Statistical analysis of the hen's egg test for micronucleus induction (HET-MN assay)

Research output: Contribution to journalArticleResearchpeer review

Authors

  • Ludwig A. Hothorn
  • Kerstin Reisinger
  • Thorsten Wolf
  • Albrecht Poth
  • Dagmar Fieblinger
  • Manfred Liebsch
  • Ralph Pirow

Research Organisations

External Research Organisations

  • Henkel AG & Co. KGaA
  • Osnabrück University
  • Institute for Competence Contract Research – Roßdorf (ICCR-Roßdorf) GmbH
  • Federal Institute for Risk Assessment (BfR)
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Details

Original languageEnglish
Pages (from-to)68-78
Number of pages11
JournalMutation Research - Genetic Toxicology and Environmental Mutagenesis
Volume757
Issue number1
Early online date26 Jul 2013
Publication statusPublished - 18 Sept 2013

Abstract

The HET-MN assay (hen's egg test for micronucleus induction) is different from other in vitro genotoxicity assays in that it includes toxicologically important features such as absorption, distribution, metabolic activation, and excretion of the test compound. As a promising follow-up to complement existing in vitro test batteries for genotoxicity, the HET-MN is currently undergoing a formal validation. To optimize the validation, the present study describes a critical analysis of previously obtained HET-MN data to check the experimental design and to identify the most appropriate statistical procedure to evaluate treatment effects. Six statistical challenges (I–VI) of general relevance were identified, and remedies were provided which can be transferred to similarly designed test methods: a Williams-type trend test is proposed for overdispersed counts (II) by means of a square-root transformation which is robust for small sample sizes (I), variance heterogeneity (III), and possible downturn effects at high doses (IV). Due to near-to-zero or even zero-count data occurring in the negative control (V), a conditional comparison of the treatment groups against the mean of the historical controls (VI) instead of the concurrent control was proposed, which is in accordance with US-FDA recommendations. For the modified Williams-type tests, the power can be estimated depending on the magnitude and shape of the trend, the number of dose groups, and the magnitude of the MN counts in the negative control. The experimental design used previously (i.e. six eggs per dose group, scoring of 1000 cells per egg) was confirmed. The proposed approaches are easily available in the statistical computing environment R, and the corresponding R-codes are provided.

Keywords

    HET-MN assay, Historical control, Williams-trend test

ASJC Scopus subject areas

Cite this

Statistical analysis of the hen's egg test for micronucleus induction (HET-MN assay). / Hothorn, Ludwig A.; Reisinger, Kerstin; Wolf, Thorsten et al.
In: Mutation Research - Genetic Toxicology and Environmental Mutagenesis, Vol. 757, No. 1, 18.09.2013, p. 68-78.

Research output: Contribution to journalArticleResearchpeer review

Hothorn LA, Reisinger K, Wolf T, Poth A, Fieblinger D, Liebsch M et al. Statistical analysis of the hen's egg test for micronucleus induction (HET-MN assay). Mutation Research - Genetic Toxicology and Environmental Mutagenesis. 2013 Sept 18;757(1):68-78. Epub 2013 Jul 26. doi: 10.1016/j.mrgentox.2013.04.023
Hothorn, Ludwig A. ; Reisinger, Kerstin ; Wolf, Thorsten et al. / Statistical analysis of the hen's egg test for micronucleus induction (HET-MN assay). In: Mutation Research - Genetic Toxicology and Environmental Mutagenesis. 2013 ; Vol. 757, No. 1. pp. 68-78.
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abstract = "The HET-MN assay (hen's egg test for micronucleus induction) is different from other in vitro genotoxicity assays in that it includes toxicologically important features such as absorption, distribution, metabolic activation, and excretion of the test compound. As a promising follow-up to complement existing in vitro test batteries for genotoxicity, the HET-MN is currently undergoing a formal validation. To optimize the validation, the present study describes a critical analysis of previously obtained HET-MN data to check the experimental design and to identify the most appropriate statistical procedure to evaluate treatment effects. Six statistical challenges (I–VI) of general relevance were identified, and remedies were provided which can be transferred to similarly designed test methods: a Williams-type trend test is proposed for overdispersed counts (II) by means of a square-root transformation which is robust for small sample sizes (I), variance heterogeneity (III), and possible downturn effects at high doses (IV). Due to near-to-zero or even zero-count data occurring in the negative control (V), a conditional comparison of the treatment groups against the mean of the historical controls (VI) instead of the concurrent control was proposed, which is in accordance with US-FDA recommendations. For the modified Williams-type tests, the power can be estimated depending on the magnitude and shape of the trend, the number of dose groups, and the magnitude of the MN counts in the negative control. The experimental design used previously (i.e. six eggs per dose group, scoring of 1000 cells per egg) was confirmed. The proposed approaches are easily available in the statistical computing environment R, and the corresponding R-codes are provided.",
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AU - Hothorn, Ludwig A.

AU - Reisinger, Kerstin

AU - Wolf, Thorsten

AU - Poth, Albrecht

AU - Fieblinger, Dagmar

AU - Liebsch, Manfred

AU - Pirow, Ralph

N1 - Funding Information: The funding of the present study by the German Federal Institute for Risk Assessment (BfR) is greatfully acknowledged. The experimental data used in this study originate from a validation study, which is funded by the German Federal Ministry for Research and Technology (BMBF Funding Priority “Replacement methods of animal experiments”, funding code: 0315803). The authors are grateful to two anonymous referees for the helpful comments which considerably improved the article. Appendix A

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