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Automatic Classification of Free-Text Radiology Reports to Identify Limb Fractures using Machine Learning and the SNOMED CT Ontology

OBJECTIVE: To develop and evaluate machine learning techniques that identify limb fractures and other abnormalities (e.g. dislocations) from radiology reports. MATERIALS AND METHODS: 99 free-text reports of limb radiology examinations were acquired from an Australian public hospital. Two clinicians...

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Autores principales: Zuccon, Guido, Wagholikar, Amol S, Nguyen, Anthony N, Butt, Luke, Chu, Kevin, Martin, Shane, Greenslade, Jaimi
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Medical Informatics Association 201
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3845773/
https://www.ncbi.nlm.nih.gov/pubmed/24303284
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author Zuccon, Guido
Wagholikar, Amol S
Nguyen, Anthony N
Butt, Luke
Chu, Kevin
Martin, Shane
Greenslade, Jaimi
author_facet Zuccon, Guido
Wagholikar, Amol S
Nguyen, Anthony N
Butt, Luke
Chu, Kevin
Martin, Shane
Greenslade, Jaimi
author_sort Zuccon, Guido
collection PubMed
description OBJECTIVE: To develop and evaluate machine learning techniques that identify limb fractures and other abnormalities (e.g. dislocations) from radiology reports. MATERIALS AND METHODS: 99 free-text reports of limb radiology examinations were acquired from an Australian public hospital. Two clinicians were employed to identify fractures and abnormalities from the reports; a third senior clinician resolved disagreements. These assessors found that, of the 99 reports, 48 referred to fractures or abnormalities of limb structures. Automated methods were then used to extract features from these reports that could be useful for their automatic classification. The Naive Bayes classification algorithm and two implementations of the support vector machine algorithm were formally evaluated using cross-fold validation over the 99 reports. RESULTS: Results show that the Naive Bayes classifier accurately identifies fractures and other abnormalities from the radiology reports. These results were achieved when extracting stemmed token bigram and negation features, as well as using these features in combination with SNOMED CT concepts related to abnormalities and disorders. The latter feature has not been used in previous works that attempted classifying free-text radiology reports. DISCUSSION: Automated classification methods have proven effective at identifying fractures and other abnormalities from radiology reports (F-Measure up to 92.31%). Key to the success of these techniques are features such as stemmed token bigrams, negations, and SNOMED CT concepts associated with morphologic abnormalities and disorders. CONCLUSION: This investigation shows early promising results and future work will further validate and strengthen the proposed approaches.
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spelling pubmed-38457732013-12-03 Automatic Classification of Free-Text Radiology Reports to Identify Limb Fractures using Machine Learning and the SNOMED CT Ontology Zuccon, Guido Wagholikar, Amol S Nguyen, Anthony N Butt, Luke Chu, Kevin Martin, Shane Greenslade, Jaimi AMIA Jt Summits Transl Sci Proc Articles OBJECTIVE: To develop and evaluate machine learning techniques that identify limb fractures and other abnormalities (e.g. dislocations) from radiology reports. MATERIALS AND METHODS: 99 free-text reports of limb radiology examinations were acquired from an Australian public hospital. Two clinicians were employed to identify fractures and abnormalities from the reports; a third senior clinician resolved disagreements. These assessors found that, of the 99 reports, 48 referred to fractures or abnormalities of limb structures. Automated methods were then used to extract features from these reports that could be useful for their automatic classification. The Naive Bayes classification algorithm and two implementations of the support vector machine algorithm were formally evaluated using cross-fold validation over the 99 reports. RESULTS: Results show that the Naive Bayes classifier accurately identifies fractures and other abnormalities from the radiology reports. These results were achieved when extracting stemmed token bigram and negation features, as well as using these features in combination with SNOMED CT concepts related to abnormalities and disorders. The latter feature has not been used in previous works that attempted classifying free-text radiology reports. DISCUSSION: Automated classification methods have proven effective at identifying fractures and other abnormalities from radiology reports (F-Measure up to 92.31%). Key to the success of these techniques are features such as stemmed token bigrams, negations, and SNOMED CT concepts associated with morphologic abnormalities and disorders. CONCLUSION: This investigation shows early promising results and future work will further validate and strengthen the proposed approaches. American Medical Informatics Association 2013 -03- 18 /pmc/articles/PMC3845773/ /pubmed/24303284 Text en ©2013 AMIA - All rights reserved.
spellingShingle Articles
Zuccon, Guido
Wagholikar, Amol S
Nguyen, Anthony N
Butt, Luke
Chu, Kevin
Martin, Shane
Greenslade, Jaimi
Automatic Classification of Free-Text Radiology Reports to Identify Limb Fractures using Machine Learning and the SNOMED CT Ontology
title Automatic Classification of Free-Text Radiology Reports to Identify Limb Fractures using Machine Learning and the SNOMED CT Ontology
title_full Automatic Classification of Free-Text Radiology Reports to Identify Limb Fractures using Machine Learning and the SNOMED CT Ontology
title_fullStr Automatic Classification of Free-Text Radiology Reports to Identify Limb Fractures using Machine Learning and the SNOMED CT Ontology
title_full_unstemmed Automatic Classification of Free-Text Radiology Reports to Identify Limb Fractures using Machine Learning and the SNOMED CT Ontology
title_short Automatic Classification of Free-Text Radiology Reports to Identify Limb Fractures using Machine Learning and the SNOMED CT Ontology
title_sort automatic classification of free-text radiology reports to identify limb fractures using machine learning and the snomed ct ontology
topic Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3845773/
https://www.ncbi.nlm.nih.gov/pubmed/24303284
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