Deep Learning for Quality Control of Subcortical Brain 3D Shape Models

Dmitry Petrov,Boris A. Gutman Egor Kuznetsov,Theo G.M. van Erp,Jessica A. Turner,Lianne Schmaal,Dick J. Veltman,Lei Wang,Kathryn I. Alpert,Dmitry Isaev,Artemis Zavaliangos-Petropulu,Christopher R. K. Ching,Vince D. Calhoun,David C. Glahn,Theodore D. Satterthwaite,Ole A. Andreassen,Stefan Borgwardt,Fleur M. Howells,Nynke A. Groenewold,Aristotle N. Voineskos,Joaquim Radua,Steven G. Potkin,Benedicto Crespo Facorro,Diana Tordesillas-Gutierrez,Li Shen,Irina Lebedeva,Gianfranco Spalletta,Gary Donohoe,Peter Kochunov,Pedro G.P. Rosa,Anthony A. James,Udo Dannlowski,Bernhard T. Baune,André Aleman,Ian H. Gotlib,Henrik Walter,Martin Walter,Jair C. Soares,Stefan Ehrlich,Ruben C. Gur,N. Trung Doan,Ingrid Agartz,Lars T. Westlye,Fabienne Harrisberger,Anita Riecher-Rössler,Anne Uhlmann,Dan J. Stein,Erin W. Dickie,Edith Pomarol-Clotet,Paola Fuentes-Claramonte,Erick Jorge Canales Rodriguez,Raymond Salvador,Alexander J. Huang,Roberto Roiz-Santiañez,Shan Cong,Alexander Tomyshev,Fabrizio Piras,Daniela Vecchio,Nerisa Banaj,Valentina Ciullo,Elliot Hong,Geraldo F. Busatto,Marcus V. Zanetti,Mauricio H. Serpa,Simon Cervenka,Sinéad Kelly,Dominik Grotegerd,Matthew D. Sacchet,Ilya M. Veer,Meng Li,Mon-Ju Wu,Benson Irungu,Esther Walton,Paul M. Thompson

Deep Learning for Quality Control of Subcortical Brain 3D Shape Models

2018

We present several deep learning models for assessing the morphometric fidelity of deep grey matter region models extracted from brain MRI. We test three different convolutional neural net architectures (VGGNet, ResNet and Inception) over 2D maps of geometric features. Further, we present a novel geometry feature augmentation technique based on a parametric spherical mapping. Finally, we present an approach for model decision visualization, allowing human raters to see the areas of subcortical shapes most likely to be deemed of failing quality by the machine. Our training data is comprised of 5200 subjects from the ENIGMA Schizophrenia MRI cohorts, and our test dataset contains 1500 subjects from the ENIGMA Major Depressive Disorder cohorts. Our final models reduce human rater time by 46-70%. ResNet outperforms VGGNet and Inception for all of our predictive tasks.

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