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Validation criteria for nucleic acid amplification techniques for bacterial infections

  • Gerd Döring , Klaus Unertl and Alexandra Heininger
Published/Copyright: April 21, 2008
Clinical Chemistry and Laboratory Medicine
From the journal Clinical Chemistry and Laboratory Medicine Volume 46 Issue 7

Abstract

Nucleic acid techniques (NATs), such as species-specific and universal polymerase chain reactions (PCRs), are finding ever wider use in the diagnosis of bacterial infection. However, although universal PCR assays, in particular, approach a type of modern Petri dish, they have a number of limitations which restrict their applicability. The sensitivity of universal PCR is lower than that of many species-specific PCRs, and the contamination of samples and PCR reagents with irrelevant DNA from various sources remains a problem. Thus, NATs in general and universal PCR assays in particular require careful validation to be of value for the diagnosis of infection. Validation includes sampling, DNA extraction/isolation, template amplification and visualisation of the results. Furthermore, it implies the establishment of measures of asepsis, the inclusion of positive and negative controls, techniques to optimise the release of DNA from bacterial cells, adequate repetition of the amplification reaction, and routine testing of reagent negative and inhibition controls. Finally, it entails the comparison of results obtained by NATs with those obtained by conventional microbiological methods and matching with clinical evidence of infection. Validation of NATs in clinical diagnosis remains an ongoing challenge. Because of these limitations, NATs can only serve as adjunct tools for the diagnosis of infection in selected cases; they cannot replace conventional culturing techniques.

Clin Chem Lab Med 2008;46:909–18.

Keywords: bacteraemia; bacterial infections; nucleic acid testing; polymerase chain reaction (PCR); validation
Corresponding author: Prof. Dr. Gerd Döring, Institut für Medizinische Mikrobiologie und Hygiene, Wilhelmstraße 31, 72074 Tübingen, Germany Phone: +49-7071-2982069, Fax: +49-7071-293011,
Published Online: 2008-04-21
Published in Print: 2008-07-01

©2008 by Walter de Gruyter Berlin New York

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https://doi.org/10.1515/CCLM.2008.152
Keywords for this article
bacteraemia; bacterial infections; nucleic acid testing; polymerase chain reaction (PCR); validation

Articles in the same Issue

  1. Editorial
  2. CCLM: Evolving to meet the needs of today's laboratory professionals and scientists
  3. Bacterial detection and blood product contamination
  4. Editorial: Rapid diagnostic tests to detect pathogenic microorganisms
  5. Reviews
  6. Rapid methods for diagnosis of bloodstream infections
  7. Validation criteria for nucleic acid amplification techniques for bacterial infections
  8. Incidence of bacterial transmission and transfusion reactions by blood components
  9. Strategies of bacteria screening in cellular blood components
  10. Methods for the detection of bacterial contamination in blood products
  11. Bacteria detection by flow cytometry
  12. Rapid screening by real-time 16S rDNA PCR for bacterial contamination of blood products
  13. Microbial safety of cell based medicinal products – what can we learn from cellular blood components?
  14. Genetics and Molecular Diagnostics
  15. Screening for genetic heterogeneity in the interferon sensitivity determining region of the hepatitis C virus genome by polymerase chain reaction with melting curve analysis
  16. Thiopurine S-methyltransferase (TPMT) pharmacogenetics: three new mutations and haplotype analysis in the Estonian population
  17. Genetic testing for adult-type hypolactasia in Italian families
  18. Improved real-time detection of the H63D and S65C mutations associated with hereditary hemochromatosis using a SimpleProbe assay format
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  21. Mediterranean diet and plasma concentration of inflammatory markers in old and very old subjects in the ZINCAGE population study
  22. Plasma interleukin-1β, -6, -8 and tumor necrosis factor-α as highly informative markers of pelvic inflammatory disease
  23. The effect of hypothyroidism, hyperthyroidism, and their treatment on parameters of oxidative stress and antioxidant status
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  26. A comparison of two different assays for determining S-100B in serum and urine
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  28. Validation and Outcome Studies
  29. An international comparability study to determine the sources of uncertainty associated with a non-competitive sandwich fluorescent ELISA
  30. A new general regression-based approach for method comparison studies
  31. Letters to the Editor
  32. Procalcitonin values in preeclamptic women are related to severity of disease
  33. Cross-reactivity between λ antiserum and fibrinogen: a double trap in interpretation of serum protein electrophoresis
  34. Erroneous result of white blood cell differential count in a patient with mixed hyperlipidemia
  35. Lack of association of GH T1663A variation and IGFBP3–202A/C polymorphism with risk of ischemic stroke in Chinese
  36. Erratum
  37. Quality planning and analytical quality requirements derived from biology
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