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A comparison of methods to harmonize cortical thickness measurements across scanners and sites
Results of neuroimaging datasets aggregated from multiple sites may be biased by site-specific profiles in participants’ demographic and clinical characteristics, as well as MRI acquisition protocols and scanning platforms. We compared the impact of four different harmonization methods on results ob...
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| Formato: | Online Artículo Texto |
| Lenguaje: | English |
| Publicado: |
2022
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| Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9648725/ https://www.ncbi.nlm.nih.gov/pubmed/35917919 http://dx.doi.org/10.1016/j.neuroimage.2022.119509 |
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| author | Sun, Delin Rakesh, Gopalkumar Haswell, Courtney C. Logue, Mark Baird, C. Lexi O’Leary, Erin N. Cotton, Andrew S. Xie, Hong Tamburrino, Marijo Chen, Tian Dennis, Emily L. Jahanshad, Neda Salminen, Lauren E. Thomopoulos, Sophia I. Rashid, Faisal Ching, Christopher R.K. Koch, Saskia B.J. Frijling, Jessie L. Nawijn, Laura van Zuiden, Mirjam Zhu, Xi Suarez-Jimenez, Benjamin Sierk, Anika Walter, Henrik Manthey, Antje Stevens, Jennifer S. Fani, Negar van Rooij, Sanne J.H. Stein, Murray Bomyea, Jessica Koerte, Inga K. Choi, Kyle van der Werff, Steven J.A. Vermeiren, Robert R.J.M. Herzog, Julia Lebois, Lauren A.M. Baker, Justin T. Olson, Elizabeth A. Straube, Thomas Korgaonkar, Mayuresh S. Andrew, Elpiniki Zhu, Ye Li, Gen Ipser, Jonathan Hudson, Anna R. Peverill, Matthew Sambrook, Kelly Gordon, Evan Baugh, Lee Forster, Gina Simons, Raluca M. Simons, Jeffrey S. Magnotta, Vincent Maron-Katz, Adi du Plessis, Stefan Disner, Seth G. Davenport, Nicholas Grupe, Daniel W. Nitschke, Jack B. deRoon-Cassini, Terri A. Fitzgerald, Jacklynn M. Krystal, John H. Levy, Ifat Olff, Miranda Veltman, Dick J. Wang, Li Neria, Yuval De Bellis, Michael D. Jovanovic, Tanja Daniels, Judith K. Shenton, Martha van de Wee, Nic J.A. Schmahl, Christian Kaufman, Milissa L. Rosso, Isabelle M. Sponheim, Scott R. Hofmann, David Bernd Bryant, Richard A. Fercho, Kelene A. Stein, Dan J. Mueller, Sven C. Hosseini, Bobak Phan, K. Luan McLaughlin, Katie A. Davidson, Richard J. Larson, Christine L. May, Geoffrey Nelson, Steven M. Abdallah, Chadi G. Gomaa, Hassaan Etkin, Amit Seedat, Soraya Harpaz-Rotem, Ilan Liberzon, Israel van Erp, Theo G.M. Quidé, Yann Wang, Xin Thompson, Paul M. Morey, Rajendra A. |
| author_facet | Sun, Delin Rakesh, Gopalkumar Haswell, Courtney C. Logue, Mark Baird, C. Lexi O’Leary, Erin N. Cotton, Andrew S. Xie, Hong Tamburrino, Marijo Chen, Tian Dennis, Emily L. Jahanshad, Neda Salminen, Lauren E. Thomopoulos, Sophia I. Rashid, Faisal Ching, Christopher R.K. Koch, Saskia B.J. Frijling, Jessie L. Nawijn, Laura van Zuiden, Mirjam Zhu, Xi Suarez-Jimenez, Benjamin Sierk, Anika Walter, Henrik Manthey, Antje Stevens, Jennifer S. Fani, Negar van Rooij, Sanne J.H. Stein, Murray Bomyea, Jessica Koerte, Inga K. Choi, Kyle van der Werff, Steven J.A. Vermeiren, Robert R.J.M. Herzog, Julia Lebois, Lauren A.M. Baker, Justin T. Olson, Elizabeth A. Straube, Thomas Korgaonkar, Mayuresh S. Andrew, Elpiniki Zhu, Ye Li, Gen Ipser, Jonathan Hudson, Anna R. Peverill, Matthew Sambrook, Kelly Gordon, Evan Baugh, Lee Forster, Gina Simons, Raluca M. Simons, Jeffrey S. Magnotta, Vincent Maron-Katz, Adi du Plessis, Stefan Disner, Seth G. Davenport, Nicholas Grupe, Daniel W. Nitschke, Jack B. deRoon-Cassini, Terri A. Fitzgerald, Jacklynn M. Krystal, John H. Levy, Ifat Olff, Miranda Veltman, Dick J. Wang, Li Neria, Yuval De Bellis, Michael D. Jovanovic, Tanja Daniels, Judith K. Shenton, Martha van de Wee, Nic J.A. Schmahl, Christian Kaufman, Milissa L. Rosso, Isabelle M. Sponheim, Scott R. Hofmann, David Bernd Bryant, Richard A. Fercho, Kelene A. Stein, Dan J. Mueller, Sven C. Hosseini, Bobak Phan, K. Luan McLaughlin, Katie A. Davidson, Richard J. Larson, Christine L. May, Geoffrey Nelson, Steven M. Abdallah, Chadi G. Gomaa, Hassaan Etkin, Amit Seedat, Soraya Harpaz-Rotem, Ilan Liberzon, Israel van Erp, Theo G.M. Quidé, Yann Wang, Xin Thompson, Paul M. Morey, Rajendra A. |
| author_sort | Sun, Delin |
| collection | PubMed |
| description | Results of neuroimaging datasets aggregated from multiple sites may be biased by site-specific profiles in participants’ demographic and clinical characteristics, as well as MRI acquisition protocols and scanning platforms. We compared the impact of four different harmonization methods on results obtained from analyses of cortical thickness data: (1) linear mixed-effects model (LME) that models site-specific random intercepts (LME(INT)), (2) LME that models both site-specific random intercepts and age-related random slopes (LME(INT+SLP)), (3) ComBat, and (4) ComBat with a generalized additive model (ComBat-GAM). Our test case for comparing harmonization methods was cortical thickness data aggregated from 29 sites, which included 1,340 cases with posttraumatic stress disorder (PTSD) (6.2–81.8 years old) and 2,057 trauma-exposed controls without PTSD (6.3–85.2 years old). We found that, compared to the other data harmonization methods, data processed with ComBat-GAM was more sensitive to the detection of significant case-control differences (X(2)(3) = 63.704, p < 0.001) as well as case-control differences in age-related cortical thinning (X(2)(3) = 12.082, p = 0.007). Both ComBat and ComBat-GAM outperformed LME methods in detecting sex differences (X(2)(3) = 9.114, p = 0.028) in regional cortical thickness. ComBat-GAM also led to stronger estimates of age-related declines in cortical thickness (corrected p-values < 0.001 ), stronger estimates of case-related cortical thickness reduction (corrected p-values < 0.001 ), weaker estimates of age-related declines in cortical thickness in cases than controls (corrected p-values < 0.001 ), stronger estimates of cortical thickness reduction in females than males (corrected p-values < 0.001 ), and stronger estimates of cortical thickness reduction in females relative to males in cases than controls (corrected p-values < 0.001 ). Our results support the use of ComBat-GAM to minimize confounds and increase statistical power when harmonizing data with non-linear effects, and the use of either ComBat or ComBat-GAM for harmonizing data with linear effects. |
| format | Online Article Text |
| id | pubmed-9648725 |
| institution | National Center for Biotechnology Information |
| language | English |
| publishDate | 2022 |
| record_format | MEDLINE/PubMed |
| spelling | pubmed-96487252022-11-14 A comparison of methods to harmonize cortical thickness measurements across scanners and sites Sun, Delin Rakesh, Gopalkumar Haswell, Courtney C. Logue, Mark Baird, C. Lexi O’Leary, Erin N. Cotton, Andrew S. Xie, Hong Tamburrino, Marijo Chen, Tian Dennis, Emily L. Jahanshad, Neda Salminen, Lauren E. Thomopoulos, Sophia I. Rashid, Faisal Ching, Christopher R.K. Koch, Saskia B.J. Frijling, Jessie L. Nawijn, Laura van Zuiden, Mirjam Zhu, Xi Suarez-Jimenez, Benjamin Sierk, Anika Walter, Henrik Manthey, Antje Stevens, Jennifer S. Fani, Negar van Rooij, Sanne J.H. Stein, Murray Bomyea, Jessica Koerte, Inga K. Choi, Kyle van der Werff, Steven J.A. Vermeiren, Robert R.J.M. Herzog, Julia Lebois, Lauren A.M. Baker, Justin T. Olson, Elizabeth A. Straube, Thomas Korgaonkar, Mayuresh S. Andrew, Elpiniki Zhu, Ye Li, Gen Ipser, Jonathan Hudson, Anna R. Peverill, Matthew Sambrook, Kelly Gordon, Evan Baugh, Lee Forster, Gina Simons, Raluca M. Simons, Jeffrey S. Magnotta, Vincent Maron-Katz, Adi du Plessis, Stefan Disner, Seth G. Davenport, Nicholas Grupe, Daniel W. Nitschke, Jack B. deRoon-Cassini, Terri A. Fitzgerald, Jacklynn M. Krystal, John H. Levy, Ifat Olff, Miranda Veltman, Dick J. Wang, Li Neria, Yuval De Bellis, Michael D. Jovanovic, Tanja Daniels, Judith K. Shenton, Martha van de Wee, Nic J.A. Schmahl, Christian Kaufman, Milissa L. Rosso, Isabelle M. Sponheim, Scott R. Hofmann, David Bernd Bryant, Richard A. Fercho, Kelene A. Stein, Dan J. Mueller, Sven C. Hosseini, Bobak Phan, K. Luan McLaughlin, Katie A. Davidson, Richard J. Larson, Christine L. May, Geoffrey Nelson, Steven M. Abdallah, Chadi G. Gomaa, Hassaan Etkin, Amit Seedat, Soraya Harpaz-Rotem, Ilan Liberzon, Israel van Erp, Theo G.M. Quidé, Yann Wang, Xin Thompson, Paul M. Morey, Rajendra A. Neuroimage Article Results of neuroimaging datasets aggregated from multiple sites may be biased by site-specific profiles in participants’ demographic and clinical characteristics, as well as MRI acquisition protocols and scanning platforms. We compared the impact of four different harmonization methods on results obtained from analyses of cortical thickness data: (1) linear mixed-effects model (LME) that models site-specific random intercepts (LME(INT)), (2) LME that models both site-specific random intercepts and age-related random slopes (LME(INT+SLP)), (3) ComBat, and (4) ComBat with a generalized additive model (ComBat-GAM). Our test case for comparing harmonization methods was cortical thickness data aggregated from 29 sites, which included 1,340 cases with posttraumatic stress disorder (PTSD) (6.2–81.8 years old) and 2,057 trauma-exposed controls without PTSD (6.3–85.2 years old). We found that, compared to the other data harmonization methods, data processed with ComBat-GAM was more sensitive to the detection of significant case-control differences (X(2)(3) = 63.704, p < 0.001) as well as case-control differences in age-related cortical thinning (X(2)(3) = 12.082, p = 0.007). Both ComBat and ComBat-GAM outperformed LME methods in detecting sex differences (X(2)(3) = 9.114, p = 0.028) in regional cortical thickness. ComBat-GAM also led to stronger estimates of age-related declines in cortical thickness (corrected p-values < 0.001 ), stronger estimates of case-related cortical thickness reduction (corrected p-values < 0.001 ), weaker estimates of age-related declines in cortical thickness in cases than controls (corrected p-values < 0.001 ), stronger estimates of cortical thickness reduction in females than males (corrected p-values < 0.001 ), and stronger estimates of cortical thickness reduction in females relative to males in cases than controls (corrected p-values < 0.001 ). Our results support the use of ComBat-GAM to minimize confounds and increase statistical power when harmonizing data with non-linear effects, and the use of either ComBat or ComBat-GAM for harmonizing data with linear effects. 2022-11-01 2022-07-30 /pmc/articles/PMC9648725/ /pubmed/35917919 http://dx.doi.org/10.1016/j.neuroimage.2022.119509 Text en https://creativecommons.org/licenses/by-nc-nd/4.0/This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/ (https://creativecommons.org/licenses/by-nc-nd/4.0/) ) |
| spellingShingle | Article Sun, Delin Rakesh, Gopalkumar Haswell, Courtney C. Logue, Mark Baird, C. Lexi O’Leary, Erin N. Cotton, Andrew S. Xie, Hong Tamburrino, Marijo Chen, Tian Dennis, Emily L. Jahanshad, Neda Salminen, Lauren E. Thomopoulos, Sophia I. Rashid, Faisal Ching, Christopher R.K. Koch, Saskia B.J. Frijling, Jessie L. Nawijn, Laura van Zuiden, Mirjam Zhu, Xi Suarez-Jimenez, Benjamin Sierk, Anika Walter, Henrik Manthey, Antje Stevens, Jennifer S. Fani, Negar van Rooij, Sanne J.H. Stein, Murray Bomyea, Jessica Koerte, Inga K. Choi, Kyle van der Werff, Steven J.A. Vermeiren, Robert R.J.M. Herzog, Julia Lebois, Lauren A.M. Baker, Justin T. Olson, Elizabeth A. Straube, Thomas Korgaonkar, Mayuresh S. Andrew, Elpiniki Zhu, Ye Li, Gen Ipser, Jonathan Hudson, Anna R. Peverill, Matthew Sambrook, Kelly Gordon, Evan Baugh, Lee Forster, Gina Simons, Raluca M. Simons, Jeffrey S. Magnotta, Vincent Maron-Katz, Adi du Plessis, Stefan Disner, Seth G. Davenport, Nicholas Grupe, Daniel W. Nitschke, Jack B. deRoon-Cassini, Terri A. Fitzgerald, Jacklynn M. Krystal, John H. Levy, Ifat Olff, Miranda Veltman, Dick J. Wang, Li Neria, Yuval De Bellis, Michael D. Jovanovic, Tanja Daniels, Judith K. Shenton, Martha van de Wee, Nic J.A. Schmahl, Christian Kaufman, Milissa L. Rosso, Isabelle M. Sponheim, Scott R. Hofmann, David Bernd Bryant, Richard A. Fercho, Kelene A. Stein, Dan J. Mueller, Sven C. Hosseini, Bobak Phan, K. Luan McLaughlin, Katie A. Davidson, Richard J. Larson, Christine L. May, Geoffrey Nelson, Steven M. Abdallah, Chadi G. Gomaa, Hassaan Etkin, Amit Seedat, Soraya Harpaz-Rotem, Ilan Liberzon, Israel van Erp, Theo G.M. Quidé, Yann Wang, Xin Thompson, Paul M. Morey, Rajendra A. A comparison of methods to harmonize cortical thickness measurements across scanners and sites |
| title | A comparison of methods to harmonize cortical thickness measurements across scanners and sites |
| title_full | A comparison of methods to harmonize cortical thickness measurements across scanners and sites |
| title_fullStr | A comparison of methods to harmonize cortical thickness measurements across scanners and sites |
| title_full_unstemmed | A comparison of methods to harmonize cortical thickness measurements across scanners and sites |
| title_short | A comparison of methods to harmonize cortical thickness measurements across scanners and sites |
| title_sort | comparison of methods to harmonize cortical thickness measurements across scanners and sites |
| topic | Article |
| url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9648725/ https://www.ncbi.nlm.nih.gov/pubmed/35917919 http://dx.doi.org/10.1016/j.neuroimage.2022.119509 |
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comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites AT andrewelpiniki comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites AT zhuye comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites AT ligen comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites AT ipserjonathan comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites AT hudsonannar comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites AT peverillmatthew comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites AT sambrookkelly comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites AT gordonevan comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites AT baughlee comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites AT forstergina comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites AT simonsralucam comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites AT simonsjeffreys comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites AT magnottavincent comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites AT maronkatzadi comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites AT duplessisstefan comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites AT disnersethg comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites AT davenportnicholas comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites AT grupedanielw comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites AT nitschkejackb comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites AT derooncassiniterria 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comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites AT shentonmartha comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites AT vandeweenicja comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites AT schmahlchristian comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites AT kaufmanmilissal comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites AT rossoisabellem comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites AT sponheimscottr comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites AT hofmanndavidbernd comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites AT bryantricharda comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites AT ferchokelenea comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites AT steindanj comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites AT muellersvenc comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites AT hosseinibobak comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites AT phankluan comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites AT mclaughlinkatiea comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites AT davidsonrichardj comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites AT larsonchristinel comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites AT maygeoffrey comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites AT nelsonstevenm comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites AT abdallahchadig comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites AT gomaahassaan comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites AT etkinamit comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites AT seedatsoraya comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites AT harpazrotemilan comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites AT liberzonisrael comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites AT vanerptheogm comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites AT quideyann comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites AT wangxin comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites AT thompsonpaulm comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites AT moreyrajendraa comparisonofmethodstoharmonizecorticalthicknessmeasurementsacrossscannersandsites |