Bayesian methods have received increasing attention in medical research, where sensitivity analysis of prior distributions is essential. Such analyses typically require the evaluation of the posterior distribution of a parameter under multiple alternative prior settings. When the posterior distribution of the parameter of interest cannot be derived analytically, the standard approach is to re-fit the Markov chain Monte Carlo (MCMC) algorithm for each setting, which incurs substantial computational costs. This issue is particularly relevant in tipping-point analysis, in which the posterior must be evaluated across gradually changing degrees of borrowing. Sampling importance resampling (SIR) provides an efficient alternative by approximating posterior samples under new settings without MCMC re-fitting. However, to our knowledge , its utility has not been evaluated in scenarios involving repeated MCMC -- such as tipping-point analysis -- or in the application of complex Bayesian models. In this study, we re-evaluate the utility of SIR through two case studies: one involving tipping-point analysis under external data borrowing and another involving sensitivity analysis for a nonparametric Bayesian model in meta-analysis. These examples demonstrate that SIR can significantly reduce computational costs while maintaining a reasonable approximation accuracy.

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