基于血清胱抑素C和血清肌酐以及两者组合的肾小球滤过率估算公式的比较
A Comparison of GFR estimating formulae based upon s-cystatin C and s-creatinine and a combination of the two.
作者信息
Tidman Martin, Sjöström Per, Jones Ian
机构信息
Department of Medicine, University Hospital of Orebro, Orebro 701 85, Sweden.
出版信息
Nephrol Dial Transplant. 2008 Jan;23(1):154-60. doi: 10.1093/ndt/gfm661. Epub 2007 Oct 2.
BACKGROUND
Current recommendations (KDIGO and NKF-K/DOQI) are that patients with chronic kidney diseases (CKD) should be classified in stages 1-5 based on GFR. A serum creatinine-based prediction equation (abbreviated MDRD formula) can be used to estimate GFR (eGFR). Cystatin C has been proposed as an alternative filtration marker to creatinine. We present validation of currently used formulae for eGFR based upon s-creatinine and s-cystatin C and we compare two different methods for the determination of cystatin C.
METHODS
S-cystatin C and s-creatinine were measured in 644 patients referred for determination of GFR by plasma clearance of iohexol during the period 1 June 2004 to 31 December 2005. S-cystatin C was determined by turbidimetry using two different reagents (DAKO A/S and Gentian A/S). The 644 patients were divided into two groups. Group 1 was used to calculate own eGFR-formulae based on s-cystatin C (Orebro-cyst). Group 2 was used to validate the formulae. Three creatinine-based equations (Cockcroft-Gault, MDRD and Jelliffe) and seven cystatin C-based (Larsson, Hoek, Filler, leBricon, Grubb and Orebro-cyst DAKO, Gentian) were evaluated. Evaluation was done according to the recommendations by K/DOQI.
RESULTS
In the test sample (group 2) mean GFR (iohexol clearance) was 50.4 ml/min/1.73 m(2) (range 12-150)-mean s-cystatin C (DAKO AS) was 1.63 mg/l and mean s-cystatin C (Gentian AS) 1.92 mg/l. The s-cystatin C concentrations obtained by the Gentian method were approximately 10% lower than the DAKO method within the normal GFR range but were approximately 40% higher within the low GFR range. Bias for the creatinine-based equations was in the range -0.9 to 5.9 ml/min/1.73 m(2) and for the cystatin C-based equations in range -2.4 to 7.9 ml/min/ 1.73 m(2). Accuracy within 30% ranged from 68.6 to 80.4% and 54.0 to 82.9%, respectively. By combining both, an accuracy within 30% for 87.0% could be reached (MDRD/cystatin C by Gentian). Overall the patients were correctly classified for the different stages of CKD in 62.1-64.0% for the creatinine-based equations, 61.5-72.0% for the cystatin C-based equations and 70.2-73.9% for the combination.
CONCLUSION
Estimating GFR using formulae based on s-creatinine or s-cystatin C alone was equally accurate according to the NKF K/DOQI guidelines. A formula that combines both provided a greater accuracy. If Cystatin C, which is clearly more expensive, is used, the choice of the cystatin C determination method and an adjusted prediction equation is essential. Use of the IDMS-traceable MDRD seems to yield the best cost-benefit ratio for routine practice.
背景
当前的建议(KDIGO和NKF-K/DOQI)是,慢性肾脏病(CKD)患者应根据肾小球滤过率(GFR)分为1 - 5期。基于血清肌酐的预测方程(缩写为MDRD公式)可用于估算GFR(eGFR)。胱抑素C已被提议作为肌酐的替代滤过标志物。我们对目前基于血清肌酐和血清胱抑素C的eGFR常用公式进行了验证,并比较了两种不同的胱抑素C测定方法。
方法
在2004年6月1日至2005年12月31日期间,对644例因碘海醇血浆清除率测定GFR而转诊的患者进行了血清胱抑素C和血清肌酐检测。血清胱抑素C采用两种不同试剂(DAKO A/S和Gentian A/S)通过比浊法测定。644例患者分为两组。第1组用于基于血清胱抑素C计算自身的eGFR公式(厄勒布鲁胱抑素公式)。第2组用于验证公式。评估了三个基于肌酐的方程(Cockcroft-Gault、MDRD和Jelliffe)以及七个基于胱抑素C的方程(Larsson、Hoek、Filler、leBricon、Grubb和厄勒布鲁胱抑素公式DAKO、Gentian)。根据K/DOQI的建议进行评估。
结果
在测试样本(第2组)中,平均GFR(碘海醇清除率)为50.4 ml/min/1.73 m²(范围12 - 150),平均血清胱抑素C(DAKO AS)为1.63 mg/l,平均血清胱抑素C(Gentian AS)为1.92 mg/l。在正常GFR范围内,Gentian方法获得的血清胱抑素C浓度比DAKO方法低约10%,但在低GFR范围内高约40%。基于肌酐的方程偏差范围为 -0.9至5.9 ml/min/1.73 m²,基于胱抑素C的方程偏差范围为 -2.4至7.9 ml/min/1.73 m²。30%以内的准确率分别为68.6%至80.4%和54.0%至82.9%。通过两者结合,可达到87.0%的30%以内的准确率(MDRD/胱抑素C by Gentian)。总体而言,基于肌酐的方程对CKD不同阶段患者的正确分类率为62.1% - 64.0%,基于胱抑素C的方程为61.5% - 72.0%,两者结合为70.2% - 73.9%。
结论
根据NKF K/DOQI指南,单独使用基于血清肌酐或血清胱抑素C的公式估算GFR同样准确。将两者结合的公式具有更高的准确性。如果使用明显更昂贵的胱抑素C,选择胱抑素C测定方法和调整后的预测方程至关重要。使用可溯源至IDMS的MDRD似乎在常规实践中产生最佳的成本效益比。
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