Alex Bottle1, Paul Aylin. 1. Dr Foster Unit, Department of Primary Care and Public Health, Imperial College London, 12 Smithfield Street, London EC1A 9LA, UK. robert.bottle@imperial.ac.uk
Abstract
OBJECTIVE: The Charlson and Elixhauser indices are the most commonly used comorbidity indices with risk prediction models using administrative data. Our objective was to compare the original Charlson index, a modified set of Charlson codes after advice from clinical coders, and a published modified Elixhauser index in predicting in-hospital mortality. STUDY DESIGN AND SETTING: Logistic regression using two separate years of administrative hospital data for all acute nonspecialist public hospitals in England. RESULTS: For all admissions combined, discrimination was similar for the Charlson index using the original codes and weights and the Charlson index using the original codes but England-calibrated weights (c=0.73), although model fit was superior for the latter. The new Charlson codes improved discrimination (c=0.76), model fit, and consistency of recording between admissions. The modified Elixhauser had the best performance (c=0.80). For admissions for acute myocardial infarction and chronic obstructive pulmonary disease, the weights often differed, although the patterns were broadly similar. CONCLUSION: Recalibration of the original Charlson index yielded only modest benefits overall. The modified Charlson codes and weights offer better fit and discrimination for English data over the original version. The modified Elixhauser performed best of all, but its weights were perhaps less consistent across the different patient groups considered here.
OBJECTIVE: The Charlson and Elixhauser indices are the most commonly used comorbidity indices with risk prediction models using administrative data. Our objective was to compare the original Charlson index, a modified set of Charlson codes after advice from clinical coders, and a published modified Elixhauser index in predicting in-hospital mortality. STUDY DESIGN AND SETTING: Logistic regression using two separate years of administrative hospital data for all acute nonspecialist public hospitals in England. RESULTS: For all admissions combined, discrimination was similar for the Charlson index using the original codes and weights and the Charlson index using the original codes but England-calibrated weights (c=0.73), although model fit was superior for the latter. The new Charlson codes improved discrimination (c=0.76), model fit, and consistency of recording between admissions. The modified Elixhauser had the best performance (c=0.80). For admissions for acute myocardial infarction and chronic obstructive pulmonary disease, the weights often differed, although the patterns were broadly similar. CONCLUSION: Recalibration of the original Charlson index yielded only modest benefits overall. The modified Charlson codes and weights offer better fit and discrimination for English data over the original version. The modified Elixhauser performed best of all, but its weights were perhaps less consistent across the different patient groups considered here.
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