The {ppseq} package provides functions to design clinical trials using Bayesian sequential predictive probability monitoring. Functionality is available to design one-arm or two-arm trials by searching over a grid of combinations of posterior and predictive thresholds and identifying the optimal design according to two criteria: accuracy and efficiency. Interactive plotting allows easy comparison of the various design options and easy trial implementation through decision rule plots.
You can install the production version of ppseq from CRAN with:
install.packages("ppseq")Or you can install the development version of ppseq from GitHub with:
remotes::install_github("zabore/ppseq")library(ppseq)The primary function to search over a grid of combinations of posterior
and predictive thresholds for a certain trial design is
calibrate_thresholds(). This function is computationally intensive to
varying degrees depending on the number of looks and the number of
threshold combinations, and is best run on a server and/or with
parallelization.
set.seed(12345)
calthresh <-
calibrate_thresholds(
p_null = c(0.2, 0.2),
p_alt = c(0.2, 0.5),
n = cbind(seq(10, 50, 10), seq(10, 50, 10)),
N = c(50, 50),
pp_threshold = seq(0.9, 0.95, 0.01),
ppp_threshold = seq(0.05, 0.2, 0.05),
delta = 0
)The resulting design options can be compared interactively compared by
passing the results to plot() with the option plotly = TRUE. Static
versions of the plots are also available using the default option
plotly = FALSE, which produces ggplot results. Plot output can
optionally be filtered by desired range of type 1 error and minimum
power. The default plots all design options. The results can also be
viewed in tabular form by passing the results to print() with
filtering options for the desired range of type 1 error and minimum
power.
plot(calthresh)
The optimal accuracy and optimal efficiency designs can be obtained by
passing the results to the optimize_design() function, with filtering
applied for the desired range of type 1 error and minimum power.
optimize_design(calthresh, type1_range = c(0.025, 0.05), minimum_power = 0.8)
After selecting a design, we can obtain a set of decision rules to
implement the trial, so that no calculations will be needed during the
course of the trial. The calc_decision_rules() function will generate
the decision rules to stop or continue at each interim look of the
trial.
set.seed(123456)
opteffrules <-
calc_decision_rules(
n = cbind(seq(10, 50, 10), seq(10, 50, 10)),
N = c(50, 50),
theta = 0.94,
ppp = 0.2,
p0 = NULL,
delta = 0
)The results can be displayed with interactive graphics by passing the
results to plot() with the default option plotly = TRUE. Below are
the static ggplot versions created with the option plotly = FALSE
for demonstration purposes. Tabular results can be obtained by passing
the results to print().
plot(opteffrules, plotly = FALSE)
See the vignettes for the one-sample and two-sample cases for additional details about available features and options.