期刊
CLINICAL LABORATORY
卷 63, 期 3, 页码 551-559出版社
CLIN LAB PUBL
DOI: 10.7754/Clin.Lab.2016.160930
关键词
multiple sclerosis; biomarker; isoelectrofocusing; oligoclonal band; free light chain kappa
Background: Isoelectrofocusing (IEF) to detect oligoclonal bands (OBCs) in cerebrospinal fluid (CSF) is the gold standard approach for evaluating intrathecal immunoglobulin synthesis in multiple sclerosis (MS) but the kappa free light chain index (KFLCi) is emerging as an alternative marker, and the combined/sequential uses of IEF and KFLCi have never been challenged. Methods: CSF and serum albumin, IgG, kFLC and IFLC were measured by nephelometry; albumin, IgG and kFLC quotients as well as Link and kFLC indexes were calculated; OCBs were evaluated by immunofixation. A total of 150 consecutive patients: 48 with MS, 32 with other neurological inflammatory diseases (NID), 62 with neurological non-inflammatory diseases (NNID), and 8 without any detectable neurological disease (NND) were investigated. Results: Both IEF and KFLCi showed a similar accuracy as diagnostic tests for multiple sclerosis. The high sensitivity and specificity associated with the lower cost of KFLCi suggested to use this test first, followed by IEF as a confirmative procedure. The sequential use of IEF and KFLCi showed high diagnostic efficiency with cost reduction of 43 and 21%, if compared to the contemporary use of both tests, or the unique use of IEF in all patients. Conclusions: The sequential testing using KFLCi followed by IEF in MS represents an optimal procedure with accurate performance and lower costs.
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