Development and Comparison of Automated Classifiers for Glaucoma Diagnosis Using Stratus Optical Coherence Tomography

doi:10.1167/iovs.05-0069

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Development and Comparison of Automated Classifiers for Glaucoma Diagnosis Using Stratus Optical Coherence Tomography

Mei-Ling Huang¹ and Hsin-Yi Chen²

^¹From the Department of Industrial Engineering and Management, National Chin-Yi Institute of Technology, Taichung County, Taiwan; and the ^²Glaucoma Service, Department of Ophthalmology, China Medical University Hospital, Taichung City, Taiwan.

PURPOSE. To develop and compare the ability of several automatedclassifiers to differentiate between normal and glaucomatouseyes based on the quantitative assessment of summary data reportsfrom Stratus optical coherence tomography (OCT; Carl Zeiss MeditecInc., Dublin, CA) in a Chinese population in Taiwan.

METHODS. One randomly selected eye from each of 89 patientswith glaucoma and each of 100 age- and sex-matched normal individualswere included in the study. Measurements of glaucoma variables(retinal nerve fiber layer thickness and optic nerve head analysisresults) were obtained by Stratus OCT. With the Stratus OCTparameters used as input, receiver operative characteristic(ROC) curves were generated by three methods, to classify eyesas either glaucomatous or normal: linear discriminant analysis(LDA), Mahalanobis distance (MD), and artificial neural network(ANN). The area under the ROC curve was optimized by principalcomponent analysis (PCA). Classification accuracy was determinedby cross validation.

RESULTS. The average visual field mean deviation was –0.7± 0.6 dB in the normal group and –2.7 ±1.9 dB in the glaucoma group. The areas under the ROC curveswere 0.824 (LDA), 0.849 (MD), 0.821 (ANN), 0.915 (LDA with PCA),0.991 (MD with PCA), and 0.874 (ANN with PCA).

CONCLUSIONS. With Stratus OCT parameters used as input, automatedclassifiers show promise for discriminating between glaucomatousand normal eyes. MD measured from multivariate data can predictthe severity of glaucoma through the construction of a measurementspace. After PCA, implementation results show that the Mahalanobisspace created by MD surpasses LDA and ANN in diagnosing glaucoma.

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