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Detection of serum free light chains: the problem with antigen excess

  • Markus Bosmann , Jürgen Kößler , Herbert Stolz , Ulrich Walter , Stefan Knop and Udo Steigerwald
Published/Copyright: July 14, 2010
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Clinical Chemistry and Laboratory Medicine
From the journal Clinical Chemistry and Laboratory Medicine Volume 48 Issue 10

Abstract

Background: In recent years, measurement of serum immunoglobulin free light chains (FLCs) has greatly facilitated diagnosis and monitoring of various plasma cells dyscrasias, including multiple myeloma. Detection of FLCs by nephelometry depends on the formation of immune complexes. However, it is known that if the antigen (free light chain) is present in great excess, non-precipitating immune complexes can be formed and be detected poorly. This may lead to inaccurate test results.

Methods: Serum samples from 91 patients were subjected prospectively to the detection of free κ and λ light chains by automated nephelometry. A standard dilution of 1:100 was paralleled by a 1:2000 dilution. In addition, samples with values below the effective range (1:100) were subjected to a 1:20 dilution in order to calculate the κ/λ ratio.

Results: Here, we report the incidence of antigen excess in a cohort of 91 patients with a high proportion of monoclonal abnormalities. A standard dilution (1:100) of free light κ chains from a patient with monoclonal immunoglobulin A κ gammopathy were missed repeatedly. In a second patient (with myeloproliferative disease and an apparent incidental FLC monoclonal gammopathy of undetermined significance) free λ chains were also substantially underestimated in the standard dilution. Hence, the incidence of erroneously low test results due to antigen excess was 2.20%.

Conclusions: We found a significantly higher incidence of falsely low test results due to antigen excess than reported previously. Antigen excess may result in erroneous interpretations in sera subjected to nephelometric analysis. Therefore, clinical decisions should not be based solely on a single assay, especially if FLC testing includes only one dilution of the serum sample. Instead, several parallel dilutions should be recommended for screening of patients.

Clin Chem Lab Med 2010;48:1419–22.

Keywords: antigen excess; hook effect; multiple myeloma; nephelometry; serum free light chains
Corresponding author: Markus Bosmann, MD, Department of Pathology, University of Michigan Medical School, Room 7526, MSRBI, Box 5602, 1150 West Medical Center Drive, Ann Arbor, MI 48109-5602, USA Phone: +734 647 2929, Fax: +734 764 4308,
Received: 2010-2-4
Accepted: 2010-4-21
Published Online: 2010-07-14
Published in Print: 2010-10-01

©2010 by Walter de Gruyter Berlin New York

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https://doi.org/10.1515/CCLM.2010.283
Keywords for this article
antigen excess; hook effect; multiple myeloma; nephelometry; serum free light chains

Articles in the same Issue

  1. Editorial
  2. Darwinian evolution or regression? The fate of laboratory professionals
  3. Review
  4. Automated reticulocyte counting: state of the art and clinical applications in the evaluation of erythropoiesis
  5. Minireview
  6. Laboratory diagnostics in acute poisoning: critical overview
  7. Opinion Papers
  8. On the origins of physicians: Darwinian or Lamarckian evolution?
  9. Observed, unknown distributions of clinical chemical quantities should be considered to be log-normal: a proposal
  10. Guidelines and Recommendations
  11. Development and description of GETT: a Genetic testing Evidence Tracking Tool
  12. Genetics and Molecular Diagnostics
  13. DNA sequencing errors in molecular diagnostics of filamin myopathy
  14. High resolution melting for the identification of mutations in the iron responsive element of the ferritin light chain gene
  15. General Clinical Chemistry and Laboratory Medicine
  16. Detection of serum free light chains: the problem with antigen excess
  17. Hepcidin concentrations and iron homeostasis in preeclampsia
  18. Automated assay for non-transferrin-bound iron in serum samples
  19. A simple liquid chromatography-tandem mass spectrometry method for urinary free cortisol analysis: suitable for routine purpose
  20. Evaluation of a multiplex assay for adipokine concentrations in obese children
  21. The use of serial patient blood gas, electrolyte and glucose results to derive biologic variation: a new tool to assess the acceptability of intensive care unit testing
  22. Point-of-care determination of neonatal bilirubin with the blood gas analyzer RapidLab 1265
  23. The effect of pre-analytical variables on light transmittance aggregometry in citrated platelet-rich plasma from healthy subjects
  24. Cancer Diagnostics
  25. Clinical significance of serum macrophage-colony stimulating factor (M-CSF) in esophageal cancer patients and its comparison with classical tumor markers
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  27. Serum soluble tumour necrosis factor receptor type I concentrations independently predict prognosis in patients with breast cancer
  28. Variations in systemic biomarkers of oxidative/nitrosative stress and DNA damage before and during the consequent two cycles of chemotherapy in breast cancer patients
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  30. Infectious Diseases
  31. Identification and evaluation of a new nucleic acid amplification test target for specific detection of Mycobacterium tuberculosis
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  33. Liquid chromatography-tandem mass spectrometry method for simultaneous quantification of four triazole antifungal agents in human plasma
  34. Evaluation of two sirolimus assays using the ARCHITECT-i1000® CMIA or RxL® ACMIA methods in comparison with the IMx® MEIA method
  35. Widespread use of point-of-care testing is irreconcilable with the present-day quest for safety
  36. Congress Abstracts
  37. 3rd Annual Congress of the Austrian Society for Laboratory Medicine and Clinical Chemistry Salzburg, Austria, 27-30 October 2010
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