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Stability of ten serum tumor markers after one year of storage at −18°C

  • Etienne Mondésert EMAIL logo , David-Paul De Brauwere , Serge Lumbroso , Jean-Paul Brouillet and Candice Bancal
Published/Copyright: February 7, 2024
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Clinical Chemistry and Laboratory Medicine (CCLM)
From the journal Clinical Chemistry and Laboratory Medicine (CCLM) Volume 62 Issue 8

Abstract

Objectives

The storage of serum tumor markers (STM) at −18 °C for one year has been a legal requirement in France since 1999, but has been abolished in 2022. This raises the question of the relevance of maintaining these biobanks in terms of conditions of storage. These should only be implemented after validation; in order to maintain the integrity of the biological sample and must be controlled over time according to the laboratoryʼs procedures. The aim of the study was to assess the suitability of storing 10 STMs by evaluating their stability after one year of storage at −18 °C.

Methods

A new immuno-enzymatic assay (A+1) was conducted on samples that had been stored at −18 °C for one year after an initial assay (A) of one of the following STMs: carcino-embryonic antigen (CEA), alpha-fetoprotein (AFP), carbohydrate antigen 125 (CA125), carbohydrate antigen 15-3 (CA15-3), carbohydrate antigen 19-9 (CA19-9), total (TPSA), and free (FPSA) prostate-specific antigen, calcitonin (CT), thyroglobulin (TG), and neuro-specific enolase (NSE). The results were confronted to four different permissible error sources.

Results

In total, 1148 A+1 assays were performed. A strong correlation between A+1 and A values was found for all analytes, but with a statistically significant reduction in the mean A+1 concentration compared to the mean A concentration in 7/10 STMs. The bias induced by conservation seems to be technically unsustainable if we rely on the repositories closest to the current analytical performances.

Conclusions

These results support the discontinuation of mandatory STM biobank storage at −18 °C, which requires considerable technical time and organizational effort.

Keywords: serum tumor markers; analyte stability; storage; preanalytical
Corresponding author: Dr. Etienne Mondésert, Service de Biochimie, Centre Hospitalier Universitaire de Montpellier, Montpellier, France, Phone: + 33 4 67 33 83 46, Fax: +33 4 67 33 69 70, E-mail:

Acknowledgments

We want to sincerely thank the technical staff, especially Ms. Laetitia Lillamand, for assisting and contributing to this study.

  1. Research ethics: Not applicable.

  2. Informed consent: Not applicable.

  3. Author contributions: All authors have accepted responsibility for the entire content of this manuscript and approved its submission.

  4. Competing interests: Authors state no conflict of interest.

  5. Research funding: None declared.

  6. Data availability: The raw data can be obtained on request from the corresponding author.

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Received: 2023-11-17
Accepted: 2024-01-28
Published Online: 2024-02-07
Published in Print: 2024-07-26

© 2024 Walter de Gruyter GmbH, Berlin/Boston

Articles in the same Issue

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  2. Editorial
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  4. Opinion Papers
  5. What the Milan conference has taught us about analytical performance specification model definition and measurand allocation
  6. The role of analytical performance specifications in international guidelines and standards dealing with metrological traceability in laboratory medicine
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  8. Outcome-based analytical performance specifications: current status and future challenges
  9. Analytical performance specifications based on biological variation data – considerations, strengths and limitations
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  14. Issues in assessing analytical performance specifications in healthcare systems assembling multiple laboratories and measuring systems
  15. Applying the Milan models to setting analytical performance specifications – considering all the information
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  35. AWMF statement on medical services in laboratory diagnostics and pathology with regard to the IVDR
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https://doi.org/10.1515/cclm-2023-1312
Keywords for this article
serum tumor markers; analyte stability; storage; preanalytical

Articles in the same Issue

  1. Frontmatter
  2. Editorial
  3. Analytical performance specifications – moving from models to practical recommendations
  4. Opinion Papers
  5. What the Milan conference has taught us about analytical performance specification model definition and measurand allocation
  6. The role of analytical performance specifications in international guidelines and standards dealing with metrological traceability in laboratory medicine
  7. How clinical laboratories select and use Analytical Performance Specifications (APS) in Italy
  8. Outcome-based analytical performance specifications: current status and future challenges
  9. Analytical performance specifications based on biological variation data – considerations, strengths and limitations
  10. State-of-the-art model for derivation of analytical performance specifications: how to define the highest level of analytical performance technically achievable
  11. Analytical performance specifications for combined uncertainty budget in the implementation of metrological traceability
  12. When bias becomes part of imprecision: how to use analytical performance specifications to determine acceptability of lot-lot variation and other sources of possibly unacceptable bias
  13. Using analytical performance specifications in a medical laboratory
  14. Issues in assessing analytical performance specifications in healthcare systems assembling multiple laboratories and measuring systems
  15. Applying the Milan models to setting analytical performance specifications – considering all the information
  16. Guidelines and Recommendations
  17. Recommendations for blood sampling in emergency departments from the European Society for Emergency Medicine (EUSEM), European Society for Emergency Nursing (EuSEN), and European Federation of Clinical Chemistry and Laboratory Medicine (EFLM) Working Group for the Preanalytical Phase. Executive summary
  18. General Clinical Chemistry and Laboratory Medicine
  19. Assessment of accuracy of laboratory testing results, relative to peer group consensus values in external quality control, by bivariate z-score analysis: the example of D-Dimer
  20. The stability of 65 biochemistry analytes in plasma, serum, and whole blood
  21. Assessment of the 2023 European Kidney Function Consortium (EKFC) equations in a Chinese adult population
  22. In vitro, in vivo metabolism and quantification of the novel synthetic opioid N-piperidinyl etonitazene (etonitazepipne)
  23. Quantification of blood glial fibrillary acidic protein using a second-generation microfluidic assay. Validation and comparative analysis with two established assays
  24. Association of prehospital lactate levels with base excess in various emergencies – a retrospective study
  25. Reference Values and Biological Variations
  26. Stability of ten serum tumor markers after one year of storage at −18°C
  27. Variations in tumor growth, intra-individual biological variability, and the interpretation of changes
  28. Cancer Diagnostics
  29. N-linked glycosylation of the M-protein variable region: glycoproteogenomics reveals a new layer of personalized complexity in multiple myeloma
  30. Cardiovascular Diseases
  31. Reference intervals for high sensitivity cardiac troponin I and N-terminal pro-B-type natriuretic peptide in children and adolescents on the Siemens Atellica
  32. Infectious Diseases
  33. Fetal chronic hypoxia does not affect urinary presepsin levels in newborns at birth
  34. Letters to the Editor
  35. AWMF statement on medical services in laboratory diagnostics and pathology with regard to the IVDR
  36. An outline of measurement uncertainty of total protein in urine estimated according to the ISO Technical Specification 20914
  37. Early diagnosis of severe illness in an outpatient – the Sysmex XN’s neutrophil reactivity parameter
  38. Analytical and diagnostic performance of Theradiag i-Tracker assays on IDS-iSYS for infliximab and adalimumab therapeutic drug monitoring
  39. Improving the diagnosis of AATD with aid of serum protein electrophoresis: a prospective, multicentre, validation study
  40. Cerebrospinal fluid kappa free light chains in patients with tumefactive demyelination
  41. Diagnostic value of quantitative chemiluminescence immunoassay for anti-gp210 and anti-sp100 antibodies in primary biliary cholangitis
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