Open AccessIdentifying Wrist Fracture Patients with High Accuracy by Automatic Categorization of X-ray Reports
Author(s) -
Berry de Bruijn,
Ann Cranney,
S. O’Donnell,
J. Martin,
Alan J. Forster
Publication year - 2006
Publication title -
journal of the american medical informatics association
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.614
H-Index - 150
eISSN - 1527-974X
pISSN - 1067-5027
DOI - 10.1197/jamia.m1995
Subject(s) - artificial intelligence , support vector machine , wrist , categorization , computer science , naive bayes classifier , benchmark (surveying) , machine learning , artificial neural network , set (abstract data type) , cross validation , pattern recognition (psychology) , medicine , radiology , geodesy , programming language , geography
The authors performed this study to determine the accuracy of several text classification methods to categorize wrist x-ray reports. We randomly sampled 751 textual wrist x-ray reports. Two expert reviewers rated the presence (n = 301) or absence (n = 450) of an acute fracture of wrist. We developed two information retrieval (IR) text classification methods and a machine learning method using a support vector machine (TC-1). In cross-validation on the derivation set (n = 493), TC-1 outperformed the two IR based methods and six benchmark classifiers, including Naive Bayes and a Neural Network. In the validation set (n = 258), TC-1 demonstrated consistent performance with 93.8% accuracy; 95.5% sensitivity; 92.9% specificity; and 87.5% positive predictive value. TC-1 was easy to implement and superior in performance to the other classification methods.
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