powMCT: Calculate power for multiple contrast test
In DoseFinding: Planning and Analyzing Dose Finding Experiments
powMCT R Documentation
Calculate power for multiple contrast test
Description
Calculate power for a multiple contrast test for a set of specified
alternatives.
Usage
powMCT(
contMat,
alpha = 0.025,
altModels,
n,
sigma,
S,
placAdj = FALSE,
alternative = c("one.sided", "two.sided"),
df,
critV = TRUE,
control = mvtnorm.control()
)
Arguments
contMat
Contrast matrix to use. The individual contrasts should be
saved in the columns of the matrix
alpha
Significance level to use
altModels
An object of class ‘Mods’, defining the mean vectors
under which the power should be calculated
n, sigma, S
Either a vector ‘n’ and ‘sigma’ or ‘S’ need
to be specified. When ‘n’ and ‘sigma’ are specified it is assumed
computations are made for a normal homoscedastic ANOVA model with group
sample sizes given by ‘n’ and residual standard deviation ‘sigma’,
i.e. the covariance matrix used for the estimates is thus
sigma^2*diag(1/n) and the degrees of freedom are calculated as
sum(n)-nrow(contMat). When a single number is specified for ‘n’
it is assumed this is the sample size per group and balanced allocations are
used.
When ‘S’ is specified this will be used as covariance matrix for the
estimates.
placAdj
Logical, if true, it is assumed that the standard deviation
or variance matrix of the placebo-adjusted estimates are specified in
‘sigma’ or ‘S’, respectively. The contrast matrix has to be
produced on placebo-adjusted scale, see optContr, so that the
coefficients are no longer contrasts (i.e. do not sum to 0).
alternative
Character determining the alternative for the multiple
contrast trend test.
df
Degrees of freedom to assume in case ‘S’ (a general
covariance matrix) is specified. When ‘n’ and ‘sigma’ are
specified the ones from the corresponding ANOVA model are calculated.
critV
Critical value, if equal to ‘TRUE’ the critical value will
be calculated. Otherwise one can directly specify the critical value here.
control
A list specifying additional control parameters for the
‘qmvt’ and ‘pmvt’ calls in the code, see also
‘mvtnorm.control’ for details.
Value
Numeric containing the calculated power values
Author(s)
Bjoern Bornkamp
References
Pinheiro, J. C., Bornkamp, B., and Bretz, F. (2006). Design and
analysis of dose finding studies combining multiple comparisons and modeling
procedures, Journal of Biopharmaceutical Statistics, 16,
639–656
See Also
powN, sampSizeMCT,
MCTtest, optContr, Mods
Examples
## look at power under some dose-response alternatives
## first the candidate models used for the contrasts
doses <- c(0,10,25,50,100,150)
## define models to use as alternative
fmodels <- Mods(linear = NULL, emax = 25,
logistic = c(50, 10.88111), exponential= 85,
betaMod=rbind(c(0.33,2.31),c(1.39,1.39)),
doses = doses, addArgs=list(scal = 200),
placEff = 0, maxEff = 0.4)
## plot alternatives
plot(fmodels)
## power for to detect a trend
contMat <- optContr(fmodels, w = 1)
powMCT(contMat, altModels = fmodels, n = 50, alpha = 0.05, sigma = 1)
## Not run:
## power under the Dunnett test
## contrast matrix for Dunnett test with informative names
contMatD <- rbind(-1, diag(5))
rownames(contMatD) <- doses
colnames(contMatD) <- paste("D", doses[-1], sep="")
powMCT(contMatD, altModels = fmodels, n = 50, alpha = 0.05, sigma = 1)
## now investigate power of the contrasts in contMat under "general" alternatives
altFmods <- Mods(linInt = rbind(c(0, 1, 1, 1, 1),
c(0.5, 1, 1, 1, 0.5)),
doses=doses, placEff=0, maxEff=0.5)
plot(altFmods)
powMCT(contMat, altModels = altFmods, n = 50, alpha = 0.05, sigma = 1)
## now the first example but assume information only on the
## placebo-adjusted scale
## for balanced allocations and 50 patients with sigma = 1 one obtains
## the following covariance matrix
S <- 1^2/50*diag(6)
## now calculate variance of placebo adjusted estimates
CC <- cbind(-1,diag(5))
V <- (CC)%*%S%*%t(CC)
linMat <- optContr(fmodels, doses = c(10,25,50,100,150),
S = V, placAdj = TRUE)
powMCT(linMat, altModels = fmodels, placAdj=TRUE,
alpha = 0.05, S = V, df=6*50-6) # match df with the df above
## End(Not run)
DoseFinding documentation built on Sept. 11, 2024, 9:04 p.m.
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| powMCT | R Documentation |
Calculate power for multiple contrast test
Description
Calculate power for a multiple contrast test for a set of specified alternatives.
Usage
powMCT(
contMat,
alpha = 0.025,
altModels,
n,
sigma,
S,
placAdj = FALSE,
alternative = c("one.sided", "two.sided"),
df,
critV = TRUE,
control = mvtnorm.control()
)
Arguments
contMat |
Contrast matrix to use. The individual contrasts should be saved in the columns of the matrix |
alpha |
Significance level to use |
altModels |
An object of class ‘Mods’, defining the mean vectors under which the power should be calculated |
n, sigma, S |
Either a vector ‘n’ and ‘sigma’ or ‘S’ need
to be specified. When ‘n’ and ‘sigma’ are specified it is assumed
computations are made for a normal homoscedastic ANOVA model with group
sample sizes given by ‘n’ and residual standard deviation ‘sigma’,
i.e. the covariance matrix used for the estimates is thus
When ‘S’ is specified this will be used as covariance matrix for the estimates. |
placAdj |
Logical, if true, it is assumed that the standard deviation
or variance matrix of the placebo-adjusted estimates are specified in
‘sigma’ or ‘S’, respectively. The contrast matrix has to be
produced on placebo-adjusted scale, see |
alternative |
Character determining the alternative for the multiple contrast trend test. |
df |
Degrees of freedom to assume in case ‘S’ (a general covariance matrix) is specified. When ‘n’ and ‘sigma’ are specified the ones from the corresponding ANOVA model are calculated. |
critV |
Critical value, if equal to ‘TRUE’ the critical value will be calculated. Otherwise one can directly specify the critical value here. |
control |
A list specifying additional control parameters for the ‘qmvt’ and ‘pmvt’ calls in the code, see also ‘mvtnorm.control’ for details. |
Value
Numeric containing the calculated power values
Author(s)
Bjoern Bornkamp
References
Pinheiro, J. C., Bornkamp, B., and Bretz, F. (2006). Design and analysis of dose finding studies combining multiple comparisons and modeling procedures, Journal of Biopharmaceutical Statistics, 16, 639–656
See Also
powN, sampSizeMCT,
MCTtest, optContr, Mods
Examples
## look at power under some dose-response alternatives
## first the candidate models used for the contrasts
doses <- c(0,10,25,50,100,150)
## define models to use as alternative
fmodels <- Mods(linear = NULL, emax = 25,
logistic = c(50, 10.88111), exponential= 85,
betaMod=rbind(c(0.33,2.31),c(1.39,1.39)),
doses = doses, addArgs=list(scal = 200),
placEff = 0, maxEff = 0.4)
## plot alternatives
plot(fmodels)
## power for to detect a trend
contMat <- optContr(fmodels, w = 1)
powMCT(contMat, altModels = fmodels, n = 50, alpha = 0.05, sigma = 1)
## Not run:
## power under the Dunnett test
## contrast matrix for Dunnett test with informative names
contMatD <- rbind(-1, diag(5))
rownames(contMatD) <- doses
colnames(contMatD) <- paste("D", doses[-1], sep="")
powMCT(contMatD, altModels = fmodels, n = 50, alpha = 0.05, sigma = 1)
## now investigate power of the contrasts in contMat under "general" alternatives
altFmods <- Mods(linInt = rbind(c(0, 1, 1, 1, 1),
c(0.5, 1, 1, 1, 0.5)),
doses=doses, placEff=0, maxEff=0.5)
plot(altFmods)
powMCT(contMat, altModels = altFmods, n = 50, alpha = 0.05, sigma = 1)
## now the first example but assume information only on the
## placebo-adjusted scale
## for balanced allocations and 50 patients with sigma = 1 one obtains
## the following covariance matrix
S <- 1^2/50*diag(6)
## now calculate variance of placebo adjusted estimates
CC <- cbind(-1,diag(5))
V <- (CC)%*%S%*%t(CC)
linMat <- optContr(fmodels, doses = c(10,25,50,100,150),
S = V, placAdj = TRUE)
powMCT(linMat, altModels = fmodels, placAdj=TRUE,
alpha = 0.05, S = V, df=6*50-6) # match df with the df above
## End(Not run)
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