Automated interpretation of ventilation-perfusion lung scintigrams for the diagnosis of pulmonary embolism using support vector machines
Conference Proceeding/Paper
|
Published
|
English
Authors:
Ericsson, Anders
;
Huart, A
;
Ekefjard, A
;
Åström, Karl
;
Holst, H
;
Evander, Eva
;
Wollmer, Per
;
Edenbrandt, Lars
, et al.
Department:
Mathematics (Faculty of Engineering)
Centre for Mathematical Sciences
Clinical Physiology (Lund)
Clinical Physiology and Nuclear Medicine, Malmö
Nuclear medicine, Malmö
Research Group:
Clinical Physiology and Nuclear Medicine, Malmö
Nuclear medicine, Malmö
Abstract:
The purpose of this study was to develop a new completely automated method for the interpretation of ventilation-perfusion (V-P) lung scintigrams for the diagnosis of pulmonary embolism. A new way of extracting features, characteristic for pulmonary embolism is presented. These features are then used as input to a Support Vector Machine, which discriminates between pulmonary embolism or no embolism. Using a material of 509 training cases and 104 test cases, the performance of the system, measured as the area under the ROC curve, was 0.86 in the test group. It is concluded that a completely automatic method can be used for interpretation of V-P scintigrams. It is faster and more robust than a previously presented method [4,5] and the accuracy is at the same level as the the previous method. It also handles abnormalities in the lungs.
Keywords:
Respiratory Medicine and Allergy ;
Cardiology and Cardiovascular Disease
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