UK quantitative WB-DWI technical workgroup: consensus meeting recommendations on optimisation, quality control, processing and analysis of quantitative whole-body diffusion-weighted imaging for cancer

OBJECTIVE: Application of whole body diffusion-weighted MRI (WB-DWI) for oncology are rapidly increasing within both research and routine clinical domains. However, WB-DWI as a quantitative imaging biomarker (QIB) has significantly slower adoption. To date, challenges relating to accuracy and reprod...

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Autores principales: Barnes, Anna, Alonzi, Roberto, Blackledge, Matthew, Charles-Edwards, Geoff, Collins, David J, Cook, Gary, Coutts, Glynn, Goh, Vicky, Graves, Martin, Kelly, Charles, Koh, Dow-mu, McCallum, Hazel, Miquel, Marc E, O’Connor, James, Padhani, Anwar, Pearson, Rachel, Priest, Andrew, Rockall, Andrea, Stirling, James, Taylor, Stuart, Tunariu, Nina, van der Meulen, Jan, Walls, Darren, Winfield, Jessica, Punwani, Shonit
Formato: Online Artículo Texto
Lenguaje:English
Publicado: The British Institute of Radiology. 2018
Materias:
Guidelines & Recommendations
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5966219/
https://www.ncbi.nlm.nih.gov/pubmed/29076749
http://dx.doi.org/10.1259/bjr.20170577
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author Barnes, Anna
Alonzi, Roberto
Blackledge, Matthew
Charles-Edwards, Geoff
Collins, David J
Cook, Gary
Coutts, Glynn
Goh, Vicky
Graves, Martin
Kelly, Charles
Koh, Dow-mu
McCallum, Hazel
Miquel, Marc E
O’Connor, James
Padhani, Anwar
Pearson, Rachel
Priest, Andrew
Rockall, Andrea
Stirling, James
Taylor, Stuart
Tunariu, Nina
van der Meulen, Jan
Walls, Darren
Winfield, Jessica
Punwani, Shonit
author_facet Barnes, Anna
Alonzi, Roberto
Blackledge, Matthew
Charles-Edwards, Geoff
Collins, David J
Cook, Gary
Coutts, Glynn
Goh, Vicky
Graves, Martin
Kelly, Charles
Koh, Dow-mu
McCallum, Hazel
Miquel, Marc E
O’Connor, James
Padhani, Anwar
Pearson, Rachel
Priest, Andrew
Rockall, Andrea
Stirling, James
Taylor, Stuart
Tunariu, Nina
van der Meulen, Jan
Walls, Darren
Winfield, Jessica
Punwani, Shonit
author_sort Barnes, Anna
collection PubMed
description OBJECTIVE: Application of whole body diffusion-weighted MRI (WB-DWI) for oncology are rapidly increasing within both research and routine clinical domains. However, WB-DWI as a quantitative imaging biomarker (QIB) has significantly slower adoption. To date, challenges relating to accuracy and reproducibility, essential criteria for a good QIB, have limited widespread clinical translation. In recognition, a UK workgroup was established in 2016 to provide technical consensus guidelines (to maximise accuracy and reproducibility of WB-MRI QIBs) and accelerate the clinical translation of quantitative WB-DWI applications for oncology. METHODS: A panel of experts convened from cancer centres around the UK with subspecialty expertise in quantitative imaging and/or the use of WB-MRI with DWI. A formal consensus method was used to obtain consensus agreement regarding best practice. Questions were asked about the appropriateness or otherwise on scanner hardware and software, sequence optimisation, acquisition protocols, reporting, and ongoing quality control programs to monitor precision and accuracy and agreement on quality control. RESULTS: The consensus panel was able to reach consensus on 73% (255/351) items and based on consensus areas made recommendations to maximise accuracy and reproducibly of quantitative WB-DWI studies performed at 1.5T. The panel were unable to reach consensus on the majority of items related to quantitative WB-DWI performed at 3T. CONCLUSION: This UK Quantitative WB-DWI Technical Workgroup consensus provides guidance on maximising accuracy and reproducibly of quantitative WB-DWI for oncology. The consensus guidance can be used by researchers and clinicians to harmonise WB-DWI protocols which will accelerate clinical translation of WB-DWI-derived QIBs.
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spelling pubmed-59662192019-01-01 UK quantitative WB-DWI technical workgroup: consensus meeting recommendations on optimisation, quality control, processing and analysis of quantitative whole-body diffusion-weighted imaging for cancer Barnes, Anna Alonzi, Roberto Blackledge, Matthew Charles-Edwards, Geoff Collins, David J Cook, Gary Coutts, Glynn Goh, Vicky Graves, Martin Kelly, Charles Koh, Dow-mu McCallum, Hazel Miquel, Marc E O’Connor, James Padhani, Anwar Pearson, Rachel Priest, Andrew Rockall, Andrea Stirling, James Taylor, Stuart Tunariu, Nina van der Meulen, Jan Walls, Darren Winfield, Jessica Punwani, Shonit Br J Radiol Guidelines & Recommendations OBJECTIVE: Application of whole body diffusion-weighted MRI (WB-DWI) for oncology are rapidly increasing within both research and routine clinical domains. However, WB-DWI as a quantitative imaging biomarker (QIB) has significantly slower adoption. To date, challenges relating to accuracy and reproducibility, essential criteria for a good QIB, have limited widespread clinical translation. In recognition, a UK workgroup was established in 2016 to provide technical consensus guidelines (to maximise accuracy and reproducibility of WB-MRI QIBs) and accelerate the clinical translation of quantitative WB-DWI applications for oncology. METHODS: A panel of experts convened from cancer centres around the UK with subspecialty expertise in quantitative imaging and/or the use of WB-MRI with DWI. A formal consensus method was used to obtain consensus agreement regarding best practice. Questions were asked about the appropriateness or otherwise on scanner hardware and software, sequence optimisation, acquisition protocols, reporting, and ongoing quality control programs to monitor precision and accuracy and agreement on quality control. RESULTS: The consensus panel was able to reach consensus on 73% (255/351) items and based on consensus areas made recommendations to maximise accuracy and reproducibly of quantitative WB-DWI studies performed at 1.5T. The panel were unable to reach consensus on the majority of items related to quantitative WB-DWI performed at 3T. CONCLUSION: This UK Quantitative WB-DWI Technical Workgroup consensus provides guidance on maximising accuracy and reproducibly of quantitative WB-DWI for oncology. The consensus guidance can be used by researchers and clinicians to harmonise WB-DWI protocols which will accelerate clinical translation of WB-DWI-derived QIBs. The British Institute of Radiology. 2018-01 2017-12-07 /pmc/articles/PMC5966219/ /pubmed/29076749 http://dx.doi.org/10.1259/bjr.20170577 Text en © 2018 The Authors. Published by the British Institute of Radiology This is an Open Access article distributed under the terms of the Creative Commons Attribution 4.0 Unported 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 Guidelines & Recommendations
Barnes, Anna
Alonzi, Roberto
Blackledge, Matthew
Charles-Edwards, Geoff
Collins, David J
Cook, Gary
Coutts, Glynn
Goh, Vicky
Graves, Martin
Kelly, Charles
Koh, Dow-mu
McCallum, Hazel
Miquel, Marc E
O’Connor, James
Padhani, Anwar
Pearson, Rachel
Priest, Andrew
Rockall, Andrea
Stirling, James
Taylor, Stuart
Tunariu, Nina
van der Meulen, Jan
Walls, Darren
Winfield, Jessica
Punwani, Shonit
UK quantitative WB-DWI technical workgroup: consensus meeting recommendations on optimisation, quality control, processing and analysis of quantitative whole-body diffusion-weighted imaging for cancer
title UK quantitative WB-DWI technical workgroup: consensus meeting recommendations on optimisation, quality control, processing and analysis of quantitative whole-body diffusion-weighted imaging for cancer
title_full UK quantitative WB-DWI technical workgroup: consensus meeting recommendations on optimisation, quality control, processing and analysis of quantitative whole-body diffusion-weighted imaging for cancer
title_fullStr UK quantitative WB-DWI technical workgroup: consensus meeting recommendations on optimisation, quality control, processing and analysis of quantitative whole-body diffusion-weighted imaging for cancer
title_full_unstemmed UK quantitative WB-DWI technical workgroup: consensus meeting recommendations on optimisation, quality control, processing and analysis of quantitative whole-body diffusion-weighted imaging for cancer
title_short UK quantitative WB-DWI technical workgroup: consensus meeting recommendations on optimisation, quality control, processing and analysis of quantitative whole-body diffusion-weighted imaging for cancer
title_sort uk quantitative wb-dwi technical workgroup: consensus meeting recommendations on optimisation, quality control, processing and analysis of quantitative whole-body diffusion-weighted imaging for cancer
topic Guidelines & Recommendations
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5966219/
https://www.ncbi.nlm.nih.gov/pubmed/29076749
http://dx.doi.org/10.1259/bjr.20170577
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