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Modeling bivariate survival data using shared inverse Gaussian frailty model

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  • David D. Hanagal
  • Susmita M. Bhambure

Abstract

The shared frailty models are often used to model heterogeneity in survival analysis. The most common shared frailty model is a model in which hazard function is a product of a random factor (frailty) and the baseline hazard function which is common to all individuals. There are certain assumptions about the baseline distribution and the distribution of frailty. In this paper, we consider inverse Gaussian distribution as frailty distribution and three different baseline distributions, namely the generalized Rayleigh, the weighted exponential, and the extended Weibull distributions. With these three baseline distributions, we propose three different inverse Gaussian shared frailty models. We also compare these models with the models where the above-mentioned distributions are considered without frailty. We develop the Bayesian estimation procedure using Markov Chain Monte Carlo (MCMC) technique to estimate the parameters involved in these models. We present a simulation study to compare the true values of the parameters with the estimated values. A search of the literature suggests that currently no work has been done for these three baseline distributions with a shared inverse Gaussian frailty so far. We also apply these three models by using a real-life bivariate survival data set of McGilchrist and Aisbett (1991) related to the kidney infection data and a better model is suggested for the data using the Bayesian model selection criteria.

Suggested Citation

  • David D. Hanagal & Susmita M. Bhambure, 2016. "Modeling bivariate survival data using shared inverse Gaussian frailty model," Communications in Statistics - Theory and Methods, Taylor & Francis Journals, vol. 45(17), pages 4969-4987, September.
  • Handle: RePEc:taf:lstaxx:v:45:y:2016:i:17:p:4969-4987
    DOI: 10.1080/03610926.2014.901380
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    Cited by:

    1. David D. Hanagal, 2021. "RETRACTED ARTICLE: Positive Stable Shared Frailty Models Based on Additive Hazards," Statistics in Biosciences, Springer;International Chinese Statistical Association, vol. 13(3), pages 431-453, December.

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