A simple, open and extensible gating Control unit for cardiac and respiratory synchronisation control in small animal MRI and demonstration of its robust performance in steady-state maintained CINE-MRI

Prospective cardiac gating during MRI is hampered by electromagnetic induction from the rapidly switched imaging gradients into the ECG detection circuit. This is particularly challenging in small animal MRI, as higher heart rates combined with a smaller myocardial mass render routine ECG detection...

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Autores principales: Gilchrist, Stuart, Kinchesh, Paul, Kersemans, Veerle, Beech, John, Allen, Danny, Brady, Michael, Vojnovic, Borivoj, Schneider, Jurgen, Miller, Jack, Smart, Sean
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Elsevier 2021
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8274699/
https://www.ncbi.nlm.nih.gov/pubmed/33905831
http://dx.doi.org/10.1016/j.mri.2021.04.012
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author Gilchrist, Stuart
Kinchesh, Paul
Kersemans, Veerle
Beech, John
Allen, Danny
Brady, Michael
Vojnovic, Borivoj
Schneider, Jurgen
Miller, Jack
Smart, Sean
author_facet Gilchrist, Stuart
Kinchesh, Paul
Kersemans, Veerle
Beech, John
Allen, Danny
Brady, Michael
Vojnovic, Borivoj
Schneider, Jurgen
Miller, Jack
Smart, Sean
author_sort Gilchrist, Stuart
collection PubMed
description Prospective cardiac gating during MRI is hampered by electromagnetic induction from the rapidly switched imaging gradients into the ECG detection circuit. This is particularly challenging in small animal MRI, as higher heart rates combined with a smaller myocardial mass render routine ECG detection challenging. We have developed an open-hardware system that enables continuously running MRI scans to be performed in conjunction with cardio-respiratory gating such that the relaxation-weighted steady state magnetisation is maintained throughout the scan. This requires that the R-wave must be detected reliably even in the presence of rapidly switching gradients, and that data previously acquired that were corrupted by respiratory motion re-acquired. The accurately maintained steady-state magnetisation leads to an improvement in image quality and removes alterations in intensity that may otherwise occur throughout the cardiac cycle and impact upon automated image analysis. We describe the hardware required to enable this and demonstrate its application and robust performance using prospectively cardio-respiratory gated CINE imaging that is operated at a single, constant TR. Schematics, technical drawings, component listing and assembly instructions are made publicly available.
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spelling pubmed-82746992021-09-01 A simple, open and extensible gating Control unit for cardiac and respiratory synchronisation control in small animal MRI and demonstration of its robust performance in steady-state maintained CINE-MRI Gilchrist, Stuart Kinchesh, Paul Kersemans, Veerle Beech, John Allen, Danny Brady, Michael Vojnovic, Borivoj Schneider, Jurgen Miller, Jack Smart, Sean Magn Reson Imaging Article Prospective cardiac gating during MRI is hampered by electromagnetic induction from the rapidly switched imaging gradients into the ECG detection circuit. This is particularly challenging in small animal MRI, as higher heart rates combined with a smaller myocardial mass render routine ECG detection challenging. We have developed an open-hardware system that enables continuously running MRI scans to be performed in conjunction with cardio-respiratory gating such that the relaxation-weighted steady state magnetisation is maintained throughout the scan. This requires that the R-wave must be detected reliably even in the presence of rapidly switching gradients, and that data previously acquired that were corrupted by respiratory motion re-acquired. The accurately maintained steady-state magnetisation leads to an improvement in image quality and removes alterations in intensity that may otherwise occur throughout the cardiac cycle and impact upon automated image analysis. We describe the hardware required to enable this and demonstrate its application and robust performance using prospectively cardio-respiratory gated CINE imaging that is operated at a single, constant TR. Schematics, technical drawings, component listing and assembly instructions are made publicly available. Elsevier 2021-09 /pmc/articles/PMC8274699/ /pubmed/33905831 http://dx.doi.org/10.1016/j.mri.2021.04.012 Text en © 2021 The Authors https://creativecommons.org/licenses/by/4.0/This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Gilchrist, Stuart
Kinchesh, Paul
Kersemans, Veerle
Beech, John
Allen, Danny
Brady, Michael
Vojnovic, Borivoj
Schneider, Jurgen
Miller, Jack
Smart, Sean
A simple, open and extensible gating Control unit for cardiac and respiratory synchronisation control in small animal MRI and demonstration of its robust performance in steady-state maintained CINE-MRI
title A simple, open and extensible gating Control unit for cardiac and respiratory synchronisation control in small animal MRI and demonstration of its robust performance in steady-state maintained CINE-MRI
title_full A simple, open and extensible gating Control unit for cardiac and respiratory synchronisation control in small animal MRI and demonstration of its robust performance in steady-state maintained CINE-MRI
title_fullStr A simple, open and extensible gating Control unit for cardiac and respiratory synchronisation control in small animal MRI and demonstration of its robust performance in steady-state maintained CINE-MRI
title_full_unstemmed A simple, open and extensible gating Control unit for cardiac and respiratory synchronisation control in small animal MRI and demonstration of its robust performance in steady-state maintained CINE-MRI
title_short A simple, open and extensible gating Control unit for cardiac and respiratory synchronisation control in small animal MRI and demonstration of its robust performance in steady-state maintained CINE-MRI
title_sort simple, open and extensible gating control unit for cardiac and respiratory synchronisation control in small animal mri and demonstration of its robust performance in steady-state maintained cine-mri
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8274699/
https://www.ncbi.nlm.nih.gov/pubmed/33905831
http://dx.doi.org/10.1016/j.mri.2021.04.012
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