Using synthetic MR images for distortion correction

David F. Montez; Andrew N. Van; Ryland L. Miller; Nicole A. Seider; Scott Marek; Annie Zheng; Dillan J. Newbold; Kristen Scheidter; Eric Feczko; Anders J. Perrone; Oscar Miranda-Dominguez; Eric A. Earl; Benjamin P. Kay; Abhinav K. Jha; Aristeidis Sotiras; Timothy O. Laumann; Deanna J. Greene; Evan M. Gordon; M. Dylan Tisdall; Andre van der Kouwe; Damien A. Fair; Nico U.F. Dosenbach

doi:10.1016/j.dcn.2023.101234

Using synthetic MR images for distortion correction

David F. Montez, Andrew N. Van, Ryland L. Miller, Nicole A. Seider, Scott Marek, Annie Zheng, Dillan J. Newbold, Kristen Scheidter, Eric Feczko, Anders J. Perrone, Oscar Miranda-Dominguez, Eric A. Earl, Benjamin P. Kay, Abhinav K. Jha, Aristeidis Sotiras, Timothy O. Laumann, Deanna J. Greene, Evan M. Gordon, M. Dylan Tisdall, Andre van der KouweDamien A. Fair, Nico U.F. Dosenbach

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Abstract

Functional MRI (fMRI) data acquired using echo-planar imaging (EPI) are highly distorted by magnetic field inhomogeneities. Distortion and differences in image contrast between EPI and T1-weighted and T2-weighted (T1w/T2w) images makes their alignment a challenge. Typically, field map data are used to correct EPI distortions. Alignments achieved with field maps can vary greatly and depends on the quality of field map data. However, many public datasets lack field map data entirely. Additionally, reliable field map data is often difficult to acquire in high-motion pediatric or developmental cohorts. To address this, we developed Synth, a software package for distortion correction and cross-modal image registration that does not require field map data. Synth combines information from T1w and T2w anatomical images to construct an idealized undistorted synthetic image with similar contrast properties to EPI data. This synthetic image acts as an effective reference for individual-specific distortion correction. Using pediatric (ABCD: Adolescent Brain Cognitive Development) and adult (MSC: Midnight Scan Club; HCP: Human Connectome Project) data, we demonstrate that Synth performs comparably to field map distortion correction approaches, and often outperforms them. Field map-less distortion correction with Synth allows accurate and precise registration of fMRI data with missing or corrupted field map information.

Original language	English (US)
Article number	101234
Journal	Developmental Cognitive Neuroscience
Volume	60
DOIs	https://doi.org/10.1016/j.dcn.2023.101234
State	Published - Apr 2023

Bibliographical note

Publisher Copyright:
© 2023 The Author(s)

Keywords

Distortion correction
EPI
Field map
Registration
fMRI

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Montez, D. F., Van, A. N., Miller, R. L., Seider, N. A., Marek, S., Zheng, A., Newbold, D. J., Scheidter, K., Feczko, E., Perrone, A. J., Miranda-Dominguez, O., Earl, E. A., Kay, B. P., Jha, A. K., Sotiras, A., Laumann, T. O., Greene, D. J., Gordon, E. M., Tisdall, M. D., ... Dosenbach, N. U. F. (2023). Using synthetic MR images for distortion correction. Developmental Cognitive Neuroscience, 60, Article 101234. https://doi.org/10.1016/j.dcn.2023.101234

Montez, DF, Van, AN, Miller, RL, Seider, NA, Marek, S, Zheng, A, Newbold, DJ, Scheidter, K, Feczko, E, Perrone, AJ, Miranda-Dominguez, O, Earl, EA, Kay, BP, Jha, AK, Sotiras, A, Laumann, TO, Greene, DJ, Gordon, EM, Tisdall, MD, van der Kouwe, A, Fair, DA & Dosenbach, NUF 2023, 'Using synthetic MR images for distortion correction', Developmental Cognitive Neuroscience, vol. 60, 101234. https://doi.org/10.1016/j.dcn.2023.101234

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abstract = "Functional MRI (fMRI) data acquired using echo-planar imaging (EPI) are highly distorted by magnetic field inhomogeneities. Distortion and differences in image contrast between EPI and T1-weighted and T2-weighted (T1w/T2w) images makes their alignment a challenge. Typically, field map data are used to correct EPI distortions. Alignments achieved with field maps can vary greatly and depends on the quality of field map data. However, many public datasets lack field map data entirely. Additionally, reliable field map data is often difficult to acquire in high-motion pediatric or developmental cohorts. To address this, we developed Synth, a software package for distortion correction and cross-modal image registration that does not require field map data. Synth combines information from T1w and T2w anatomical images to construct an idealized undistorted synthetic image with similar contrast properties to EPI data. This synthetic image acts as an effective reference for individual-specific distortion correction. Using pediatric (ABCD: Adolescent Brain Cognitive Development) and adult (MSC: Midnight Scan Club; HCP: Human Connectome Project) data, we demonstrate that Synth performs comparably to field map distortion correction approaches, and often outperforms them. Field map-less distortion correction with Synth allows accurate and precise registration of fMRI data with missing or corrupted field map information.",

keywords = "Distortion correction, EPI, Field map, Registration, fMRI",

author = "Montez, {David F.} and Van, {Andrew N.} and Miller, {Ryland L.} and Seider, {Nicole A.} and Scott Marek and Annie Zheng and Newbold, {Dillan J.} and Kristen Scheidter and Eric Feczko and Perrone, {Anders J.} and Oscar Miranda-Dominguez and Earl, {Eric A.} and Kay, {Benjamin P.} and Jha, {Abhinav K.} and Aristeidis Sotiras and Laumann, {Timothy O.} and Greene, {Deanna J.} and Gordon, {Evan M.} and Tisdall, {M. Dylan} and {van der Kouwe}, Andre and Fair, {Damien A.} and Dosenbach, {Nico U.F.}",

note = "Publisher Copyright: {\textcopyright} 2023 The Author(s)",

year = "2023",

month = apr,

doi = "10.1016/j.dcn.2023.101234",

language = "English (US)",

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AU - Montez, David F.

AU - Van, Andrew N.

AU - Miller, Ryland L.

AU - Seider, Nicole A.

AU - Marek, Scott

AU - Zheng, Annie

AU - Newbold, Dillan J.

AU - Scheidter, Kristen

AU - Feczko, Eric

AU - Perrone, Anders J.

AU - Miranda-Dominguez, Oscar

AU - Earl, Eric A.

AU - Kay, Benjamin P.

AU - Jha, Abhinav K.

AU - Sotiras, Aristeidis

AU - Laumann, Timothy O.

AU - Greene, Deanna J.

AU - Gordon, Evan M.

AU - Tisdall, M. Dylan

AU - van der Kouwe, Andre

AU - Fair, Damien A.

AU - Dosenbach, Nico U.F.

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N2 - Functional MRI (fMRI) data acquired using echo-planar imaging (EPI) are highly distorted by magnetic field inhomogeneities. Distortion and differences in image contrast between EPI and T1-weighted and T2-weighted (T1w/T2w) images makes their alignment a challenge. Typically, field map data are used to correct EPI distortions. Alignments achieved with field maps can vary greatly and depends on the quality of field map data. However, many public datasets lack field map data entirely. Additionally, reliable field map data is often difficult to acquire in high-motion pediatric or developmental cohorts. To address this, we developed Synth, a software package for distortion correction and cross-modal image registration that does not require field map data. Synth combines information from T1w and T2w anatomical images to construct an idealized undistorted synthetic image with similar contrast properties to EPI data. This synthetic image acts as an effective reference for individual-specific distortion correction. Using pediatric (ABCD: Adolescent Brain Cognitive Development) and adult (MSC: Midnight Scan Club; HCP: Human Connectome Project) data, we demonstrate that Synth performs comparably to field map distortion correction approaches, and often outperforms them. Field map-less distortion correction with Synth allows accurate and precise registration of fMRI data with missing or corrupted field map information.

AB - Functional MRI (fMRI) data acquired using echo-planar imaging (EPI) are highly distorted by magnetic field inhomogeneities. Distortion and differences in image contrast between EPI and T1-weighted and T2-weighted (T1w/T2w) images makes their alignment a challenge. Typically, field map data are used to correct EPI distortions. Alignments achieved with field maps can vary greatly and depends on the quality of field map data. However, many public datasets lack field map data entirely. Additionally, reliable field map data is often difficult to acquire in high-motion pediatric or developmental cohorts. To address this, we developed Synth, a software package for distortion correction and cross-modal image registration that does not require field map data. Synth combines information from T1w and T2w anatomical images to construct an idealized undistorted synthetic image with similar contrast properties to EPI data. This synthetic image acts as an effective reference for individual-specific distortion correction. Using pediatric (ABCD: Adolescent Brain Cognitive Development) and adult (MSC: Midnight Scan Club; HCP: Human Connectome Project) data, we demonstrate that Synth performs comparably to field map distortion correction approaches, and often outperforms them. Field map-less distortion correction with Synth allows accurate and precise registration of fMRI data with missing or corrupted field map information.

KW - Distortion correction

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KW - Field map

KW - Registration

KW - fMRI

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ER -

Using synthetic MR images for distortion correction

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