Relationship of gender, age, and body mass index to errors in predicted kidney function

doi:10.1093/ndt/gfh962

NDT Advance Access originally published online on July 5, 2005
Nephrology Dialysis Transplantation 2005 20(9):1791-1798; doi:10.1093/ndt/gfh962

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Original Article

Relationship of gender, age, and body mass index to errors in predicted kidney function

Massimo Cirillo, Pietro Anastasio and Natale G. De Santo

Nephrology, Second University of Naples (SUN), Naples, Italy

Correspondence and offprint requests to: Professor Massimo Cirillo, MD, Nefrologia (Edificio 17-Policlinico, Seconda Università di Napolivia Sergio Pansini, 5, 80131 Naples, Italy. Email: massimo.cirillo{at}unina2.it

Background. Previous studies have shown conflicting data onaccuracy of equations for kidney function prediction. The presentwork analysed the relationship of gender, age and body massindex (BMI) to error of predictions by the Cockcroft–Gaultequation (CG_eq), the simplified equation of the Modificationof Renal Diseases Study (MDRD_eq) and the Mayo Clinic equation(Mayo_eq).

Methods. Inulin clearance (glomerular filtration rate; GFR)and other variables were measured in 380 subjects of both sexes,aged 18–88 years, with and without kidney disease. GFRwas defined as low when <60 ml/min x 1.73 m². BMI was usedfor definition of underweight/overweight. Relative error ofpredictions was used as an index of bias. It was calculatedas prediction minus GFR (positive values =overestimates, negativevalues = underestimates) and expressed as a percentage of theGFR. Absolute error was used as an index of imprecision andwas calculated as the absolute value of relative error.

Results. CG_eq relative error was inversely associated with ageand directly associated with BMI (P<0.001), but not withgender or GFR. MDRD_eq relative error was inversely associatedwith female gender and GFR (P<0.001), but not with age orBMI. Mayo_eq relative error was directly associated with malegender, BMI and GFR (P<0.01), but not with age. Absoluteerror was higher for CG_eq than for MDRD_eq but only at low GFR(P<0.001). Mayo_eq had a higher absolute error than CG_eq andMDRD_eq (P<0.01).

Conclusions. Errors of predictions varied not only with GFRbut also with gender, age and BMI. Without using creatinineassay calibration, Mayo_eq was less accurate than both MDRD_eqand CG_eq, whereas MDRD_eq was slightly more precise than CG_eqbut only at low GFR.

Keywords: Cockcroft–Gault equation; creatinine; glomerular filtration rate; MDRD equation

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