1,185 research outputs found
Information retrieval and text mining technologies for chemistry
Efficient access to chemical information contained in scientific literature, patents, technical reports, or the web is a pressing need shared by researchers and patent attorneys from different chemical disciplines. Retrieval of important chemical information in most cases starts with finding relevant documents for a particular chemical compound or family. Targeted retrieval of chemical documents is closely connected to the automatic recognition of chemical entities in the text, which commonly involves the extraction of the entire list of chemicals mentioned in a document, including any associated information. In this Review, we provide a comprehensive and in-depth description of fundamental concepts, technical implementations, and current technologies for meeting these information demands. A strong focus is placed on community challenges addressing systems performance, more particularly CHEMDNER and CHEMDNER patents tasks of BioCreative IV and V, respectively. Considering the growing interest in the construction of automatically annotated chemical knowledge bases that integrate chemical information and biological data, cheminformatics approaches for mapping the extracted chemical names into chemical structures and their subsequent annotation together with text mining applications for linking chemistry with biological information are also presented. Finally, future trends and current challenges are highlighted as a roadmap proposal for research in this emerging field.A.V. and M.K. acknowledge funding from the European
Community’s Horizon 2020 Program (project reference:
654021 - OpenMinted). M.K. additionally acknowledges the
Encomienda MINETAD-CNIO as part of the Plan for the
Advancement of Language Technology. O.R. and J.O. thank
the Foundation for Applied Medical Research (FIMA),
University of Navarra (Pamplona, Spain). This work was
partially funded by Consellería
de Cultura, Educación e Ordenación Universitaria (Xunta de Galicia), and FEDER (European Union), and the Portuguese Foundation for Science and Technology (FCT) under the scope of the strategic
funding of UID/BIO/04469/2013 unit and COMPETE 2020
(POCI-01-0145-FEDER-006684). We thank Iñigo Garciá -Yoldi
for useful feedback and discussions during the preparation of
the manuscript.info:eu-repo/semantics/publishedVersio
BioRED: A Comprehensive Biomedical Relation Extraction Dataset
Automated relation extraction (RE) from biomedical literature is critical for
many downstream text mining applications in both research and real-world
settings. However, most existing benchmarking datasets for bio-medical RE only
focus on relations of a single type (e.g., protein-protein interactions) at the
sentence level, greatly limiting the development of RE systems in biomedicine.
In this work, we first review commonly used named entity recognition (NER) and
RE datasets. Then we present BioRED, a first-of-its-kind biomedical RE corpus
with multiple entity types (e.g., gene/protein, disease, chemical) and relation
pairs (e.g., gene-disease; chemical-chemical), on a set of 600 PubMed articles.
Further, we label each relation as describing either a novel finding or
previously known background knowledge, enabling automated algorithms to
differentiate between novel and background information. We assess the utility
of BioRED by benchmarking several existing state-of-the-art methods, including
BERT-based models, on the NER and RE tasks. Our results show that while
existing approaches can reach high performance on the NER task (F-score of
89.3%), there is much room for improvement for the RE task, especially when
extracting novel relations (F-score of 47.7%). Our experiments also demonstrate
that such a comprehensive dataset can successfully facilitate the development
of more accurate, efficient, and robust RE systems for biomedicine
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