Abstract
BackgroundAccurate evaluation of glomerular filtration rates (GFRs) is of critical importance in clinical practice. A previous study showed that models based on artificial neural networks (ANNs) could achieve a better performance than traditional equations. However, large-sample cross-sectional surveys have not resolved questions about ANN performance.MethodsA total of 1,180 patients that had chronic kidney disease (CKD) were enrolled in the development data set, the internal validation data set and the external validation data set. Additional 222 patients that were admitted to two independent institutions were externally validated. Several ANNs were constructed and finally a Back Propagation network optimized by a genetic algorithm (GABP network) was chosen as a superior model, which included six input variables; i.e., serum creatinine, serum urea nitrogen, age, height, weight and gender, and estimated GFR as the one output variable. Performance was then compared with the Cockcroft-Gault equation, the MDRD equations and the CKD-EPI equation.ResultsIn the external validation data set, Bland-Altman analysis demonstrated that the precision of the six-variable GABP network was the highest among all of the estimation models; i.e., 46.7 ml/min/1.73 m2 vs. a range from 71.3 to 101.7 ml/min/1.73 m2, allowing improvement in accuracy (15% accuracy, 49.0%; 30% accuracy, 75.1%; 50% accuracy, 90.5% [P<0.001 for all]) and CKD stage classification (misclassification rate of CKD stage, 32.4% vs. a range from 47.3% to 53.3% [P<0.001 for all]). Furthermore, in the additional external validation data set, precision and accuracy were improved by the six-variable GABP network.ConclusionsA new ANN model (the six-variable GABP network) for CKD patients was developed that could provide a simple, more accurate and reliable means for the estimation of GFR and stage of CKD than traditional equations. Further validations are needed to assess the ability of the ANN model in diverse populations.
Highlights
Chronic kidney disease (CKD) is a major public health problem worldwide [1]
Performance of the estimation models in the external validation data set Bland-Altman analysis demonstrated that the precision of the six-variable Back Propagation (BP) network with genetic algorithm (GABP) network was the highest among all of the estimation models (46.7 ml/min/1.73 m2 vs. a range from 71.3 ml/min/1.73 m2 to 101.7 ml/min/1.73 m2)
We chose estimated glomerular filtration rates (GFRs) (eGFR) calculated by the six-variable GABP network as the reference against which all comparisons between estimation models were made
Summary
Chronic kidney disease (CKD) is a major public health problem worldwide [1]. The Center for Disease Control in the USA declared that the prevalence of CKD was 26 million in the United States [2] and the number of patients with CKD in China was estimated to be about 119.5 million [3]. The number of patients that accepted maintenance renal replacement therapy in the United States increased from 281,000 in 2000 to 547,000 in 2010 to 571,000 in. Accurate evaluation of glomerular filtration rates (GFRs) is of critical importance in clinical practice and research [7]. Accurate evaluation of glomerular filtration rates (GFRs) is of critical importance in clinical practice. A previous study showed that models based on artificial neural networks (ANNs) could achieve a better performance than traditional equations. Large-sample cross-sectional surveys have not resolved questions about ANN performance
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