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. 2023 Apr 6;20(7):5423.
doi: 10.3390/ijerph20075423.

Tuberculosis in Prisons: Importance of Considering the Clustering in the Analysis of Cross-Sectional Studies

Diana Marín  1 Yoav Keynan  2   3   4 Shrikant I Bangdiwala  5   6 Lucelly López  1 Zulma Vanessa Rueda  1   2
Affiliations

Tuberculosis in Prisons: Importance of Considering the Clustering in the Analysis of Cross-Sectional Studies

Diana Marín et al. Int J Environ Res Public Health. .

Abstract

The level of clustering and the adjustment by cluster-robust standard errors have yet to be widely considered and reported in cross-sectional studies of tuberculosis (TB) in prisons. In two cross-sectional studies of people deprived of liberty (PDL) in Medellin, we evaluated the impact of adjustment versus failure to adjust by clustering on prevalence ratio (PR) and 95% confidence interval (CI). We used log-binomial regression, Poisson regression, generalized estimating equations (GEE), and mixed-effects regression models. We used cluster-robust standard errors and bias-corrected standard errors. The odds ratio (OR) was 20% higher than the PR when the TB prevalence was >10% in at least one of the exposure factors. When there are three levels of clusters (city, prison, and courtyard), the cluster that had the strongest effect was the courtyard, and the 95% CI estimated with GEE and mixed-effect models were narrower than those estimated with Poisson and binomial models. Exposure factors lost their significance when we used bias-corrected standard errors due to the smaller number of clusters. Tuberculosis transmission dynamics in prisons dictate a strong cluster effect that needs to be considered and adjusted for. The omission of cluster structure and bias-corrected by the small number of clusters can lead to wrong inferences.

Keywords: GEE; clustered-data; cross-sectional studies; log-binomial regression; modified Poisson regression; multilevel analysis; tuberculosis.

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Conflict of interest statement

The authors declare no conflict of interest. The sponsors had no role in the design, execution, interpretation, or writing of the study.

Figures

Figure 1
Figure 1
Multilevel structure used to determine factors associated with TB disease in an analytical cross-sectional study. Legend: In Level 1, a black circle represents a person with TB disease and a white circle represents an individual without TB. In Level 2, the population density within each courtyard is represented by the number of dots; a greater number of dots indicates a higher population density inside the courtyard. People with a black rhombus illustrate the coding system for the outcome at different levels. In courtyard 1 of prison 2, the fact that two or more people have TB disease inside that courtyard can be attributed to shared conditions, such as population density and overcrowding, which facilitate the emergence of the disease (intra-cluster variation); these conditions may differ from the conditions of people who have TB disease in courtyard 3 (inter-cluster variation).
Figure 2
Figure 2
Diagram to select regression models that directly estimate prevalence ratio (PR) or odds ratio (OR) from independent or correlated data. Legend: In GEE, Li [31] recommends using the correction of Kauermann and Carroll (KC) when the number of clusters is less than ten and the coefficient of variation (CV) is less than 60%. When the CV is >60%, the use of the correction outlined by Fay and Graubard (FG) has been suggested. Leyrat and Li [30,31] recommend using the between–within (B-W) degrees of freedom approximation method in mixed models for binary or continuous outcomes and a low number of clusters (<30). In bold are the relevant Stata commands. Abbreviations: GEE, generalized estimation equations; KC, correction of Kauermann and Carroll; FG, correction Fay and Graubard; B-W, approximation of degrees of freedom between–within, according to the number of clusters and coefficient of variation.
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References

    1. Walter K.S., Martinez L., Arakaki-Sanchez D., Sequera V.G., Sanabria G.E., Cohen T., Ko A.I., García-Basteiro A.L., Rueda Z.V., López-Olarte R.A., et al. The Escalating Tuberculosis Crisis in Central and South American Prisons. Lancet. 2021;397:1591–1596. doi: 10.1016/S0140-6736(20)32578-2. - DOI - PMC - PubMed
    1. Cords O., Martinez L., Warren J.L., O’Marr J.M., Walter K.S., Cohen T., Zheng J., Ko A.I., Croda J., Andrews J.R. Incidence and Prevalence of Tuberculosis in Incarcerated Populations: A Systematic Review and Meta-Analysis. Lancet Public Health. 2021;6:e300–e308. doi: 10.1016/S2468-2667(21)00025-6. - DOI - PMC - PubMed
    1. Ranzani O.T., Pescarini J.M., Martinez L., Garcia-Basteiro A.L. Increasing Tuberculosis Burden in Latin America: An Alarming Trend for Global Control Efforts. BMJ Glob. Health. 2021;6:e005639. doi: 10.1136/bmjgh-2021-005639. - DOI - PMC - PubMed
    1. Dar M., Chorgoliani D., de Colombani P. Prisons and Health. WHO Regional Office for Europe; Copenhagen, Denmark: 2014. Chapter 8. TB Prevention and Control Care in Prisons; pp. 52–56.
    1. Rueda Z.V., Arroyave L., Marin D., López L., Keynan Y., Giraldo M.R., Pulido H., Arbeláez M.P. High Prevalence and Risk Factors Associated with Latent Tuberculous Infection in Two Colombian Prisons. Int. J. Tuberc. Lung Dis. 2014;18:1166–1171. doi: 10.5588/ijtld.14.0179. - DOI - PubMed

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