Your search keyword '"Taher, Evana Amir"' showing total 3 results

1. Supporting the working life exposome: Annotating occupational exposure for enhanced literature search

Author

Thompson, Paul, Ananiadou, Sophia, Basinas, Ioannis, Brinchmann, Bendik C., Cramer, Christine, Galea, Karen S., Ge, Calvin, Georgiadis, Panagiotis, Kirkeleit, Jorunn, Kuijpers, Eelco, Nguyen, Nhung, Nuñez, Roberto, Schlünssen, Vivi, Stokholm, Zara Ann, Taher, Evana Amir, Tinnerberg, Håkan, Van Tongeren, Martie, Xie, Qianqian, Thompson, Paul, Ananiadou, Sophia, Basinas, Ioannis, Brinchmann, Bendik C., Cramer, Christine, Galea, Karen S., Ge, Calvin, Georgiadis, Panagiotis, Kirkeleit, Jorunn, Kuijpers, Eelco, Nguyen, Nhung, Nuñez, Roberto, Schlünssen, Vivi, Stokholm, Zara Ann, Taher, Evana Amir, Tinnerberg, Håkan, Van Tongeren, Martie, and Xie, Qianqian

Abstract

An individual’s likelihood of developing non-communicable diseases is often influenced by the types, intensities and duration of exposures at work. Job exposure matrices provide exposure estimates associated with different occupations. However, due to their time-consuming expert curation process, job exposure matrices currently cover only a subset of possible workplace exposures and may not be regularly updated. Scientific literature articles describing exposure studies provide important supporting evidence for developing and updating job exposure matrices, since they report on exposures in a variety of occupational scenarios. However, the constant growth of scientific literature is increasing the challenges of efficiently identifying relevant articles and important content within them. Natural language processing methods emulate the human process of reading and understanding texts, but in a fraction of the time. Such methods can increase the efficiency of both finding relevant documents and pinpointing specific information within them, which could streamline the process of developing and updating job exposure matrices. Named entity recognition is a fundamental natural language processing method for language understanding, which automatically identifies mentions of domain-specific concepts (named entities) in documents, e.g., exposures, occupations and job tasks. State-of-the-art machine learning models typically use evidence from an annotated corpus, i.e., a set of documents in which named entities are manually marked up (annotated) by experts, to learn how to detect named entities automatically in new documents. We have developed a novel annotated corpus of scientific articles to support machine learning based named entity recognition relevant to occupational substance exposures. Through incremental refinements to the annotation process, we demonstrate that expert annotators can attain high levels of agreement, and that the corpus can be used to train high-perf

Published

2024

2. O-114 Natural language processing as a tool for developing and updating job exposure matrices for chemical exposures in the general population

Author

Basinas, Ioannis, primary, Thompson, Paul, additional, Xie, Qianqian, additional, Annaniadou, Sophia, additional, Ge, Calvin, additional, Kuijpers, Eelco, additional, Tinnerberg, Hakan, additional, Stockholm, Zara Ann, additional, Kirkeleit, Jorunn, additional, Galea, Karen S, additional, Brinchmann, Bendik, additional, Cramer, Christine, additional, Taher, Evana Amir, additional, Schlunssen, Vivi, additional, and Tonger, Martie van, additional

Published

2023

3. Supporting the working life exposome: Annotating occupational exposure for enhanced literature search.

Author

Thompson P, Ananiadou S, Basinas I, Brinchmann BC, Cramer C, Galea KS, Ge C, Georgiadis P, Kirkeleit J, Kuijpers E, Nguyen N, Nuñez R, Schlünssen V, Stokholm ZA, Taher EA, Tinnerberg H, Van Tongeren M, and Xie Q

Subjects

Humans, Exposome, Occupations, Occupational Exposure adverse effects, Natural Language Processing

Abstract

An individual's likelihood of developing non-communicable diseases is often influenced by the types, intensities and duration of exposures at work. Job exposure matrices provide exposure estimates associated with different occupations. However, due to their time-consuming expert curation process, job exposure matrices currently cover only a subset of possible workplace exposures and may not be regularly updated. Scientific literature articles describing exposure studies provide important supporting evidence for developing and updating job exposure matrices, since they report on exposures in a variety of occupational scenarios. However, the constant growth of scientific literature is increasing the challenges of efficiently identifying relevant articles and important content within them. Natural language processing methods emulate the human process of reading and understanding texts, but in a fraction of the time. Such methods can increase the efficiency of both finding relevant documents and pinpointing specific information within them, which could streamline the process of developing and updating job exposure matrices. Named entity recognition is a fundamental natural language processing method for language understanding, which automatically identifies mentions of domain-specific concepts (named entities) in documents, e.g., exposures, occupations and job tasks. State-of-the-art machine learning models typically use evidence from an annotated corpus, i.e., a set of documents in which named entities are manually marked up (annotated) by experts, to learn how to detect named entities automatically in new documents. We have developed a novel annotated corpus of scientific articles to support machine learning based named entity recognition relevant to occupational substance exposures. Through incremental refinements to the annotation process, we demonstrate that expert annotators can attain high levels of agreement, and that the corpus can be used to train high-performance named entity recognition models. The corpus thus constitutes an important foundation for the wider development of natural language processing tools to support the study of occupational exposures., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2024 Thompson et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2024