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对溶血血清样本中神经元特异性烯醇化酶(NSE)测量进行个体化校正。

Individualized correction of neuron-specific enolase (NSE) measurement in hemolyzed serum samples.

机构信息

Department of Laboratory Medicine and Pathology, Mayo Clinic, 200 First Street SW, Rochester, MN 55905, United States.

出版信息

Clin Chim Acta. 2013 Sep 23;424:216-21. doi: 10.1016/j.cca.2013.06.009. Epub 2013 Jun 15.

DOI:10.1016/j.cca.2013.06.009
PMID:23778024
Abstract

BACKGROUND

Accuracy of serum neuron-specific enolase (NSE) measurement is paramount, particularly in the context of neurological outcome prognostication. However, NSE measurements are compromised by even slight hemolysis, as it is abundant in red blood cells (RBCs). We derived and validated an individualized hemolysis correction equation in an attempt to reduce the current rejection rate of 14% at our institution.

METHODS

Intracellular NSE was measured in RBC lysates to determine concentration variability. A correction equation was derived, accounting for both RBC-derived NSE false-elevation and hemoglobin-derived signal quenching. The performance of this individualized correction was evaluated in intentionally hemolyzed samples and accuracy was compared to a generalized correction.

RESULTS

Significant inter-individual variability of RBC NSE was observed, with an almost two-fold range (15.7-28.5 ng NSE/mg Hb, p<0.001); intra-individual variability was insignificant. The individualized hemolysis correction equation derived: NSE(corr)=NSE(meas)-(Hb(serum))(NSE(RBCs/Hb))+0.0844(Hb(serum))+1.1 corrected 95% of the intentionally hemolyzed samples to within ±5 ng/ml of corresponding baseline NSE concentrations, compared to 74% using a generalized formula.

CONCLUSIONS

The individualized hemolysis correction provides increased accuracy in the estimation of true serum NSE concentrations for hemolyzed samples, compared to a generalized approach, by accounting for inter-individual RBC NSE variability. Incorporating this correction should reduce sample rejection rates and overall health care costs.

摘要

背景

血清神经元特异性烯醇化酶(NSE)测量的准确性至关重要,尤其是在预测神经预后方面。然而,即使是轻微的溶血也会影响 NSE 的测量结果,因为 NSE 在红细胞(RBC)中含量丰富。我们推导出并验证了一种个体化的溶血校正方程,试图降低我们机构目前 14%的拒收率。

方法

通过测量 RBC 裂解物中的细胞内 NSE 来确定浓度变异性。推导出一个校正方程,同时考虑 RBC 衍生的 NSE 假性升高和血红蛋白衍生的信号淬灭。在故意溶血的样本中评估了这种个体化校正的性能,并将准确性与广义校正进行了比较。

结果

观察到 RBC NSE 的个体间变异性显著,范围几乎相差两倍(15.7-28.5ng NSE/mg Hb,p<0.001);个体内变异性不显著。推导出的个体化溶血校正方程为:NSE(corr)=NSE(meas)-(Hb(serum))(NSE(RBCs/Hb))+0.0844(Hb(serum))+1.1,可将 95%的故意溶血样本校正至与相应基线 NSE 浓度的±5ng/ml 范围内,而使用广义公式则可校正 74%的样本。

结论

与广义方法相比,个体化溶血校正通过考虑个体间 RBC NSE 的变异性,为溶血样本中真实血清 NSE 浓度的估计提供了更高的准确性。纳入这种校正应降低样本拒收率和总体医疗成本。

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