netDx: Software for building interpretable patient classifiers by multi-'omic data integration using patient similarity networks [version 2; peer review: 2 approved]

Research output: Contribution to journalJournal articlepeer-review

Documents

  • netDx

    Final published version, 4.3 MB, PDF document

  • Shraddha Pai
  • Philipp Weber
  • Ruth Isserlin
  • Hussam Kaka
  • Shirley Hui
  • Muhammad Ahmad Shah
  • Luca Giudice
  • Rosalba Giugno
  • Anne Krogh Nøhr
  • Jan Baumbach
  • Gary D. Bader

Patient classification based on clinical and genomic data will further the goal of precision medicine. Interpretability is of particular relevance for models based on genomic data, where sample sizes are relatively small (in the hundreds), increasing overfitting risk netDx is a machine learning method to integrate multi-modal patient data and build a patient classifier. Patient data are converted into networks of patient similarity, which is intuitive to clinicians who also use patient similarity for medical diagnosis. Features passing selection are integrated, and new patients are assigned to the class with the greatest profile similarity. netDx has excellent performance, outperforming most machine-learning methods in binary cancer survival prediction. It handles missing data - a common problem in real-world data - without requiring imputation. netDx also has excellent interpretability, with native support to group genes into pathways for mechanistic insight into predictive features. The netDx Bioconductor package provides multiple workflows for users to build custom patient classifiers. It provides turnkey functions for one-step predictor generation from multi-modal data, including feature selection over multiple train/test data splits. Workflows offer versatility with custom feature design, choice of similarity metric; speed is improved by parallel execution. Built-in functions and examples allow users to compute model performance metrics such as AUROC, AUPR, and accuracy. netDx uses RCy3 to visualize top-scoring pathways and the final integrated patient network in Cytoscape. Advanced users can build more complex predictor designs with functional building blocks used in the default design. Finally, the netDx Bioconductor package provides a novel workflow for pathway-based patient classification from sparse genetic data.

Original languageEnglish
Article number1239
JournalF1000Research
Volume9
Number of pages42
ISSN2046-1402
DOIs
Publication statusPublished - 2021

Bibliographical note

Publisher Copyright:
© 2021 Pai S et al.

    Research areas

  • Classification, Data integration, Genomics, Networks, Precision medicine, Supervised learning

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