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引用次数: 24
摘要
识别药物-药物相互作用是计算生物学和医疗保健研究中的一个重要而具有挑战性的问题。有准确的、结构化的但有限的领域知识和嘈杂的、非结构化的但丰富的文本信息可用于构建预测模型。其难点在于挖掘文本数据中的真实模式,并开发高效的方法来组合异构类型的信息。我们展示了一种利用增强文本挖掘特征来构建具有改进预测性能(在区分和校准方面)的逻辑回归模型的新方法。我们基于综合特征的模型明显优于仅使用结构化特征训练的模型(AUC: 96% vs 91%,灵敏度:90% vs 82%,特异性:88% vs 81%)。除了定量结果,我们还展示了学习到的“潜在主题”,这是我们的文本挖掘模块的一个中间结果,并讨论了它们的含义。
Text Mining Driven Drug-Drug Interaction Detection.
Identifying drug-drug interactions is an important and challenging problem in computational biology and healthcare research. There are accurate, structured but limited domain knowledge and noisy, unstructured but abundant textual information available for building predictive models. The difficulty lies in mining the true patterns embedded in text data and developing efficient and effective ways to combine heterogenous types of information. We demonstrate a novel approach of leveraging augmented text-mining features to build a logistic regression model with improved prediction performance (in terms of discrimination and calibration). Our model based on synthesized features significantly outperforms the model trained with only structured features (AUC: 96% vs. 91%, Sensitivity: 90% vs. 82% and Specificity: 88% vs. 81%). Along with the quantitative results, we also show learned "latent topics", an intermediary result of our text mining module, and discuss their implications.
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