R: Group sequential design for equivalence in two-sample mean...

getDesignMeanRatioEquiv {lrstat}

R Documentation

Group sequential design for equivalence in two-sample mean ratio

Description

Obtains the power given sample size or obtains the sample size given power for a group sequential design for equivalence in two-sample mean ratio.

Usage

getDesignMeanRatioEquiv(
  beta = NA_real_,
  n = NA_real_,
  meanRatioLower = NA_real_,
  meanRatioUpper = NA_real_,
  meanRatio = 1,
  CV = 1,
  allocationRatioPlanned = 1,
  normalApproximation = TRUE,
  rounding = TRUE,
  kMax = 1L,
  informationRates = NA_real_,
  alpha = 0.05,
  typeAlphaSpending = "sfOF",
  parameterAlphaSpending = NA_real_,
  userAlphaSpending = NA_real_,
  spendingTime = NA_real_
)

Arguments

`beta`	The type II error.
`n`	The total sample size.
`meanRatioLower`	The lower equivalence limit of mean ratio.
`meanRatioUpper`	The upper equivalence limit of mean ratio.
`meanRatio`	The mean ratio under the alternative hypothesis.
`CV`	The coefficient of variation.
`allocationRatioPlanned`	Allocation ratio for the active treatment versus control. Defaults to 1 for equal randomization.
`normalApproximation`	The type of computation of the p-values. If `TRUE`, the variance is assumed to be known, otherwise the calculations are performed with the t distribution. The exact calculation using the t distribution is only implemented for the fixed design.
`rounding`	Whether to round up sample size. Defaults to 1 for sample size rounding.
`kMax`	The maximum number of stages.
`informationRates`	The information rates. Fixed prior to the trial. Defaults to `(1:kMax) / kMax` if left unspecified.
`alpha`	The significance level for each of the two one-sided tests. Defaults to 0.05.
`typeAlphaSpending`	The type of alpha spending. One of the following: "OF" for O'Brien-Fleming boundaries, "P" for Pocock boundaries, "WT" for Wang & Tsiatis boundaries, "sfOF" for O'Brien-Fleming type spending function, "sfP" for Pocock type spending function, "sfKD" for Kim & DeMets spending function, "sfHSD" for Hwang, Shi & DeCani spending function, "user" for user defined spending, and "none" for no early efficacy stopping. Defaults to "sfOF".
`parameterAlphaSpending`	The parameter value for the alpha spending. Corresponds to Delta for "WT", rho for "sfKD", and gamma for "sfHSD".
`userAlphaSpending`	The user defined alpha spending. Cumulative alpha spent up to each stage.
`spendingTime`	A vector of length `kMax` for the error spending time at each analysis. Defaults to missing, in which case, it is the same as `informationRates`.

Value

An S3 class designMeanRatioEquiv object with three components:

overallResults: A data frame containing the following variables:
- overallReject: The overall rejection probability.
- alpha: The significance level for each of the two one-sided tests. Defaults to 0.05.
- attainedAlpha: The attained significance level.
- kMax: The number of stages.
- information: The maximum information.
- expectedInformationH1: The expected information under H1.
- expectedInformationH0: The expected information under H0.
- numberOfSubjects: The maximum number of subjects.
- expectedNumberOfSubjectsH1: The expected number of subjects under H1.
- expectedNumberOfSubjectsH0: The expected number of subjects under H0.
- meanRatioLower: The lower equivalence limit of mean ratio.
- meanRatioUpper: The upper equivalence limit of mean ratio.
- meanRatio: The mean ratio under the alternative hypothesis.
- CV: The coefficient of variation.
byStageResults: A data frame containing the following variables:
- informationRates: The information rates.
- efficacyBounds: The efficacy boundaries on the Z-scale for each of the two one-sided tests.
- rejectPerStage: The probability for efficacy stopping.
- cumulativeRejection: The cumulative probability for efficacy stopping.
- cumulativeAlphaSpent: The cumulative alpha for each of the two one-sided tests.
- cumulativeAttainedAlpha: The cumulative probability for efficacy stopping under H0.
- efficacyP: The efficacy bounds on the p-value scale for each of the two one-sided tests.
- information: The cumulative information.
- numberOfSubjects: The number of subjects.
- efficacyMeanRatioLower: The efficacy boundaries on the mean ratio scale for the one-sided null hypothesis on the lower equivalence limit.
- efficacyMeanRatioUpper: The efficacy boundaries on the mean ratio scale for the one-sided null hypothesis on the upper equivalence limit.
settings: A list containing the following input parameters:
- typeAlphaSpending: The type of alpha spending.
- parameterAlphaSpending: The parameter value for alpha spending.
- userAlphaSpending: The user defined alpha spending.
- spendingTime: The error spending time at each analysis.
- allocationRatioPlanned: Allocation ratio for the active treatment versus control.
- normalApproximation: The type of computation of the p-values. If TRUE, the variance is assumed to be known, otherwise the calculations are performed with the t distribution. The exact calculation using the t distribution is only implemented for the fixed design.
- rounding: Whether to round up sample size.

Author(s)

Kaifeng Lu, kaifenglu@gmail.com

Examples


# Example 1: group sequential trial power calculation
(design1 <- getDesignMeanRatioEquiv(
  beta = 0.1, n = NA, meanRatioLower = 0.8, meanRatioUpper = 1.25,
  meanRatio = 1, CV = 0.35,
  kMax = 4, alpha = 0.05, typeAlphaSpending = "sfOF"))

# Example 2: sample size calculation for t-test
(design2 <- getDesignMeanRatioEquiv(
  beta = 0.1, n = NA, meanRatioLower = 0.8, meanRatioUpper = 1.25,
  meanRatio = 1, CV = 0.35,
  normalApproximation = FALSE, alpha = 0.05))

[Package lrstat version 0.2.9 Index]