Bias Introduced by Multiple Head Coils in MRI Research: An 8 Channel and 32 Channel Coil Comparison

Neuroimaging MRI data in scientific research is increasingly pooled, but the reliability of such studies may be hampered by the use of different hardware elements. This might introduce bias, for example when cross-sectional studies pool data acquired with different head coils, or when longitudinal c...

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Autores principales: Panman, Jessica L., To, Yang Yang, van der Ende, Emma L., Poos, Jackie M., Jiskoot, Lize C., Meeter, Lieke H. H., Dopper, Elise G. P., Bouts, Mark J. R. J., van Osch, Matthias J. P., Rombouts, Serge A. R. B., van Swieten, John C., van der Grond, Jeroen, Papma, Janne M., Hafkemeijer, Anne
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2019
Materias:
Neuroscience
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6648353/
https://www.ncbi.nlm.nih.gov/pubmed/31379483
http://dx.doi.org/10.3389/fnins.2019.00729
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author Panman, Jessica L.
To, Yang Yang
van der Ende, Emma L.
Poos, Jackie M.
Jiskoot, Lize C.
Meeter, Lieke H. H.
Dopper, Elise G. P.
Bouts, Mark J. R. J.
van Osch, Matthias J. P.
Rombouts, Serge A. R. B.
van Swieten, John C.
van der Grond, Jeroen
Papma, Janne M.
Hafkemeijer, Anne
author_facet Panman, Jessica L.
To, Yang Yang
van der Ende, Emma L.
Poos, Jackie M.
Jiskoot, Lize C.
Meeter, Lieke H. H.
Dopper, Elise G. P.
Bouts, Mark J. R. J.
van Osch, Matthias J. P.
Rombouts, Serge A. R. B.
van Swieten, John C.
van der Grond, Jeroen
Papma, Janne M.
Hafkemeijer, Anne
author_sort Panman, Jessica L.
collection PubMed
description Neuroimaging MRI data in scientific research is increasingly pooled, but the reliability of such studies may be hampered by the use of different hardware elements. This might introduce bias, for example when cross-sectional studies pool data acquired with different head coils, or when longitudinal clinical studies change head coils halfway. In the present study, we aimed to estimate this possible bias introduced by using different head coils to create awareness and to avoid misinterpretation of results. We acquired, with both an 8 channel and 32 channel head coil, T1-weighted, diffusion tensor imaging and resting state fMRI images at 3T MRI (Philips Achieva) with stable acquisition parameters in a large group of cognitively healthy participants (n = 77). Standard analysis methods, i.e., voxel-based morphometry, tract-based spatial statistics and resting state functional network analyses, were used in a within-subject design to compare 8 and 32 channel head coil data. Signal-to-noise ratios (SNR) for both head coils showed similar ranges, although the 32 channel SNR profile was more homogeneous. Our data demonstrates specific patterns of gray and white matter volume differences between head coils (relative volume change of 6 to 9%), related to altered image contrast and therefore, altered tissue segmentation. White matter connectivity (fractional anisotropy and diffusivity measures) showed hemispherical dependent differences between head coils (relative connectivity change of 4 to 6%), and functional connectivity in resting state networks was higher using the 32 channel head coil in posterior cortical areas (relative change up to 27.5%). This study shows that, even when acquisition protocols are harmonized, the results of standardized analysis models can be severely affected by the use of different head coils. Researchers should be aware of this when combining multiple neuroimaging MRI datasets, to prevent coil-related bias and avoid misinterpretation of their findings.
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spelling pubmed-66483532019-08-02 Bias Introduced by Multiple Head Coils in MRI Research: An 8 Channel and 32 Channel Coil Comparison Panman, Jessica L. To, Yang Yang van der Ende, Emma L. Poos, Jackie M. Jiskoot, Lize C. Meeter, Lieke H. H. Dopper, Elise G. P. Bouts, Mark J. R. J. van Osch, Matthias J. P. Rombouts, Serge A. R. B. van Swieten, John C. van der Grond, Jeroen Papma, Janne M. Hafkemeijer, Anne Front Neurosci Neuroscience Neuroimaging MRI data in scientific research is increasingly pooled, but the reliability of such studies may be hampered by the use of different hardware elements. This might introduce bias, for example when cross-sectional studies pool data acquired with different head coils, or when longitudinal clinical studies change head coils halfway. In the present study, we aimed to estimate this possible bias introduced by using different head coils to create awareness and to avoid misinterpretation of results. We acquired, with both an 8 channel and 32 channel head coil, T1-weighted, diffusion tensor imaging and resting state fMRI images at 3T MRI (Philips Achieva) with stable acquisition parameters in a large group of cognitively healthy participants (n = 77). Standard analysis methods, i.e., voxel-based morphometry, tract-based spatial statistics and resting state functional network analyses, were used in a within-subject design to compare 8 and 32 channel head coil data. Signal-to-noise ratios (SNR) for both head coils showed similar ranges, although the 32 channel SNR profile was more homogeneous. Our data demonstrates specific patterns of gray and white matter volume differences between head coils (relative volume change of 6 to 9%), related to altered image contrast and therefore, altered tissue segmentation. White matter connectivity (fractional anisotropy and diffusivity measures) showed hemispherical dependent differences between head coils (relative connectivity change of 4 to 6%), and functional connectivity in resting state networks was higher using the 32 channel head coil in posterior cortical areas (relative change up to 27.5%). This study shows that, even when acquisition protocols are harmonized, the results of standardized analysis models can be severely affected by the use of different head coils. Researchers should be aware of this when combining multiple neuroimaging MRI datasets, to prevent coil-related bias and avoid misinterpretation of their findings. Frontiers Media S.A. 2019-07-15 /pmc/articles/PMC6648353/ /pubmed/31379483 http://dx.doi.org/10.3389/fnins.2019.00729 Text en Copyright © 2019 Panman, To, van der Ende, Poos, Jiskoot, Meeter, Dopper, Bouts, van Osch, Rombouts, van Swieten, van der Grond, Papma and Hafkemeijer. http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Neuroscience
Panman, Jessica L.
To, Yang Yang
van der Ende, Emma L.
Poos, Jackie M.
Jiskoot, Lize C.
Meeter, Lieke H. H.
Dopper, Elise G. P.
Bouts, Mark J. R. J.
van Osch, Matthias J. P.
Rombouts, Serge A. R. B.
van Swieten, John C.
van der Grond, Jeroen
Papma, Janne M.
Hafkemeijer, Anne
Bias Introduced by Multiple Head Coils in MRI Research: An 8 Channel and 32 Channel Coil Comparison
title Bias Introduced by Multiple Head Coils in MRI Research: An 8 Channel and 32 Channel Coil Comparison
title_full Bias Introduced by Multiple Head Coils in MRI Research: An 8 Channel and 32 Channel Coil Comparison
title_fullStr Bias Introduced by Multiple Head Coils in MRI Research: An 8 Channel and 32 Channel Coil Comparison
title_full_unstemmed Bias Introduced by Multiple Head Coils in MRI Research: An 8 Channel and 32 Channel Coil Comparison
title_short Bias Introduced by Multiple Head Coils in MRI Research: An 8 Channel and 32 Channel Coil Comparison
title_sort bias introduced by multiple head coils in mri research: an 8 channel and 32 channel coil comparison
topic Neuroscience
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6648353/
https://www.ncbi.nlm.nih.gov/pubmed/31379483
http://dx.doi.org/10.3389/fnins.2019.00729
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