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Information extraction from weakly structured radiological reports with natural language queries
Information extraction from weakly structured radiological reports with natural language queries
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Information extraction from weakly structured radiological reports with natural language queries
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Information extraction from weakly structured radiological reports with natural language queries
Information extraction from weakly structured radiological reports with natural language queries

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Information extraction from weakly structured radiological reports with natural language queries
Information extraction from weakly structured radiological reports with natural language queries
Journal Article

Information extraction from weakly structured radiological reports with natural language queries

2024
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Overview
Objectives Provide physicians and researchers an efficient way to extract information from weakly structured radiology reports with natural language processing (NLP) machine learning models. Methods We evaluate seven different German bidirectional encoder representations from transformers (BERT) models on a dataset of 857,783 unlabeled radiology reports and an annotated reading comprehension dataset in the format of SQuAD 2.0 based on 1223 additional reports. Results Continued pre-training of a BERT model on the radiology dataset and a medical online encyclopedia resulted in the most accurate model with an F1-score of 83.97% and an exact match score of 71.63% for answerable questions and 96.01% accuracy in detecting unanswerable questions. Fine-tuning a non-medical model without further pre-training led to the lowest-performing model. The final model proved stable against variation in the formulations of questions and in dealing with questions on topics excluded from the training set. Conclusions General domain BERT models further pre-trained on radiological data achieve high accuracy in answering questions on radiology reports. We propose to integrate our approach into the workflow of medical practitioners and researchers to extract information from radiology reports. Clinical relevance statement By reducing the need for manual searches of radiology reports, radiologists’ resources are freed up, which indirectly benefits patients. Key Points • BERT models pre-trained on general domain datasets and radiology reports achieve high accuracy (83.97% F1-score) on question-answering for radiology reports. • The best performing model achieves an F1-score of 83.97% for answerable questions and 96.01% accuracy for questions without an answer. • Additional radiology-specific pretraining of all investigated BERT models improves their performance. Graphical Abstract

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