Multi-site benchmark classification of major depressive disorder using machine learning on cortical and subcortical measures

Belov, Vladimir; Erwin-Grabner, Tracy; Aghajani, Moji; Aleman, Andre; Amod, Alyssa R; Basgoze, Zeynep; Benedetti, Francesco; Besteher, Bianca; Bülow, Robin; Ching, Christopher R K; Connolly, Colm G; Cullen, Kathryn; Davey, Christopher G; Dima, Danai; Dols, Annemiek; Evans, Jennifer W; Cynthia H Y, Fu; Gonul, Ali Saffet; Gotlib, Ian H; Grabe, Hans J; Groenewold, Nynke; Hamilton, J Paul; Harrison, Ben J; Tiffany C, Ho; Mwangi, Benson; Jaworska, Natalia; Jahanshad, Neda; Klimes-Dougan, Bonnie; Koopowitz, Sheri-Michelle; Lancaster, Thomas; Meng, Li; Linden, David E J; Macmaster, Frank P; Mehler, David M A; Melloni, Elisa; Mueller, Bryon A; Ojha, Amar; Oudega, Mardien L; Penninx, Brenda W J H; Poletti, Sara; Pomarol-Clotet, Edith; Portella, Maria J; Pozzi, Elena; Reneman, Liesbeth; Sacchet, Matthew D; Sämann, Philipp G; Schrantee, Anouk; Sim, Kang; Soares, Jair C; Stein, Dan J; Thomopoulos, Sophia I; Uyar-Demir, Aslihan; van der Wee, Nic J A; van der Werff, Steven J A; Völzke, Henry; Whittle, Sarah; Wittfeld, Katharina; Wright, Margaret J; Mon-Ju, Wu; Yang, Tony T; Zarate, Carlos; Veltman, Dick J; Schmaal, Lianne; Thompson, Paul M; Goya-Maldonado, Roberto

doi:10.1038/s41598-023-47934-8

: Machine learning (ML) techniques have gained popularity in the neuroimaging field due to their potential for classifying neuropsychiatric disorders. However, the diagnostic predictive power of the existing algorithms has been limited by small sample sizes, lack of representativeness, data leakage, and/or overfitting. Here, we overcome these limitations with the largest multi-site sample size to date (N = 5365) to provide a generalizable ML classification benchmark of major depressive disorder (MDD) using shallow linear and non-linear models. Leveraging brain measures from standardized ENIGMA analysis pipelines in FreeSurfer, we were able to classify MDD versus healthy controls (HC) with a balanced accuracy of around 62%. But after harmonizing the data, e.g., using ComBat, the balanced accuracy dropped to approximately 52%. Accuracy results close to random chance levels were also observed in stratified groups according to age of onset, antidepressant use, number of episodes and sex. Future studies incorporating higher dimensional brain imaging/phenotype features, and/or using more advanced machine and deep learning methods may yield more encouraging prospects.

Multi-site benchmark classification of major depressive disorder using machine learning on cortical and subcortical measures / Belov, Vladimir; Erwin-Grabner, Tracy; Aghajani, Moji; Aleman, Andre; Amod, Alyssa R; Basgoze, Zeynep; Benedetti, Francesco; Besteher, Bianca; Bülow, Robin; Ching, Christopher R K; Connolly, Colm G; Cullen, Kathryn; Davey, Christopher G; Dima, Danai; Dols, Annemiek; Evans, Jennifer W; Fu, Cynthia H Y; Gonul, Ali Saffet; Gotlib, Ian H; Grabe, Hans J; Groenewold, Nynke; Hamilton, J Paul; Harrison, Ben J; Ho, Tiffany C; Mwangi, Benson; Jaworska, Natalia; Jahanshad, Neda; Klimes-Dougan, Bonnie; Koopowitz, Sheri-Michelle; Lancaster, Thomas; Li, Meng; Linden, David E J; Macmaster, Frank P; Mehler, David M A; Melloni, Elisa; Mueller, Bryon A; Ojha, Amar; Oudega, Mardien L; Penninx, Brenda W J H; Poletti, Sara; Pomarol-Clotet, Edith; Portella, Maria J; Pozzi, Elena; Reneman, Liesbeth; Sacchet, Matthew D; Sämann, Philipp G; Schrantee, Anouk; Sim, Kang; Soares, Jair C; Stein, Dan J; Thomopoulos, Sophia I; Uyar-Demir, Aslihan; van der Wee, Nic J A; van der Werff, Steven J A; Völzke, Henry; Whittle, Sarah; Wittfeld, Katharina; Wright, Margaret J; Wu, Mon-Ju; Yang, Tony T; Zarate, Carlos; Veltman, Dick J; Schmaal, Lianne; Thompson, Paul M; Goya-Maldonado, Roberto. - In: SCIENTIFIC REPORTS. - ISSN 2045-2322. - 14:1(2024). [10.1038/s41598-023-47934-8]

Multi-site benchmark classification of major depressive disorder using machine learning on cortical and subcortical measures

Belov, Vladimir^Primo;Erwin-Grabner, Tracy^Secondo;Aghajani, Moji;Aleman, Andre;Amod, Alyssa R;Basgoze, Zeynep;Benedetti, Francesco;Besteher, Bianca;Bülow, Robin;Ching, Christopher R K;Connolly, Colm G;Cullen, Kathryn;Davey, Christopher G;Dima, Danai;Dols, Annemiek;Evans, Jennifer W;Fu, Cynthia H Y;Gonul, Ali Saffet;Gotlib, Ian H;Grabe, Hans J;Groenewold, Nynke;Hamilton, J Paul;Harrison, Ben J;Ho, Tiffany C;Mwangi, Benson;Jaworska, Natalia;Jahanshad, Neda;Klimes-Dougan, Bonnie;Koopowitz, Sheri-Michelle;Lancaster, Thomas;Li, Meng;Linden, David E J;MacMaster, Frank P;Mehler, David M A;Melloni, Elisa;Mueller, Bryon A;Ojha, Amar;Oudega, Mardien L;Penninx, Brenda W J H;Poletti, Sara;Pomarol-Clotet, Edith;Portella, Maria J;Pozzi, Elena;Reneman, Liesbeth;Sacchet, Matthew D;Sämann, Philipp G;Schrantee, Anouk;Sim, Kang;Soares, Jair C;Stein, Dan J;Thomopoulos, Sophia I;Uyar-Demir, Aslihan;van der Wee, Nic J A;van der Werff, Steven J A;Völzke, Henry;Whittle, Sarah;Wittfeld, Katharina;Wright, Margaret J;Wu, Mon-Ju;Yang, Tony T;Zarate, Carlos;Veltman, Dick J;Schmaal, Lianne;Thompson, Paul M^Penultimo;Goya-Maldonado, Roberto^Ultimo

2024-01-01

Abstract

: Machine learning (ML) techniques have gained popularity in the neuroimaging field due to their potential for classifying neuropsychiatric disorders. However, the diagnostic predictive power of the existing algorithms has been limited by small sample sizes, lack of representativeness, data leakage, and/or overfitting. Here, we overcome these limitations with the largest multi-site sample size to date (N = 5365) to provide a generalizable ML classification benchmark of major depressive disorder (MDD) using shallow linear and non-linear models. Leveraging brain measures from standardized ENIGMA analysis pipelines in FreeSurfer, we were able to classify MDD versus healthy controls (HC) with a balanced accuracy of around 62%. But after harmonizing the data, e.g., using ComBat, the balanced accuracy dropped to approximately 52%. Accuracy results close to random chance levels were also observed in stratified groups according to age of onset, antidepressant use, number of episodes and sex. Future studies incorporating higher dimensional brain imaging/phenotype features, and/or using more advanced machine and deep learning methods may yield more encouraging prospects.

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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.11768/155816

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