An efficient and robust MRI-guided radiotherapy planning approach for targeting abdominal organs and tumours in the mouse

INTRODUCTION: Preclinical CT-guided radiotherapy platforms are increasingly used but the CT images are characterized by poor soft tissue contrast. The aim of this study was to develop a robust and accurate method of MRI-guided radiotherapy (MR-IGRT) delivery to abdominal targets in the mouse. METHOD...

Descripción completa

Detalles Bibliográficos
Autores principales: Kersemans, Veerle, Beech, John S., Gilchrist, Stuart, Kinchesh, Paul, Allen, Philip D., Thompson, James, Gomes, Ana L., D’Costa, Zenobia, Bird, Luke, Tullis, Iain D. C., Newman, Robert G., Corroyer-Dulmont, Aurelien, Falzone, Nadia, Azad, Abul, Vallis, Katherine A., Sansom, Owen J., Muschel, Ruth J., Vojnovic, Borivoj, Hill, Mark A., Fokas, Emmanouil, Smart, Sean C.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2017
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5409175/
https://www.ncbi.nlm.nih.gov/pubmed/28453537
http://dx.doi.org/10.1371/journal.pone.0176693
_version_ 1783232434158960640
author Kersemans, Veerle
Beech, John S.
Gilchrist, Stuart
Kinchesh, Paul
Allen, Philip D.
Thompson, James
Gomes, Ana L.
D’Costa, Zenobia
Bird, Luke
Tullis, Iain D. C.
Newman, Robert G.
Corroyer-Dulmont, Aurelien
Falzone, Nadia
Azad, Abul
Vallis, Katherine A.
Sansom, Owen J.
Muschel, Ruth J.
Vojnovic, Borivoj
Hill, Mark A.
Fokas, Emmanouil
Smart, Sean C.
author_facet Kersemans, Veerle
Beech, John S.
Gilchrist, Stuart
Kinchesh, Paul
Allen, Philip D.
Thompson, James
Gomes, Ana L.
D’Costa, Zenobia
Bird, Luke
Tullis, Iain D. C.
Newman, Robert G.
Corroyer-Dulmont, Aurelien
Falzone, Nadia
Azad, Abul
Vallis, Katherine A.
Sansom, Owen J.
Muschel, Ruth J.
Vojnovic, Borivoj
Hill, Mark A.
Fokas, Emmanouil
Smart, Sean C.
author_sort Kersemans, Veerle
collection PubMed
description INTRODUCTION: Preclinical CT-guided radiotherapy platforms are increasingly used but the CT images are characterized by poor soft tissue contrast. The aim of this study was to develop a robust and accurate method of MRI-guided radiotherapy (MR-IGRT) delivery to abdominal targets in the mouse. METHODS: A multimodality cradle was developed for providing subject immobilisation and its performance was evaluated. Whilst CT was still used for dose calculations, target identification was based on MRI. Each step of the radiotherapy planning procedure was validated initially in vitro using BANG gel dosimeters. Subsequently, MR-IGRT of normal adrenal glands with a size-matched collimated beam was performed. Additionally, the SK-N-SH neuroblastoma xenograft model and the transgenic KPC model of pancreatic ductal adenocarcinoma were used to demonstrate the applicability of our methods for the accurate delivery of radiation to CT-invisible abdominal tumours. RESULTS: The BANG gel phantoms demonstrated a targeting efficiency error of 0.56 ± 0.18 mm. The in vivo stability tests of body motion during MR-IGRT and the associated cradle transfer showed that the residual body movements are within this MR-IGRT targeting error. Accurate MR-IGRT of the normal adrenal glands with a size-matched collimated beam was confirmed by γH2AX staining. Regression in tumour volume was observed almost immediately post MR-IGRT in the neuroblastoma model, further demonstrating accuracy of x-ray delivery. Finally, MR-IGRT in the KPC model facilitated precise contouring and comparison of different treatment plans and radiotherapy dose distributions not only to the intra-abdominal tumour but also to the organs at risk. CONCLUSION: This is, to our knowledge, the first study to demonstrate preclinical MR-IGRT in intra-abdominal organs. The proposed MR-IGRT method presents a state-of-the-art solution to enabling robust, accurate and efficient targeting of extracranial organs in the mouse and can operate with a sufficiently high throughput to allow fractionated treatments to be given.
format Online
Article
Text
id pubmed-5409175
institution National Center for Biotechnology Information
language English
publishDate 2017
publisher Public Library of Science
record_format MEDLINE/PubMed
spelling pubmed-54091752017-05-12 An efficient and robust MRI-guided radiotherapy planning approach for targeting abdominal organs and tumours in the mouse Kersemans, Veerle Beech, John S. Gilchrist, Stuart Kinchesh, Paul Allen, Philip D. Thompson, James Gomes, Ana L. D’Costa, Zenobia Bird, Luke Tullis, Iain D. C. Newman, Robert G. Corroyer-Dulmont, Aurelien Falzone, Nadia Azad, Abul Vallis, Katherine A. Sansom, Owen J. Muschel, Ruth J. Vojnovic, Borivoj Hill, Mark A. Fokas, Emmanouil Smart, Sean C. PLoS One Research Article INTRODUCTION: Preclinical CT-guided radiotherapy platforms are increasingly used but the CT images are characterized by poor soft tissue contrast. The aim of this study was to develop a robust and accurate method of MRI-guided radiotherapy (MR-IGRT) delivery to abdominal targets in the mouse. METHODS: A multimodality cradle was developed for providing subject immobilisation and its performance was evaluated. Whilst CT was still used for dose calculations, target identification was based on MRI. Each step of the radiotherapy planning procedure was validated initially in vitro using BANG gel dosimeters. Subsequently, MR-IGRT of normal adrenal glands with a size-matched collimated beam was performed. Additionally, the SK-N-SH neuroblastoma xenograft model and the transgenic KPC model of pancreatic ductal adenocarcinoma were used to demonstrate the applicability of our methods for the accurate delivery of radiation to CT-invisible abdominal tumours. RESULTS: The BANG gel phantoms demonstrated a targeting efficiency error of 0.56 ± 0.18 mm. The in vivo stability tests of body motion during MR-IGRT and the associated cradle transfer showed that the residual body movements are within this MR-IGRT targeting error. Accurate MR-IGRT of the normal adrenal glands with a size-matched collimated beam was confirmed by γH2AX staining. Regression in tumour volume was observed almost immediately post MR-IGRT in the neuroblastoma model, further demonstrating accuracy of x-ray delivery. Finally, MR-IGRT in the KPC model facilitated precise contouring and comparison of different treatment plans and radiotherapy dose distributions not only to the intra-abdominal tumour but also to the organs at risk. CONCLUSION: This is, to our knowledge, the first study to demonstrate preclinical MR-IGRT in intra-abdominal organs. The proposed MR-IGRT method presents a state-of-the-art solution to enabling robust, accurate and efficient targeting of extracranial organs in the mouse and can operate with a sufficiently high throughput to allow fractionated treatments to be given. Public Library of Science 2017-04-28 /pmc/articles/PMC5409175/ /pubmed/28453537 http://dx.doi.org/10.1371/journal.pone.0176693 Text en © 2017 Kersemans et al http://creativecommons.org/licenses/by/4.0/ This is an open access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
spellingShingle Research Article
Kersemans, Veerle
Beech, John S.
Gilchrist, Stuart
Kinchesh, Paul
Allen, Philip D.
Thompson, James
Gomes, Ana L.
D’Costa, Zenobia
Bird, Luke
Tullis, Iain D. C.
Newman, Robert G.
Corroyer-Dulmont, Aurelien
Falzone, Nadia
Azad, Abul
Vallis, Katherine A.
Sansom, Owen J.
Muschel, Ruth J.
Vojnovic, Borivoj
Hill, Mark A.
Fokas, Emmanouil
Smart, Sean C.
An efficient and robust MRI-guided radiotherapy planning approach for targeting abdominal organs and tumours in the mouse
title An efficient and robust MRI-guided radiotherapy planning approach for targeting abdominal organs and tumours in the mouse
title_full An efficient and robust MRI-guided radiotherapy planning approach for targeting abdominal organs and tumours in the mouse
title_fullStr An efficient and robust MRI-guided radiotherapy planning approach for targeting abdominal organs and tumours in the mouse
title_full_unstemmed An efficient and robust MRI-guided radiotherapy planning approach for targeting abdominal organs and tumours in the mouse
title_short An efficient and robust MRI-guided radiotherapy planning approach for targeting abdominal organs and tumours in the mouse
title_sort efficient and robust mri-guided radiotherapy planning approach for targeting abdominal organs and tumours in the mouse
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5409175/
https://www.ncbi.nlm.nih.gov/pubmed/28453537
http://dx.doi.org/10.1371/journal.pone.0176693
work_keys_str_mv AT kersemansveerle anefficientandrobustmriguidedradiotherapyplanningapproachfortargetingabdominalorgansandtumoursinthemouse
AT beechjohns anefficientandrobustmriguidedradiotherapyplanningapproachfortargetingabdominalorgansandtumoursinthemouse
AT gilchriststuart anefficientandrobustmriguidedradiotherapyplanningapproachfortargetingabdominalorgansandtumoursinthemouse
AT kincheshpaul anefficientandrobustmriguidedradiotherapyplanningapproachfortargetingabdominalorgansandtumoursinthemouse
AT allenphilipd anefficientandrobustmriguidedradiotherapyplanningapproachfortargetingabdominalorgansandtumoursinthemouse
AT thompsonjames anefficientandrobustmriguidedradiotherapyplanningapproachfortargetingabdominalorgansandtumoursinthemouse
AT gomesanal anefficientandrobustmriguidedradiotherapyplanningapproachfortargetingabdominalorgansandtumoursinthemouse
AT dcostazenobia anefficientandrobustmriguidedradiotherapyplanningapproachfortargetingabdominalorgansandtumoursinthemouse
AT birdluke anefficientandrobustmriguidedradiotherapyplanningapproachfortargetingabdominalorgansandtumoursinthemouse
AT tullisiaindc anefficientandrobustmriguidedradiotherapyplanningapproachfortargetingabdominalorgansandtumoursinthemouse
AT newmanrobertg anefficientandrobustmriguidedradiotherapyplanningapproachfortargetingabdominalorgansandtumoursinthemouse
AT corroyerdulmontaurelien anefficientandrobustmriguidedradiotherapyplanningapproachfortargetingabdominalorgansandtumoursinthemouse
AT falzonenadia anefficientandrobustmriguidedradiotherapyplanningapproachfortargetingabdominalorgansandtumoursinthemouse
AT azadabul anefficientandrobustmriguidedradiotherapyplanningapproachfortargetingabdominalorgansandtumoursinthemouse
AT valliskatherinea anefficientandrobustmriguidedradiotherapyplanningapproachfortargetingabdominalorgansandtumoursinthemouse
AT sansomowenj anefficientandrobustmriguidedradiotherapyplanningapproachfortargetingabdominalorgansandtumoursinthemouse
AT muschelruthj anefficientandrobustmriguidedradiotherapyplanningapproachfortargetingabdominalorgansandtumoursinthemouse
AT vojnovicborivoj anefficientandrobustmriguidedradiotherapyplanningapproachfortargetingabdominalorgansandtumoursinthemouse
AT hillmarka anefficientandrobustmriguidedradiotherapyplanningapproachfortargetingabdominalorgansandtumoursinthemouse
AT fokasemmanouil anefficientandrobustmriguidedradiotherapyplanningapproachfortargetingabdominalorgansandtumoursinthemouse
AT smartseanc anefficientandrobustmriguidedradiotherapyplanningapproachfortargetingabdominalorgansandtumoursinthemouse
AT kersemansveerle efficientandrobustmriguidedradiotherapyplanningapproachfortargetingabdominalorgansandtumoursinthemouse
AT beechjohns efficientandrobustmriguidedradiotherapyplanningapproachfortargetingabdominalorgansandtumoursinthemouse
AT gilchriststuart efficientandrobustmriguidedradiotherapyplanningapproachfortargetingabdominalorgansandtumoursinthemouse
AT kincheshpaul efficientandrobustmriguidedradiotherapyplanningapproachfortargetingabdominalorgansandtumoursinthemouse
AT allenphilipd efficientandrobustmriguidedradiotherapyplanningapproachfortargetingabdominalorgansandtumoursinthemouse
AT thompsonjames efficientandrobustmriguidedradiotherapyplanningapproachfortargetingabdominalorgansandtumoursinthemouse
AT gomesanal efficientandrobustmriguidedradiotherapyplanningapproachfortargetingabdominalorgansandtumoursinthemouse
AT dcostazenobia efficientandrobustmriguidedradiotherapyplanningapproachfortargetingabdominalorgansandtumoursinthemouse
AT birdluke efficientandrobustmriguidedradiotherapyplanningapproachfortargetingabdominalorgansandtumoursinthemouse
AT tullisiaindc efficientandrobustmriguidedradiotherapyplanningapproachfortargetingabdominalorgansandtumoursinthemouse
AT newmanrobertg efficientandrobustmriguidedradiotherapyplanningapproachfortargetingabdominalorgansandtumoursinthemouse
AT corroyerdulmontaurelien efficientandrobustmriguidedradiotherapyplanningapproachfortargetingabdominalorgansandtumoursinthemouse
AT falzonenadia efficientandrobustmriguidedradiotherapyplanningapproachfortargetingabdominalorgansandtumoursinthemouse
AT azadabul efficientandrobustmriguidedradiotherapyplanningapproachfortargetingabdominalorgansandtumoursinthemouse
AT valliskatherinea efficientandrobustmriguidedradiotherapyplanningapproachfortargetingabdominalorgansandtumoursinthemouse
AT sansomowenj efficientandrobustmriguidedradiotherapyplanningapproachfortargetingabdominalorgansandtumoursinthemouse
AT muschelruthj efficientandrobustmriguidedradiotherapyplanningapproachfortargetingabdominalorgansandtumoursinthemouse
AT vojnovicborivoj efficientandrobustmriguidedradiotherapyplanningapproachfortargetingabdominalorgansandtumoursinthemouse
AT hillmarka efficientandrobustmriguidedradiotherapyplanningapproachfortargetingabdominalorgansandtumoursinthemouse
AT fokasemmanouil efficientandrobustmriguidedradiotherapyplanningapproachfortargetingabdominalorgansandtumoursinthemouse
AT smartseanc efficientandrobustmriguidedradiotherapyplanningapproachfortargetingabdominalorgansandtumoursinthemouse

Ejemplares similares