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dc.contributor.authorMalatesta, S.
dc.contributor.authorWeir, I.R.
dc.contributor.authorWeber, S.E.
dc.contributor.authorBouton, T.C.
dc.contributor.authorCarney, T.
dc.contributor.authorTheron, D.
dc.contributor.authorMyers-Franchi, Bronwyn
dc.contributor.authorHorsburgh, C.R.
dc.contributor.authorWarren, R.M.
dc.contributor.authorJacobson, K.R.
dc.contributor.authorWhite, L.F.
dc.identifier.citationMalatesta, S. and Weir, I.R. and Weber, S.E. and Bouton, T.C. and Carney, T. and Theron, D. and Myers, B. et al. 2022. Methods for handling missing data in serially sampled sputum specimens for mycobacterial culture conversion calculation. BMC Medical Research Methodology. 22 (1): 297.

Background: The occurrence and timing of mycobacterial culture conversion is used as a proxy for tuberculosis treatment response. When researchers serially sample sputum during tuberculosis studies, contamination or missed visits leads to missing data points. Traditionally, this is managed by ignoring missing data or simple carry-forward techniques. Statistically advanced multiple imputation methods potentially decrease bias and retain sample size and statistical power. Methods: We analyzed data from 261 participants who provided weekly sputa for the first 12 weeks of tuberculosis treatment. We compared methods for handling missing data points in a longitudinal study with a time-to-event outcome. Our primary outcome was time to culture conversion, defined as two consecutive weeks with no Mycobacterium tuberculosis growth. Methods used to address missing data included: 1) available case analysis, 2) last observation carried forward, and 3) multiple imputation by fully conditional specification. For each method, we calculated the proportion culture converted and used survival analysis to estimate Kaplan-Meier curves, hazard ratios, and restricted mean survival times. We compared methods based on point estimates, confidence intervals, and conclusions to specific research questions. Results: The three missing data methods lead to differences in the number of participants achieving conversion; 78 (32.8%) participants converted with available case analysis, 154 (64.7%) converted with last observation carried forward, and 184 (77.1%) converted with multiple imputation. Multiple imputation resulted in smaller point estimates than simple approaches with narrower confidence intervals. The adjusted hazard ratio for smear negative participants was 3.4 (95% CI 2.3, 5.1) using multiple imputation compared to 5.2 (95% CI 3.1, 8.7) using last observation carried forward and 5.0 (95% CI 2.4, 10.6) using available case analysis. Conclusion: We showed that accounting for missing sputum data through multiple imputation, a statistically valid approach under certain conditions, can lead to different conclusions than naïve methods. Careful consideration for how to handle missing data must be taken and be pre-specified prior to analysis. We used data from a TB study to demonstrate these concepts, however, the methods we described are broadly applicable to longitudinal missing data. We provide valuable statistical guidance and code for researchers to appropriately handle missing data in longitudinal studies.

dc.subjectCulture conversion
dc.subjectLongitudinal missing data
dc.subjectMultiple imputation
dc.subjectSurvival analysis
dc.subjectLongitudinal Studies
dc.subjectData Interpretation, Statistical
dc.subjectResearch Design
dc.titleMethods for handling missing data in serially sampled sputum specimens for mycobacterial culture conversion calculation
dc.typeJournal Article
dcterms.source.titleBMC Medical Research Methodology
curtin.departmentEnAble Institute
curtin.accessStatusOpen access
curtin.facultyFaculty of Health Sciences
curtin.contributor.scopusauthoridMyers-Franchi, Bronwyn [7202684194]

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