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In Vivo Measurements of T2 Relaxation Time of Mouse Lungs during Inspiration and Expiration

PURPOSE: The interest in measurements of magnetic resonance imaging relaxation times, T1, T2, T2*, with intention to characterize healthy and diseased lungs has increased recently. Animal studies play an important role in this context providing models for understanding and linking the measured relax...

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Autores principales: Olsson, Lars E., Hockings, Paul D.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2016
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5147840/
https://www.ncbi.nlm.nih.gov/pubmed/27936061
http://dx.doi.org/10.1371/journal.pone.0166879
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author Olsson, Lars E.
Hockings, Paul D.
author_facet Olsson, Lars E.
Hockings, Paul D.
author_sort Olsson, Lars E.
collection PubMed
description PURPOSE: The interest in measurements of magnetic resonance imaging relaxation times, T1, T2, T2*, with intention to characterize healthy and diseased lungs has increased recently. Animal studies play an important role in this context providing models for understanding and linking the measured relaxation time changes to the underlying physiology or disease. The aim of this work was to study how the measured transversal relaxation time (T2) in healthy lungs is affected by normal respiration in mouse. METHOD: T2 of lung was measured in anaesthetized freely breathing mice. Image acquisition was performed on a 4.7 T, Bruker BioSpec with a multi spin-echo sequence (Car-Purcell-Meiboom-Gill) in both end-expiration and end-inspiration. The echo trains consisted of ten echoes of inter echo time 3.5 ms or 4.0 ms. The proton density, T2 and noise floor were fitted to the measured signals of the lung parenchyma with a Levenberg-Marquardt least-squares three-parameter fit. RESULTS: T2 in the lungs was longer (p<0.01) at end-expiration (9.7±0.7 ms) than at end-inspiration (9.0±0.8 ms) measured with inter-echo time 3.5 ms. The corresponding relative proton density (lung/muscle tissue) was higher (p<0.001) during end-expiration, (0.61±0.06) than during end-inspiration (0.48±0.05). The ratio of relative proton density at end-inspiration to that at end-expiration was 0.78±0.09. Similar results were found for inter-echo time 4.0 ms and there was no significant difference between the T2 values or proton densities acquired with different interecho times. The T2 value increased linearly (p< 0.001) with proton density. CONCLUSION: The measured T2 in-vivo is affected by diffusion across internal magnetic susceptibility gradients. In the lungs these gradients are modulated by respiration, as verified by calculations. In conclusion the measured T2 was found to be dependent on the size of the alveoli.
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spelling pubmed-51478402016-12-28 In Vivo Measurements of T2 Relaxation Time of Mouse Lungs during Inspiration and Expiration Olsson, Lars E. Hockings, Paul D. PLoS One Research Article PURPOSE: The interest in measurements of magnetic resonance imaging relaxation times, T1, T2, T2*, with intention to characterize healthy and diseased lungs has increased recently. Animal studies play an important role in this context providing models for understanding and linking the measured relaxation time changes to the underlying physiology or disease. The aim of this work was to study how the measured transversal relaxation time (T2) in healthy lungs is affected by normal respiration in mouse. METHOD: T2 of lung was measured in anaesthetized freely breathing mice. Image acquisition was performed on a 4.7 T, Bruker BioSpec with a multi spin-echo sequence (Car-Purcell-Meiboom-Gill) in both end-expiration and end-inspiration. The echo trains consisted of ten echoes of inter echo time 3.5 ms or 4.0 ms. The proton density, T2 and noise floor were fitted to the measured signals of the lung parenchyma with a Levenberg-Marquardt least-squares three-parameter fit. RESULTS: T2 in the lungs was longer (p<0.01) at end-expiration (9.7±0.7 ms) than at end-inspiration (9.0±0.8 ms) measured with inter-echo time 3.5 ms. The corresponding relative proton density (lung/muscle tissue) was higher (p<0.001) during end-expiration, (0.61±0.06) than during end-inspiration (0.48±0.05). The ratio of relative proton density at end-inspiration to that at end-expiration was 0.78±0.09. Similar results were found for inter-echo time 4.0 ms and there was no significant difference between the T2 values or proton densities acquired with different interecho times. The T2 value increased linearly (p< 0.001) with proton density. CONCLUSION: The measured T2 in-vivo is affected by diffusion across internal magnetic susceptibility gradients. In the lungs these gradients are modulated by respiration, as verified by calculations. In conclusion the measured T2 was found to be dependent on the size of the alveoli. Public Library of Science 2016-12-09 /pmc/articles/PMC5147840/ /pubmed/27936061 http://dx.doi.org/10.1371/journal.pone.0166879 Text en © 2016 Olsson, Hockings 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
Olsson, Lars E.
Hockings, Paul D.
In Vivo Measurements of T2 Relaxation Time of Mouse Lungs during Inspiration and Expiration
title In Vivo Measurements of T2 Relaxation Time of Mouse Lungs during Inspiration and Expiration
title_full In Vivo Measurements of T2 Relaxation Time of Mouse Lungs during Inspiration and Expiration
title_fullStr In Vivo Measurements of T2 Relaxation Time of Mouse Lungs during Inspiration and Expiration
title_full_unstemmed In Vivo Measurements of T2 Relaxation Time of Mouse Lungs during Inspiration and Expiration
title_short In Vivo Measurements of T2 Relaxation Time of Mouse Lungs during Inspiration and Expiration
title_sort in vivo measurements of t2 relaxation time of mouse lungs during inspiration and expiration
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5147840/
https://www.ncbi.nlm.nih.gov/pubmed/27936061
http://dx.doi.org/10.1371/journal.pone.0166879
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