pwe.leap: Posterior of latent exchangeability prior (LEAP)
In hdbayes: Bayesian Analysis of Generalized Linear Models with Historical Data

pwe.leap

R Documentation

Posterior of latent exchangeability prior (LEAP)

Description

Sample from the posterior distribution of a piecewise exponential (PWE) model (i.e., a proportional hazards model with a piecewise constant baseline hazard) using the latent exchangeability prior (LEAP) by Alt et al. (2024) doi:10.1093/biomtc/ujae083.

Usage

pwe.leap(
  formula,
  data.list,
  breaks,
  K = 2,
  prob.conc = NULL,
  gamma.lower = 0,
  gamma.upper = 1,
  beta.mean = NULL,
  beta.sd = NULL,
  base.hazard.mean = NULL,
  base.hazard.sd = NULL,
  get.loglik = FALSE,
  iter_warmup = 1000,
  iter_sampling = 1000,
  chains = 4,
  ...
)

Arguments

`formula`	a two-sided formula giving the relationship between the response variable and covariates. The response is a survival object as returned by the `survival::Surv(time, event)` function, where event is a binary indicator for event (0 = no event, 1 = event has occurred). The type of censoring is assumed to be right-censoring.
`data.list`	a list of `data.frame`s. The first element in the list is the current data, and the rest are the historical data sets. For fitting piecewise exponential (PWE) models, all historical data sets will be stacked into one historical data set.
`breaks`	a numeric vector specifying the time points that define the boundaries of the piecewise intervals. The values should be in ascending order, with the final value being greater than or equal to the maximum observed time.
`K`	the desired number of classes to identify. Defaults to 2.
`prob.conc`	a scalar or a vector of length `K` giving the concentration parameters for Dirichlet prior. If length == 2, a `Beta(prob.conc[1], prob.conc[2])` prior is used. If a scalar is provided, `prob.conc` will be a vector of repeated elements of the given scalar. Defaults to a vector of 1s.
`gamma.lower`	a scalar giving the lower bound for probability of subjects in historical data being exchangeable with subjects in current data. Defaults to 0.
`gamma.upper`	a scalar giving the upper bound for probability of subjects in historical data being exchangeable with subjects in current data. Defaults to 1.
`beta.mean`	a scalar or a vector whose dimension is equal to the number of regression coefficients giving the mean parameters for the initial prior on regression coefficients. If a scalar is provided, `beta.mean` will be a vector of repeated elements of the given scalar. Defaults to a vector of 0s.
`beta.sd`	a scalar or a vector whose dimension is equal to the number of regression coefficients giving the sd parameters for the initial prior on regression coefficients. If a scalar is provided, same as for `beta.mean`. Defaults to a vector of 10s.
`base.hazard.mean`	a scalar or a vector whose dimension is equal to the number of intervals giving the location parameters for the half-normal priors on the baseline hazards of the PWE model. If a scalar is provided, same as for `beta.mean`. Defaults to 0.
`base.hazard.sd`	a scalar or a vector whose dimension is equal to the number of intervals giving the scale parameters for the half-normal priors on the baseline hazards of the PWE model. If a scalar is provided, same as for `beta.mean`. Defaults to 10.
`get.loglik`	whether to generate log-likelihood matrix. Defaults to FALSE.
`iter_warmup`	number of warmup iterations to run per chain. Defaults to 1000. See the argument `iter_warmup` in `sample()` method in cmdstanr package.
`iter_sampling`	number of post-warmup iterations to run per chain. Defaults to 1000. See the argument `iter_sampling` in `sample()` method in cmdstanr package.
`chains`	number of Markov chains to run. Defaults to 4. See the argument `chains` in `sample()` method in cmdstanr package.
`...`	arguments passed to `sample()` method in cmdstanr package (e.g., `seed`, `refresh`, `init`).

Details

The latent exchangeability prior (LEAP) discounts the historical data by identifying the most relevant individuals from the historical data. It is equivalent to a prior induced by the posterior of a finite mixture model for the historical data set.

Value

The function returns an object of class draws_df containing posterior samples. The object has two attributes:

data: a list of variables specified in the data block of the Stan program
model: a character string indicating the model name

References

Alt, E. M., Chang, X., Jiang, X., Liu, Q., Mo, M., Xia, H. M., and Ibrahim, J. G. (2024). LEAP: The latent exchangeability prior for borrowing information from historical data. Biometrics, 80(3).

Examples

if (instantiate::stan_cmdstan_exists()) {
  if(requireNamespace("survival")){
    library(survival)
    data(E1684)
    data(E1690)
    ## take subset for speed purposes
    E1684 = E1684[1:100, ]
    E1690 = E1690[1:50, ]
    ## replace 0 failure times with 0.50 days
    E1684$failtime[E1684$failtime == 0] = 0.50/365.25
    E1690$failtime[E1690$failtime == 0] = 0.50/365.25
    E1684$cage = as.numeric(scale(E1684$age))
    E1690$cage = as.numeric(scale(E1690$age))
    data_list = list(currdata = E1690, histdata = E1684)
    nbreaks = 3
    probs   = 1:nbreaks / nbreaks
    breaks  = as.numeric(
      quantile(E1690[E1690$failcens==1, ]$failtime, probs = probs)
    )
    breaks  = c(0, breaks)
    breaks[length(breaks)] = max(10000, 1000 * breaks[length(breaks)])
    pwe.leap(
      formula = survival::Surv(failtime, failcens) ~ treatment + sex + cage + node_bin,
      data.list = data_list,
      breaks = breaks,
      K = 2,
      chains = 1, iter_warmup = 500, iter_sampling = 1000
    )
  }
}

hdbayes documentation built on Nov. 21, 2025, 1:07 a.m.