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Machine learning analysis for prediction of synergistic drug behavior

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tanmay-bhatnagar/drug-synergy-modeling

 
 

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Modeling Drug Synergy

This repository holds the code for a machine learning-based model for predicting synergistic drug behaviors on cancer cell lines. The ML is largely performed on top of the scikit-learn library, with additional work done in numpy/scipy/pandas. Each IPython Notebook holds a different version of the model and/or a major step in data manipulation or feature engineering. Research is still in process.

Several key components include:

  • Cross-validation of several different regressors and classifiers, including random forest, adaboost, gradient boosting, and svms.
  • Drug-drug mapping through shared targets
  • Construction of a PPI (protein-protein interaction) network and implementation of a path-searching algorithm to map target interactions to drug interactions
  • Implementation of a genetic algorithm to perform parameter tuning and feature selection

The model currently achieves ~0.66 average pearson correlation for regression, and a 0.73 average classification accuracy of synergistic vs. non-synergistic compound/compound/cell line combinations (0.76 AUC, 0.79 F1).

When tasked with identifying clinically significant cases of synergy (>30% change integrated over a log2 concentration space), it achieves a classification accuracy of 0.83 and an AUC of 0.79.

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