OBJECTIVE: Neural networks are a group of computer-based pattern recognition methods that have recently been applied to clinical diagnosis and classification. In this study, we applied one type of neural network, the backpropagation network, to the diagnostic classification of giant cell arteritis (GCA). METHODS: The analysis was performed on the 807 cases in the vasculitis database of the American College of Rheumatology. Classification was based on the 8 clinical criteria previously used for classification of this data set: 1) age > or = 50 years, 2) new localized headache, 3) temporal artery tenderness or decrease in temporal artery pulse, 4) polymyalgia rheumatica, 5) abnormal result on artery biopsy, 6) erythrocyte sedimentation rate > or = 50 mm/hour, 7) scalp tenderness or nodules, and 8) claudication of the jaw, of the tongue, or on swallowing. To avoid overtraining, network training was terminated when the generalization error reached a minimum. True cross-validation classification rates were obtained. RESULTS: Neural networks correctly classified 94.4% of the GCA cases (n = 214) and 91.9% of the other vasculitis cases (n = 593). In comparison, classification trees correctly classified 91.6% of the GCA cases and 93.4% of the other vasculitis cases. Neural nets and classification trees were compared by receiver operating characteristic (ROC) analysis. The ROC curves for the two methods crossed, indicating that the better classification method depended on the choice of decision threshold. At a decision threshold that gave equal costs to percentage increases in false-positive and false-negative results, the methods were not significantly different in their performance (P = 0.45). CONCLUSION: Neural networks are a potentially useful method for developing diagnostic classification rules from clinical data.
OBJECTIVE: Neural networks are a group of computer-based pattern recognition methods that have recently been applied to clinical diagnosis and classification. In this study, we applied one type of neural network, the backpropagation network, to the diagnostic classification of giant cell arteritis (GCA). METHODS: The analysis was performed on the 807 cases in the vasculitis database of the American College of Rheumatology. Classification was based on the 8 clinical criteria previously used for classification of this data set: 1) age > or = 50 years, 2) new localized headache, 3) temporal artery tenderness or decrease in temporal artery pulse, 4) polymyalgia rheumatica, 5) abnormal result on artery biopsy, 6) erythrocyte sedimentation rate > or = 50 mm/hour, 7) scalp tenderness or nodules, and 8) claudication of the jaw, of the tongue, or on swallowing. To avoid overtraining, network training was terminated when the generalization error reached a minimum. True cross-validation classification rates were obtained. RESULTS: Neural networks correctly classified 94.4% of the GCA cases (n = 214) and 91.9% of the other vasculitis cases (n = 593). In comparison, classification trees correctly classified 91.6% of the GCA cases and 93.4% of the other vasculitis cases. Neural nets and classification trees were compared by receiver operating characteristic (ROC) analysis. The ROC curves for the two methods crossed, indicating that the better classification method depended on the choice of decision threshold. At a decision threshold that gave equal costs to percentage increases in false-positive and false-negative results, the methods were not significantly different in their performance (P = 0.45). CONCLUSION: Neural networks are a potentially useful method for developing diagnostic classification rules from clinical data.
Authors: Francesco Macrina; Paolo Emilio Puddu; Alfonso Sciangula; Fausto Trigilia; Marco Totaro; Fabio Miraldi; Francesca Toscano; Mauro Cassese; Michele Toscano Journal: Open Cardiovasc Med J Date: 2009-07-07
Authors: Hannes Alder; Beat A Michel; Christian Marx; Giorgio Tamborrini; Thomas Langenegger; Pius Bruehlmann; Johann Steurer; Lukas M Wildi Journal: Int J Rheumatol Date: 2014-07-08
Authors: Edsel B Ing; Neil R Miller; Angeline Nguyen; Wanhua Su; Lulu L C D Bursztyn; Meredith Poole; Vinay Kansal; Andrew Toren; Dana Albreki; Jack G Mouhanna; Alla Muladzanov; Mikaël Bernier; Mark Gans; Dongho Lee; Colten Wendel; Claire Sheldon; Marc Shields; Lorne Bellan; Matthew Lee-Wing; Yasaman Mohadjer; Navdeep Nijhawan; Felix Tyndel; Arun N E Sundaram; Martin W Ten Hove; John J Chen; Amadeo R Rodriguez; Angela Hu; Nader Khalidi; Royce Ing; Samuel W K Wong; Nurhan Torun Journal: Clin Ophthalmol Date: 2019-02-21
Authors: Edsel B Ing; Gabriela Lahaie Luna; Andrew Toren; Royce Ing; John J Chen; Nitika Arora; Nurhan Torun; Otana A Jakpor; J Alexander Fraser; Felix J Tyndel; Arun Ne Sundaram; Xinyang Liu; Cindy Ty Lam; Vivek Patel; Ezekiel Weis; David Jordan; Steven Gilberg; Christian Pagnoux; Martin Ten Hove Journal: Clin Ophthalmol Date: 2017-11-22