Abstract
In this study, we adapt a Cox-based model for recurrent events; the Prentice, Williams and Peterson Total -Time (PWP-TT) that has largely, been used under the assumption of non-informative censoring and evaluate it under an informative censoring setting. Empirical evaluation was undertaken with the aid of the semi-parametric framework for recurrent events suggested by Huang [1] and implemented in R Studio software. For validation we used data from a typical HIV care setting in Kenya. Of the three models under consideration; the standard Cox Model had gender hazard ratio (HR) of 0.66 (p-value=0.165), Andersen-Gill had HR 0.46 (with borderline p-value=0.054) and extended PWP TT had HR 0.22 (p-value=0.006). The PWP-TT model performed better as compared to other models under informative setting. In terms of risk factors under informative setting, LTFU due to stigma; gender [base=Male] had HR 0.544 (p-value =0.002), age [base is < 37] had HR 0.772 (p-value=0.008), ART regimen [base= First line] had HR 0.518 (p-value= 0.233) and differentiated care model (Base=not on DCM) had HR 0.77(p-value=0.036). In conclusion, in spite of the multiple interventions designed to address incidences of LTFU among HIV patients, within-person cases of LTFU are usually common and recurrent in nature, with the present likelihood of a person getting LTFU influenced by previous occurrences and therefore informative censoring should be checked
Highlights
Recurrent events occur in a variety of disciplines/areas of life such as recurrent opportunistic infections in HIV patients, episodes of asthmatic attacks
We extended PWP-TT model to cover informative censoring when making inferences on recurrent events under HIV retention setting
We have concentrated on the LTFU as recurrent events and fitted real data
Summary
Recurrent events occur in a variety of disciplines/areas of life such as recurrent opportunistic infections in HIV patients, episodes of asthmatic attacks. There is a wide range of research on the analysis of this data including the analysis of recurrence of sports injuries, multiple episodes of childhood diseases [4] and hospitalizations for chronic kidney kidney disease [5]. [7], Wei, Lin and Weissfeld (WLW) [8]; and Lee, Wei and Amato (LWA). These models are essentially extensions of the extensively used semi-parametric Cox Proportional Hazards Model, predominantly applied under the assumption of non-informative censoring. To the best of our knowledge, none of these models have been applied to researches with an underlying assumption of informative censoring. We hope this paper will significantly bridge the gap by evaluating the common recurrent event based models in situations where informative censoring exists
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