{"title":"生物医学文献中的生活方式因素:用于命名实体识别的本体和综合资源。","authors":"Esmaeil Nourani, Mikaela Koutrouli, Yijia Xie, Danai Vagiaki, Sampo Pyysalo, Katerina Nastou, Søren Brunak, Lars Juhl Jensen","doi":"10.1093/bioinformatics/btae613","DOIUrl":null,"url":null,"abstract":"<p><strong>Motivation: </strong>Despite lifestyle factors (LSFs) being increasingly acknowledged in shaping individual health trajectories, particularly in chronic diseases, they have still not been systematically described in the biomedical literature. This is in part because no named entity recognition (NER) system exists, which can comprehensively detect all types of LSFs in text. The task is challenging due to their inherent diversity, lack of a comprehensive LSF classification for dictionary-based NER, and lack of a corpus for deep learning-based NER.</p><p><strong>Results: </strong>We present a novel lifestyle factor ontology (LSFO), which we used to develop a dictionary-based system for recognition and normalization of LSFs. 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引用次数: 0
摘要
动机:尽管生活方式因素(LSFs)在塑造个人健康轨迹,尤其是慢性疾病方面的作用日益得到认可,但生物医学文献中仍未对其进行系统描述。部分原因是目前还没有命名实体识别(NER)系统能够全面检测文本中所有类型的生活方式因素。由于LSF固有的多样性、基于词典的NER缺乏全面的LSF分类以及基于深度学习的NER缺乏语料库,这项任务具有挑战性:我们提出了一个新颖的生活方式因素本体(LSFO),并利用它开发了一个基于词典的系统,用于识别和规范 LSF。此外,我们还引入了一个人工标注的 LSFs 语料库(LSF200),该语料库适用于 NER 系统的训练和评估,并用于训练一个基于转换器的系统。在该语料库上对两种 NER 系统的性能进行评估后发现,基于词典的系统的 F 分数为 64%,基于转换器的系统为 76%。这些系统在PubMed摘要和PMC开放存取文章中的大规模应用确定了生物医学文献中超过3亿次的LSF提及:LSFO、注释的 LSF200 语料库以及使用这两种 NER 系统在 PubMed 和 PMC-OA 文章中检测到的 LSF,均可通过以下 GitHub 存储库以开放许可的方式获取:Https://github.com/EsmaeilNourani/LSFO-expansion。该资源库包含两个相关 GitHub 资源库和一个与该研究有关的 Zenodo 项目的链接。LSFO 还可在 BioPortal 上查阅:Https://bioportal.bioontology.org/ontologies/LSFO.Supplementary information:补充数据可在 Bioinformatics online 上获取。
Lifestyle factors in the biomedical literature: an ontology and comprehensive resources for named entity recognition.
Motivation: Despite lifestyle factors (LSFs) being increasingly acknowledged in shaping individual health trajectories, particularly in chronic diseases, they have still not been systematically described in the biomedical literature. This is in part because no named entity recognition (NER) system exists, which can comprehensively detect all types of LSFs in text. The task is challenging due to their inherent diversity, lack of a comprehensive LSF classification for dictionary-based NER, and lack of a corpus for deep learning-based NER.
Results: We present a novel lifestyle factor ontology (LSFO), which we used to develop a dictionary-based system for recognition and normalization of LSFs. Additionally, we introduce a manually annotated corpus for LSFs (LSF200) suitable for training and evaluation of NER systems, and use it to train a transformer-based system. Evaluating the performance of both NER systems on the corpus revealed an F-score of 64% for the dictionary-based system and 76% for the transformer-based system. Large-scale application of these systems on PubMed abstracts and PMC Open Access articles identified over 300 million mentions of LSF in the biomedical literature.
Availability and implementation: LSFO, the annotated LSF200 corpus, and the detected LSFs in PubMed and PMC-OA articles using both NER systems, are available under open licenses via the following GitHub repository: https://github.com/EsmaeilNourani/LSFO-expansion. This repository contains links to two associated GitHub repositories and a Zenodo project related to the study. LSFO is also available at BioPortal: https://bioportal.bioontology.org/ontologies/LSFO.
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