countfitteR: efficient selection of count distributions to assess DNA damage

DNA double-strand breaks can be counted as discrete foci by imaging techniques. In personalized medicine and pharmacology, the analysis of counting data is relevant for numerous applications, e.g., for cancer and aging research and the evaluation of drug efficacy. By default, it is assumed to follow...

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Published inAnnals of translational medicine Vol. 9; no. 7; p. 528
Main Authors Chilimoniuk, Jarosław, Gosiewska, Alicja, Słowik, Jadwiga, Weiss, Romano, Deckert, P Markus, Rödiger, Stefan, Burdukiewicz, Michał
Format Journal Article
LanguageEnglish
Published China AME Publishing Company 01.04.2021
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Summary:DNA double-strand breaks can be counted as discrete foci by imaging techniques. In personalized medicine and pharmacology, the analysis of counting data is relevant for numerous applications, e.g., for cancer and aging research and the evaluation of drug efficacy. By default, it is assumed to follow the Poisson distribution. This assumption, however, may lead to biased results and faulty conclusions in datasets with excess zero values (zero-inflation), a variance larger than the mean (overdispersion), or both. In such cases, the assumption of a Poisson distribution would skew the estimation of mean and variance, and other models like the negative binomial (NB), zero-inflated Poisson or zero-inflated NB distributions should be employed. The model chosen has an influence on the parameter estimation (mean value and confidence interval). Yet the choice of the suitable distribution model is not trivial. To support, simplify and objectify this process, we have developed the countfitteR software as an R package. We used a Bayesian approach for distribution model selection and the shiny web application framework for interactive data analysis. We show the application of our software based on examples of DNA double-strand break count data from phenotypic imaging by multiplex fluorescence microscopy. In analyzing numerous datasets of molecular pharmacological markers (phosphorylated histone H2AX and p53 binding protein), countfitteR demonstrated an equal or superior statistical performance compared to the usually employed two-step procedure, with an overall power of up to 98%. In addition, it still gave information in cases with no result at all from the two-step procedure. In our data sample we found that the NB distribution was the most frequent, with the Poisson distribution taking second place. countfitteR can perform an automated distribution model selection and thus support the data analysis and lead to objective statistically verifiable estimated values. Originally designed for the analysis of foci in biomedical image data, countfitteR can be used in a variety of areas where non-Poisson distributed counting data is prevalent.
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Contributions: (I) Conception and design: PM Deckert, S Rödiger, M Burdukiewicz; (II) Administrative support: S Rödiger, M Burdukiewicz; (III) Provision of study materials or patients: J Chilimoniuk, J Słowik, R Weiss, M Burdukiewicz; (IV) Collection and assembly of data: J Chilimoniuk, S Rödiger, R Weiss, A Gosiewska; (V) Data analysis and interpretation: J Chilimoniuk, A Gosiewska, J Słowik, S Rödiger, M Burdukiewicz; (VI) Manuscript writing: All authors; (VII) Final approval of manuscript: All authors.
ORCID: Jarosław Chilimoniuk, 0000-0001-5467-018X; Alicja Gosiewska, 0000-0001-6563-5742; Jadwiga Słowik, 0000-0003-3466-8933; Romano Weiss, 0000-0001-9569-5607; P. Markus Deckert, 0000-0001-9569-5607; Stefan Rödiger, 0000-0002-1441-6512.
ISSN:2305-5839
2305-5839
DOI:10.21037/atm-20-6363