This repo is no longer under maintain, please re-direct to its latest version at https://github.com/Merck/gsDesign2.
The goal of gsDesign2 is to enable fixed or group sequential design under non-proportional hazards. Piecewise constant enrollment, failure rates and dropout rates for a stratified population are available to enable highly flexible enrollment, time-to-event and time-to-dropout assumptions. Substantial flexibility on top of what is in the gsDesign package is intended for selecting boundaries. While this work is in progress, substantial capabilities have been enabled. Comments on usability and features are encouraged as this is a development version of the package.
The goal of gsDesign2 is to enable group sequential trial design for time-to-event endpoints under non-proportional hazards assumptions. The package is still maturing; as the package functions become more stable, they will likely be included in the gsDesign2 package.
You can install gsDesign2 with:
remotes::install_github("LittleBeannie/gsDesign2")This is a basic example which shows you how to solve a common problem.
We assume there is a 4 month delay in treatment effect. Specifically, we
assume a hazard ratio of 1 for 4 months and 0.6 thereafter. For this
example we assume an exponential failure rate and low exponential
dropout rate. The enrollRates specification indicates an expected
enrollment duration of 12 months with exponential inter-arrival times.
library(gsDesign)
library(gsDesign2)
library(dplyr)
library(gt)
# Basic example
# Constant enrollment over 12 months
# Rate will be adjusted later by gsDesignNPH to get sample size
enrollRates <- tibble::tibble(Stratum = "All", duration = 12, rate = 1)
# 12 month median exponential failure rate in control
# 4 month delay in effect with HR=0.6 after
# Low exponential dropout rate
medianSurv <- 12
failRates <- tibble::tibble(
Stratum = "All",
duration = c(4, Inf),
failRate = log(2) / medianSurv,
hr = c(1, .6),
dropoutRate = .001
)The resulting failure rate specification is the following table. As many rows and strata as needed can be specified to approximate whatever patterns you wish.
failRates %>%
gt() %>%
as_raw_html(inline_css = FALSE)| Stratum | duration | failRate | hr | dropoutRate |
|---|---|---|---|---|
| All | 4 | 0.05776227 | 1.0 | 0.001 |
| All | Inf | 0.05776227 | 0.6 | 0.001 |
Computing a fixed sample size design with 2.5% one-sided Type I error
and 90% power. We specify a trial duration of 36 months with
analysisTimes. Since there is a single analysis, we specify an upper
p-value bound of 0.025 with upar = qnorm(0.975). There is no lower
bound which is specified with lpar = -Inf.
x <- gs_design_ahr(
enrollRates, failRates,
upper = gs_b, upar = qnorm(.975),
lower = gs_b, lpar = -Inf,
IF = 1, analysisTimes = 36
)The input enrollment rates are scaled to achieve power:
x$enrollRates %>%
gt() %>%
as_raw_html(inline_css = FALSE)| Stratum | duration | rate |
|---|---|---|
| All | 12 | 35.05288 |
The failure and dropout rates remain unchanged from what was input:
x$failRates %>%
gt() %>%
as_raw_html(inline_css = FALSE)| Stratum | duration | failRate | hr | dropoutRate |
|---|---|---|---|---|
| All | 4 | 0.05776227 | 1.0 | 0.001 |
| All | Inf | 0.05776227 | 0.6 | 0.001 |
Additionally, the summary of bounds and crossing probability is available at
x$bounds %>%
gt() %>%
as_raw_html(inline_css = FALSE)| Analysis | Bound | Probability | Probability0 | Z | ~HR at bound | Nominal p |
|---|---|---|---|---|---|---|
| 1 | Upper | 0.9 | 0.025 | 1.959964 | 0.800693 | 0.025 |
Finally, the expected analysis time is in Time, sample size N,
events required Events and average hazard ratio AHR are in
x$analysis. Note that AHR is the average hazard ratio used to
calculate the targeted event counts. The natural parameter (log(AHR))
is in theta and corresponding statistical information under the
alternate hypothesis are in info and under the null hypothesis in
info0.
x$analysis %>%
gt() %>%
as_raw_html(inline_css = FALSE)| Analysis | Time | N | Events | AHR | theta | info | info0 | IF |
|---|---|---|---|---|---|---|---|---|
| 1 | 36 | 420.6346 | 311.0028 | 0.6917244 | 0.3685676 | 76.74383 | 77.75069 | 1 |
x %>%
summary() %>%
as_gt() %>%
as_raw_html(inline_css = FALSE)| Bound summary for AHR design | ||||
| AHR approximations of ~HR at bound | ||||
| Bound | Nominal p1 | ~HR at bound2 | Cumulative boundary crossing probability | |
|---|---|---|---|---|
| Alternate hypothesis | Null hypothesis | |||
| Analysis: 1 Time: 36 N: 420.6 Events: 311 AHR: 0.69 IF: 1 | ||||
| Efficacy | 0.025 | 0.8007 | 0.9 | 0.025 |
| 1 One-sided p-value for experimental vs control treatment. Values < 0.5 favor experimental, > 0.5 favor control. | ||||
| 2 Approximate hazard ratio to cross bound. | ||||