Neurobiological Divergence of the Positive and Negative Schizophrenia Subtypes Identified on a New Factor Structure of Psychopathology Using Non-negative Factorization: An International Machine Learning StudyPharmacotherapy Monitoring, Chen, J., Patil, K. R., Weis, S., Sim, K., Nickl-Jockschat, T., Zhou, J., Aleman, A., Sommer, I. E., Liemburg, E. J., Hoffstaedter, F., Habel, U., Derntl, B., Liu, X., Fischer, J. M., Kogler, L., Regenbogen, C., Diwadkar, V. A., Stanley, J. A., Riedl, V., Jardri, R., Gruber, O., Sotiras, A., Davatzikos, C., Eickhoff, S. B. & Jorg, F., 1-Feb-2020, In : Biological Psychiatry. 87, 3, p. 282-293 12 p.
Research output: Contribution to journal › Article › Academic › peer-review
BACKGROUND: Disentangling psychopathological heterogeneity in schizophrenia is challenging, and previous results remain inconclusive. We employed advanced machine learning to identify a stable and generalizable factorization of the Positive and Negative Syndrome Scale and used it to identify psychopathological subtypes as well as their neurobiological differentiations.
METHODS: Positive and Negative Syndrome Scale data from the Pharmacotherapy Monitoring and Outcome Survey cohort (1545 patients; 586 followed up after 1.35 +/- 0.70 years) were used for learning the factor structure by an orthonormal projective non-negative factorization. An international sample, pooled from 9 medical centers across Europe, the United States, and Asia (490 patients), was used for validation. Patients were clustered into psychopathological subtypes based on the identified factor structure, and the neurobiological divergence between the subtypes was assessed by classification analysis on functional magnetic resonance imaging connectivity patterns.
RESULTS: A 4-factor structure representing negative, positive, affective, and cognitive symptoms was identified as the most stable and generalizable representation of psychopathology. It showed higher internal consistency than the original Positive and Negative Syndrome Scale subscales and previously proposed factor models. Based on this representation, the positive-negative dichotomy was confirmed as the (only) robust psychopathological subtypes, and these subtypes were longitudinally stable in about 80% of the repeatedly assessed patients. Finally, the individual subtype could be predicted with good accuracy from functional connectivity profiles of the ventromedial frontal cortex, temporoparietal junction, and precuneus.
CONCLUSIONS: Machine learning applied to multisite data with cross-validation yielded a factorization generalizable across populations and medical systems. Together with subtyping and the demonstrated ability to predict subtype membership from neuroimaging data, this work further disentangles the heterogeneity in schizophrenia.
|Number of pages||12|
|Early online date||23-Sep-2019|
|Publication status||Published - 1-Feb-2020|
- Brain imaging, Machine learning, Multivariate classification, Non-negative factorization, Schizophrenia, Subtyping, SYNDROME SCALE PANSS, 5-FACTOR MODEL, PATTERNS, SYMPTOMS, DISORDERS, STABILITY, CLASSIFICATION, MEDICATION, SUBGROUPS, MULTISITE