Abstract
Objective. To evaluate the Cockcroft - Gault (CG) equation, using various body weight expressions, and the Sawyer equation in predicting glomerular filtration rate (GFR) using an enzymatic and zero-calibrated Jaffe plasma-creatinine assay, and to derive a new robust equation in adults. Material and methods. The CG weight measures included total, ideal and adjusted body weight (ABW; lowest of total and ideal) and two lean body mass (LBM) expressions, while the Sawyer equation is based primarily on LBM. Iohexol clearance was used to measure GFR. One derivation set (n = 436; enzymatic assay) was used to evaluate and bias-adjust existing equations when indicated, and to derive a new equation based on plasma-creatinine, age, gender and the body weight measure yielding the best adjusted R-2. All equations were then validated in a separate set (n = 414; Jaffe assay). Results. The existing equations all performed similarly in both sets. Prediction errors of equations based on LBM showed no correlation with BMI. The CG(ABW) and Sawyer equations performed best. The new equation with LBM yielded the highest adjusted R-2. In the combined set (n = 850), its accuracy (86%/98% of estimates within 30%/50% of measured GFR) was significantly better than for the CGABW (79%/95%) and Sawyer equations (79%/93%) (p < 0.001) for each 30 mL/min GFR subgroup within +/- 30% and +/- 50%, except within +/- 30% > 120 mL/min. Prediction error did not correlate with BMI, age or gender. Conclusion. A new creatinine-based equation derived in a mainly Caucasian patient sample is a better predictor of GFR than CG-type equations irrespective of the body weight measure used or, if bias-adjusted, when using zero-calibrated creatinine assays.
Original language | English |
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Pages (from-to) | 451-468 |
Journal | Scandinavian Journal of Clinical & Laboratory Investigation |
Volume | 66 |
Issue number | 6 |
DOIs | |
Publication status | Published - 2006 |
Bibliographical note
The information about affiliations in this record was updated in December 2015.The record was previously connected to the following departments: Division of Clinical Chemistry and Pharmacology (013250300), Department of Nephrology (013230024), Division of Occupational and Environmental Medicine (013078001), Clinical Chemistry, Malmö (013016000), Emergency medicine/Medicine/Surgery (013240200)
Subject classification (UKÄ)
- Medicinal Chemistry
Free keywords
- kidney
- kidney disease
- drug therapy
- glomerular filtration rate
- function tests
- renal insufficiency