多发性硬化症的诊断方法：优化鞘内免疫球蛋白合成的算法

Diagnostic approach for multiple sclerosis: optimizing algorithms for intrathecal synthesis of immunoglobulins.

作者信息

Ferriz Jorge, Guallart Cristina, Timoneda Pilar, Fandos Marta, Lopez-Arqueros Javier, Sierra-Rivera Antonio, Garcia-Hita Marta, Marcaida Goitzane, Carcelén-Gadea Maria

机构信息

Department of Clinical Biochemistry, General University Hospital Consortium of Valencia, Valencia, Spain.

Department of Neurology, General University Hospital Consortium of Valencia, Valencia, Spain.

出版信息

Lab Med. 2025 May 9;56(3):291-296. doi: 10.1093/labmed/lmae101.

DOI:10.1093/labmed/lmae101

PMID:39703160

Abstract

BACKGROUND

The kappa-free light chain (κFLC) index has shown its value in detecting the intrathecal synthesis of immunoglobulins. We aimed to evaluate the diagnostic performance of the κFLC index for multiple sclerosis (MS) and compare different algorithms proposed in the literature to optimize its use for our population.

METHODS

Based on the results of the oligoclonal bands (OCBs) and κFLC index of 255 patients with suspected MS different optimization strategies were evaluated, for which the optimal κFLC index cut-off thresholds were calculated.

RESULTS

The best diagnostic performance was achieved by using a reflexive algorithm, in which OCBs are only performed according to the κFLC index result. With a single cut-off (κFLC index = 7.9), an accuracy of 92.2% was obtained (sensitivity = 92.4%, specificity = 92%) with an OCB performance rate of 58.1%. When applying 2 cut-offs (κFLC index = 4.2 and 13), the accuracy was the same (92.2%, sensitivity = 89.6%, specificity = 94%), but the OCB performance rate dropped to 29.4%.

CONCLUSION

The 2-step strategy proposed with κFLC determination followed by OCB analysis in the borderline cases appears to be the most suitable solution, further optimized by adjusting the decision thresholds to 4.2 < κFLC index < 13, resulting in high accuracy and the most saving of OCBs.

摘要

背景

游离κ轻链（κFLC）指数已显示出其在检测鞘内免疫球蛋白合成中的价值。我们旨在评估κFLC指数对多发性硬化症（MS）的诊断性能，并比较文献中提出的不同算法，以优化其在我们人群中的应用。

方法

基于255例疑似MS患者的寡克隆带（OCB）和κFLC指数结果，评估了不同的优化策略，并计算了最佳κFLC指数截断阈值。

结果

采用反射算法可获得最佳诊断性能，即仅根据κFLC指数结果进行OCB检测。采用单一截断值（κFLC指数 = 7.9）时，准确率为92.2%（敏感性 = 92.4%，特异性 = 92%），OCB检测率为58.1%。应用两个截断值（κFLC指数 = 4.2和13）时，准确率相同（92.2%，敏感性 = 89.6%，特异性 = 94%），但OCB检测率降至29.4%。

结论

先测定κFLC，然后对临界病例进行OCB分析的两步策略似乎是最合适的解决方案，通过将决策阈值调整为4.2 < κFLC指数 < 13可进一步优化，从而实现高准确率并最节省OCB检测。

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多发性硬化症的诊断方法：优化鞘内免疫球蛋白合成的算法

Diagnostic approach for multiple sclerosis: optimizing algorithms for intrathecal synthesis of immunoglobulins.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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