mm. The full width at half maximum (FWHM) ranged from 1.97 to 9.99 mm depending on the collimator aperture size. The dose depth curve along the central axis followed a typical shape of keV photons. Dose rates measured were 10.7 mGy/s in 1 mm and 7.6 mGy/s in 5 mm depth (5 mm collimator aperture size). Treatment of mice with a single dose of 10 Gy was tolerated well and resulted in central tumor necrosis consistent with therapeutic efficacy.A conventional industrial micro-CT can be easily modified to allow effective small animal IGRT even of critical target volumes such as the brain.http://europepmc.org/articles/PMC4438006?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Manuela C Felix
Jens Fleckenstein
Stefanie Kirschner
Linda Hartmann
Frederik Wenz
Marc A Brockmann
Gerhard Glatting
Frank A Giordano
spellingShingle Manuela C Felix
Jens Fleckenstein
Stefanie Kirschner
Linda Hartmann
Frederik Wenz
Marc A Brockmann
Gerhard Glatting
Frank A Giordano
Image-Guided Radiotherapy Using a Modified Industrial Micro-CT for Preclinical Applications.
PLoS ONE
author_facet Manuela C Felix
Jens Fleckenstein
Stefanie Kirschner
Linda Hartmann
Frederik Wenz
Marc A Brockmann
Gerhard Glatting
Frank A Giordano
author_sort Manuela C Felix
title Image-Guided Radiotherapy Using a Modified Industrial Micro-CT for Preclinical Applications.
title_short Image-Guided Radiotherapy Using a Modified Industrial Micro-CT for Preclinical Applications.
title_full Image-Guided Radiotherapy Using a Modified Industrial Micro-CT for Preclinical Applications.
title_fullStr Image-Guided Radiotherapy Using a Modified Industrial Micro-CT for Preclinical Applications.
title_full_unstemmed Image-Guided Radiotherapy Using a Modified Industrial Micro-CT for Preclinical Applications.
title_sort image-guided radiotherapy using a modified industrial micro-ct for preclinical applications.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2015-01-01
description Although radiotherapy is a key component of cancer treatment, its implementation into pre-clinical in vivo models with relatively small target volumes is frequently omitted either due to technical complexity or expected side effects hampering long-term observational studies. We here demonstrate how an affordable industrial micro-CT can be converted into a small animal IGRT device at very low costs. We also demonstrate the proof of principle for the case of partial brain irradiation of mice carrying orthotopic glioblastoma implants.A commercially available micro-CT originally designed for non-destructive material analysis was used. It consists of a CNC manipulator, a transmission X-ray tube (10-160 kV) and a flat-panel detector, which was used together with custom-made steel collimators (1-5 mm aperture size). For radiation field characterization, an ionization chamber, water-equivalent slab phantoms and radiochromic films were used. A treatment planning tool was implemented using a C++ application. For proof of principle, NOD/SCID/γc(-/-) mice were orthotopically implanted with U87MG high-grade glioma cells and irradiated using the novel setup.The overall symmetry of the radiation field at 150 kV was 1.04 ± 0.02%. The flatness was 4.99 ± 0.63% and the penumbra widths were between 0.14 mm and 0.51 mm. The full width at half maximum (FWHM) ranged from 1.97 to 9.99 mm depending on the collimator aperture size. The dose depth curve along the central axis followed a typical shape of keV photons. Dose rates measured were 10.7 mGy/s in 1 mm and 7.6 mGy/s in 5 mm depth (5 mm collimator aperture size). Treatment of mice with a single dose of 10 Gy was tolerated well and resulted in central tumor necrosis consistent with therapeutic efficacy.A conventional industrial micro-CT can be easily modified to allow effective small animal IGRT even of critical target volumes such as the brain.
url http://europepmc.org/articles/PMC4438006?pdf=render
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