1. Large-scale literature mining to assess the relation between anti-cancer drugs and cancer types
- Author
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Matthias Lienhard, Tobias Scheffer, Johannes Schuchhardt, Christopher F. Bauer, Ralf Herwig, and Paul Prasse
- Subjects
0301 basic medicine ,Relation (database) ,Computer science ,Knowledge Bases ,Antineoplastic Agents ,Scientific literature ,Anti-cancer drugs ,computer.software_genre ,General Biochemistry, Genetics and Molecular Biology ,Database ,03 medical and health sciences ,Consistency (database systems) ,0302 clinical medicine ,Text mining ,Named-entity recognition ,Neoplasms ,Data Mining ,Humans ,Information retrieval ,business.industry ,Research ,Scale (chemistry) ,Publications ,General Medicine ,Tumor types ,Identification (information) ,ComputingMethodologies_PATTERNRECOGNITION ,030104 developmental biology ,Knowledge base ,Word embeddings ,030220 oncology & carcinogenesis ,Medicine ,business ,Literature mining ,computer - Abstract
Background There is a huge body of scientific literature describing the relation between tumor types and anti-cancer drugs. The vast amount of scientific literature makes it impossible for researchers and physicians to extract all relevant information manually. Methods In order to cope with the large amount of literature we applied an automated text mining approach to assess the relations between 30 most frequent cancer types and 270 anti-cancer drugs. We applied two different approaches, a classical text mining based on named entity recognition and an AI-based approach employing word embeddings. The consistency of literature mining results was validated with 3 independent methods: first, using data from FDA approvals, second, using experimentally measured IC-50 cell line data and third, using clinical patient survival data. Results We demonstrated that the automated text mining was able to successfully assess the relation between cancer types and anti-cancer drugs. All validation methods showed a good correspondence between the results from literature mining and independent confirmatory approaches. The relation between most frequent cancer types and drugs employed for their treatment were visualized in a large heatmap. All results are accessible in an interactive web-based knowledge base using the following link: https://knowledgebase.microdiscovery.de/heatmap. Conclusions Our approach is able to assess the relations between compounds and cancer types in an automated manner. Both, cancer types and compounds could be grouped into different clusters. Researchers can use the interactive knowledge base to inspect the presented results and follow their own research questions, for example the identification of novel indication areas for known drugs.
- Published
- 2021
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