胱抑素 C 和肌酐预测儿童肾小球滤过率:包括细胞外液量的影响。
GFR prediction from cystatin C and creatinine in children: effect of including body cell mass.
机构信息
Department of Nuclear Medicine, Aalborg Hospital, Aarhus University Hospital, Aalborg, Denmark.
出版信息
Am J Kidney Dis. 2012 Jan;59(1):50-7. doi: 10.1053/j.ajkd.2011.09.013. Epub 2011 Oct 29.
BACKGROUND
Aiming to develop a more accurate cystatin C-based model for estimation of glomerular filtration rate (GFR) in children, we hypothesized that inclusion of body cell mass (BCM) would increase the accuracy of the GFR estimate in comparison to a well-established GFR reference method.
STUDY DESIGN
Diagnostic test accuracy study.
SETTINGS & PARTICIPANTS: 119 children (mean age, 8.8; range, 2.3-14.9 years) referred for GFR measurement by chromium 51 ethylenediaminetetraacetic acid ((51)Cr-EDTA) clearance (mean GFR, 98; range, 13.7-147.4 mL/min/1.73 m(2)).
INDEX TEST
GFR estimations by the 2 prediction models resulting from theoretical considerations corroborated by forward stepwise variable selection: GFR (mL/min) = 0.542 × (BCM/SCysC)(0.40) × (height × BSA/SCr)(0.65) and GFR (mL/min) = 0.426 × (weight/SCysC)(0.39) × (height × BSA/SCr)(0.64), where SCysC is serum cystatin C level, BSA is body surface area, and SCr is serum creatinine level. The accuracy and precision of these models were compared with 7 previously published prediction models using random subsampling cross-validation. Local constants and coefficients were calculated for all models. Root mean square error, R(2), and percentage of predictions within ±10% and ±30% of the reference GFR were calculated for all models. Based on 1,000 runs of the cross-validation procedure, median values and 2.5th and 97.5th quantiles of the validation parameters were calculated.
REFERENCE TEST
GFR measurement by (51)Cr-EDTA clearance.
RESULTS
The BCM model predicted 98% within ±30% of reference GFR and 66% within ±10%, which was higher than for any other model. The weight model predicted 97.5% within ±30% of reference GFR and 62% within ±10%. The BCM model had the highest R(2) and the smallest root mean square error.
LIMITATIONS
Included only 9 children with GFR <60 mL/min/1.73 m(2). Lack of independent validation cohort.
CONCLUSIONS
The novel BCM model predicts GFR with higher accuracy than previously published models. The weight model is almost as accurate as the BCM model and allows for GFR estimation without knowledge of BCM. However, endogenous methods are still not sufficiently accurate to replace exogenous markers when GFR must be determined with high accuracy.
背景
为了开发一种更准确的基于胱抑素 C 的肾小球滤过率(GFR)估算模型,我们假设纳入细胞外液量(BCM)将比现有的 GFR 参考方法更能提高 GFR 估算的准确性。
研究设计
诊断试验准确性研究。
设置和参与者
119 名儿童(平均年龄 8.8 岁;范围 2.3-14.9 岁)因 GFR 测定而转至 GFR 测定,方法为铬 51 乙基乙二胺四乙酸((51)Cr-EDTA)清除率(平均 GFR 98 mL/min/1.73 m2)。
索引试验
通过理论考虑得出的 2 种预测模型的 GFR 估计值,这些模型通过向前逐步变量选择得到证实:GFR(mL/min)=0.542×(BCM/SCysC)(0.40)×(身高×BSA/SCr)(0.65)和 GFR(mL/min)=0.426×(体重/SCysC)(0.39)×(身高×BSA/SCr)(0.64),其中 SCysC 是血清胱抑素 C 水平,BSA 是体表面积,SCr 是血清肌酐水平。使用随机子抽样交叉验证比较了这些模型与 7 种先前发表的预测模型的准确性和精度。为所有模型计算了局部常数和系数。为所有模型计算了均方根误差、R(2)和预测值在参考 GFR 的±10%和±30%范围内的百分比。基于交叉验证过程的 1000 次运行,计算了验证参数的中位数值以及第 2.5 和第 97.5 个四分位数。
参考测试
(51)Cr-EDTA 清除率测量的 GFR。
结果
BCM 模型预测 98%在参考 GFR 的±30%以内,66%在参考 GFR 的±10%以内,高于任何其他模型。体重模型预测 97.5%在参考 GFR 的±30%以内,62%在参考 GFR 的±10%以内。BCM 模型具有最高的 R(2)和最小的均方根误差。
局限性
仅包括 9 名 GFR <60 mL/min/1.73 m2 的儿童。缺乏独立的验证队列。
结论
新的 BCM 模型预测 GFR 的准确性高于先前发表的模型。体重模型与 BCM 模型一样准确,并且可以在不知道 BCM 的情况下进行 GFR 估计。然而,内源性方法在需要高精度确定 GFR 时,仍然不足以替代外源性标志物。
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