Inferring disease subtypes from clusters in explanation space
Résumé
UNCORRECTED PROOFJournal : SREP 41598Article No : 68858Pages : 6MS Code : 68858Dispatch : 5-7-20201Vol.:(0123456789)Scientific RepoRtS | _#####################_ | https://doi.org/10.1038/s41598-020-68858-7www.nature.com/scientificreportsinferring disease subtypes from clusters in explanation spaceMarc‑Andre Schulz1*, Matt chapman‑Rounds2, Manisha Verma3, Danilo Bzdok4 & Konstantinos Georgatzis5Identification of disease subtypes and corresponding biomarkers can substantially improve clinical diagnosis and treatment selection. Discovering these subtypes in noisy, high dimensional biomedical data is often impossible for humans and challenging for machines. We introduce a new approach to facilitate the discovery of disease subtypes: Instead of analyzing the original data, we train a diagnostic classifier (healthy vs. diseased) and extract instance-wise explanations for the classifier’s decisions. The distribution of instances in the explanation space of our diagnostic classifier amplifies the different reasons for belonging to the same class–resulting in a representation that is uniquely useful for discovering latent subtypes. We compare our ability to recover subtypes via cluster analysis on model explanations to classical cluster analysis on the original data. in multiple datasets with known ground‑truth subclasses, most compellingly on UK Biobank brain imaging data and transcriptome data from the cancer Genome Atlas, we show that cluster analysis on model explanations substantially outperforms the classical approach. While we believe clustering in explanation space to be particularly valuable for inferring disease subtypes, the method is more general and applicable to any kind of sub-type identification
Domaines
NeurosciencesOrigine | Fichiers éditeurs autorisés sur une archive ouverte |
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