bFitMod: Fit a dose-response model using Bayesian or bootstrap...
In DoseFinding: Planning and Analyzing Dose Finding Experiments
bFitMod R Documentation
Fit a dose-response model using Bayesian or bootstrap methods.
Description
For ‘type = "Bayes"’, MCMC sampling from the posterior distribution of
the dose-response model is done. The function assumes a multivariate
normal distribution for resp with covariance matrix S,
and this is taken as likelihood function and combined with the prior
distributions specified in prior to form the posterior distribution.
For ‘type = "bootstrap"’, a multivariate normal distribution for
resp with covariance matrix S is assumed, and a large
number of samples is drawn from this distribution. For each draw the
fitMod function with ‘type = "general"’ is used to fit the draws
from the multivariate normal distribution.
Usage
bFitMod(dose, resp, model, S, placAdj = FALSE,
type = c("Bayes", "bootstrap"),
start = NULL, prior = NULL, nSim = 1000,
MCMCcontrol = list(), control = NULL, bnds,
addArgs = NULL)
## S3 method for class 'bFitMod'
coef(object, ...)
## S3 method for class 'bFitMod'
predict(object, predType = c("full-model", "effect-curve"),
summaryFct = function(x) quantile(x, probs = c(0.025, 0.25, 0.5, 0.75, 0.975)),
doseSeq = NULL, lenSeq = 101, ...)
## S3 method for class 'bFitMod'
plot(x, plotType = c("dr-curve", "effect-curve"),
quant = c(0.025, 0.5, 0.975),
plotData = c("means", "meansCI", "none"),
level = 0.95, lenDose = 201, ...)
Arguments
dose
Numeric specifying the dose variable.
resp
Numeric specifying the response estimate
corresponding to the doses in dose
S
Covariance matrix associated with the dose-response
estimate specified via resp
model
Dose-response model to fit, possible models are
"linlog", "linear", "quadratic", "emax", "exponential",
"sigEmax", "betaMod" and "logistic", see drmodels.
placAdj
Whether or not estimates in "placAdj" are
placebo-adjusted (note that the linear in log and
the logistic model cannot be fitted for placebo-adjusted data)
type
Character with allowed values "Bayes" and "bootstrap", Determining
whether samples are drawn from the posterior, or the bootstrap
distribution.
start
Optional starting values for the dose-response
parameters in the MCMC algorithm.
prior
List containing the information regarding the prior distributions
for ‘type = "Bayes"’.
The list needs to have as many entries as there are model
parameters. The ordering of the list entries should be the same as
in the arguments list of the model see (see drmodels).
For example for the Emax model the first entry determines the prior
for e0, the second to eMax and the third to ed50.
For each list entry the user has the choice to choose
from 4 possible distributions:
-
norm: Vector of length 2 giving mean and standard deviation.
-
t: Vector of length 3 giving median, scale and degrees
of freedom of the t-distribution.
-
lnorm: Vector of length 2 giving mean and standard
deviation on log scale.
-
beta: Vector of length 4 giving lower and upper bound
of the beta prior as well as the alpha and beta parameters of the
beta distribution
nSim
Desired number of samples to produce with the algorithm
MCMCcontrol
List of control parameters for the MCMC algorithm
-
thin Thinning rate. Must be a positive integer.
-
w Numeric of same length as number of parameters in
the model, specifies the width parameters of the slice sampler.
-
adapt Logical whether to adapt the w (width)
parameter of the slice sampler in a short trial run. The widths
are chosen as IQR/1.3 of the trial run.
control
Same as the control argument in fitMod.
bnds
Bounds for non-linear parameters, in case ‘type =
"bootstrap"’. If missing the the default bounds from
defBnds is used.
addArgs
List containing two entries named "scal" and "off" for the "betaMod"
and "linlog" model. When addArgs is NULL the following defaults are
used ‘list(scal = 1.2*max(doses), off = 0.01*max(doses))’
x, object
A bFitMod object
predType, summaryFct, doseSeq, lenSeq
Arguments for the predict method.
‘predType’: predType determines whether predictions are returned
for the dose-response curve or the effect curve (difference to placebo).
‘summaryFct’: If equal to NULL predictions are calculated for
each sampled parameter value. Otherwise a summary function is
applied to the dose-response predictions for each parameter value.
The default is to calculate 0.025, 0.25, 0.5, 0.75, 0.975 quantiles
of the predictions for each dose.
‘doseSeq’: Where to calculate predictions. If not specified
predictions are calculated on a grid of length ‘lenSeq’ between
minimum and maximum dose.
‘lenSeq’: Length of the default grid where to calculate
predictions.
plotType, quant, plotData, level, lenDose
Arguments for plot method.
‘plotType’: Determining whether the dose-response curve or the
effect curve should be plotted.
‘quant’: Vector of quantiles to display in plot
‘plotData’: Determines how the original data are plotted:
Either as means or as means with CI or not. The level of the CI is
determined by the argument ‘level’.
‘level’: Level for CI, when plotData is equal to
‘meansCI’.
‘lenDose’: Number of grid values to use for display.
...
Additional arguments are ignored.
Details
Componentwise univariate slice samplers are implemented (see Neal,
2003) to sample from the posterior distribution.
Value
An object of class bFitMod, which is a list containing the matrix of
posterior simulations plus some additional information on the fitted
model.
Author(s)
Bjoern Bornkamp
References
Neal, R. M. (2003), Slice sampling, Annals of Statistics, 31, 705-767
See Also
fitMod
Examples
data(biom)
## produce first stage fit (using dose as factor)
anMod <- lm(resp~factor(dose)-1, data=biom)
drFit <- coef(anMod)
S <- vcov(anMod)
dose <- sort(unique(biom$dose))
## define prior list
## normal prior for E0 (mean=0 and sdev=10)
## normal prior for Emax (mean=0 and sdev=100)
## beta prior for ED50: bounds: [0,1.5] parameters shape1=0.45, shape2=1.7
prior <- list(norm = c(0, 10), norm = c(0,100), beta=c(0,1.5,0.45,1.7))
## now fit an emax model
gsample <- bFitMod(dose, drFit, S, model = "emax",
start = c(0, 1, 0.1), nSim = 1000, prior = prior)
## summary information
gsample
## samples are stored in
head(gsample$samples)
## predict 0.025, 0.25, 0.5, 0.75, 0.975 Quantile at 0, 0.5 and 1
predict(gsample, doseSeq = c(0, 0.5, 1))
## simple plot function
plot(gsample)
## now look at bootstrap distribution
gsample <- bFitMod(dose, drFit, S, model = "emax", type = "bootstrap",
nSim = 100, bnds = defBnds(1)$emax)
plot(gsample)
## now fit linear interpolation
prior <- list(norm = c(0,1000), norm = c(0,1000),
norm = c(0,1000), norm = c(0,1000), norm = c(0,100))
gsample <- bFitMod(dose, drFit, S, model = "linInt",
start = rep(1,5), nSim = 1000, prior = prior)
gsample <- bFitMod(dose, drFit, S, model = "linInt", type = "bootstrap",
nSim = 100)
## data fitted on placebo adjusted scale
data(IBScovars)
anovaMod <- lm(resp~factor(dose)+gender, data=IBScovars)
drFit <- coef(anovaMod)[2:5] # placebo adjusted estimates at doses
vCov <- vcov(anovaMod)[2:5,2:5]
dose <- sort(unique(IBScovars$dose))[-1]
prior <- list(norm = c(0,100), beta=c(0,6,0.45,1.7))
## Bayes fit
gsample <- bFitMod(dose, drFit, vCov, model = "emax", placAdj=TRUE,
start = c(1, 0.1), nSim = 1000, prior = prior)
## bootstrap fit
gsample <- bFitMod(dose, drFit, vCov, model = "emax", placAdj=TRUE,
type = "bootstrap", start = c(1, 0.1),
nSim = 100, prior = prior, bnds = c(0.01,6))
## calculate target dose estimate
TD(gsample, Delta = 0.2)
## now fit linear interpolation
prior <- list(norm = c(0,1000), norm = c(0,1000), norm = c(0,1000), norm = c(0,100))
gsample <- bFitMod(dose, drFit, vCov, model = "linInt", placAdj=TRUE,
start = rep(1,4), nSim = 1000, prior = prior)
gsample <- bFitMod(dose, drFit, vCov, model = "linInt", type = "bootstrap",
placAdj = TRUE, nSim = 100)
DoseFinding documentation built on Sept. 11, 2024, 9:04 p.m.
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| bFitMod | R Documentation |
Fit a dose-response model using Bayesian or bootstrap methods.
Description
For ‘type = "Bayes"’, MCMC sampling from the posterior distribution of
the dose-response model is done. The function assumes a multivariate
normal distribution for resp with covariance matrix S,
and this is taken as likelihood function and combined with the prior
distributions specified in prior to form the posterior distribution.
For ‘type = "bootstrap"’, a multivariate normal distribution for
resp with covariance matrix S is assumed, and a large
number of samples is drawn from this distribution. For each draw the
fitMod function with ‘type = "general"’ is used to fit the draws
from the multivariate normal distribution.
Usage
bFitMod(dose, resp, model, S, placAdj = FALSE,
type = c("Bayes", "bootstrap"),
start = NULL, prior = NULL, nSim = 1000,
MCMCcontrol = list(), control = NULL, bnds,
addArgs = NULL)
## S3 method for class 'bFitMod'
coef(object, ...)
## S3 method for class 'bFitMod'
predict(object, predType = c("full-model", "effect-curve"),
summaryFct = function(x) quantile(x, probs = c(0.025, 0.25, 0.5, 0.75, 0.975)),
doseSeq = NULL, lenSeq = 101, ...)
## S3 method for class 'bFitMod'
plot(x, plotType = c("dr-curve", "effect-curve"),
quant = c(0.025, 0.5, 0.975),
plotData = c("means", "meansCI", "none"),
level = 0.95, lenDose = 201, ...)
Arguments
dose |
Numeric specifying the dose variable. |
resp |
Numeric specifying the response estimate
corresponding to the doses in |
S |
Covariance matrix associated with the dose-response
estimate specified via |
model |
Dose-response model to fit, possible models are
"linlog", "linear", "quadratic", "emax", "exponential",
"sigEmax", "betaMod" and "logistic", see |
placAdj |
Whether or not estimates in "placAdj" are placebo-adjusted (note that the linear in log and the logistic model cannot be fitted for placebo-adjusted data) |
type |
Character with allowed values "Bayes" and "bootstrap", Determining whether samples are drawn from the posterior, or the bootstrap distribution. |
start |
Optional starting values for the dose-response parameters in the MCMC algorithm. |
prior |
List containing the information regarding the prior distributions
for ‘type = "Bayes"’.
The list needs to have as many entries as there are model
parameters. The ordering of the list entries should be the same as
in the arguments list of the model see (see For each list entry the user has the choice to choose from 4 possible distributions:
|
nSim |
Desired number of samples to produce with the algorithm |
MCMCcontrol |
List of control parameters for the MCMC algorithm
|
control |
Same as the control argument in |
bnds |
Bounds for non-linear parameters, in case ‘type =
"bootstrap"’. If missing the the default bounds from
|
addArgs |
List containing two entries named "scal" and "off" for the "betaMod" and "linlog" model. When addArgs is NULL the following defaults are used ‘list(scal = 1.2*max(doses), off = 0.01*max(doses))’ |
x, object |
A bFitMod object |
predType, summaryFct, doseSeq, lenSeq |
Arguments for the predict method. ‘predType’: predType determines whether predictions are returned for the dose-response curve or the effect curve (difference to placebo). ‘summaryFct’: If equal to NULL predictions are calculated for each sampled parameter value. Otherwise a summary function is applied to the dose-response predictions for each parameter value. The default is to calculate 0.025, 0.25, 0.5, 0.75, 0.975 quantiles of the predictions for each dose. ‘doseSeq’: Where to calculate predictions. If not specified predictions are calculated on a grid of length ‘lenSeq’ between minimum and maximum dose. ‘lenSeq’: Length of the default grid where to calculate predictions. |
plotType, quant, plotData, level, lenDose |
Arguments for plot method. ‘plotType’: Determining whether the dose-response curve or the effect curve should be plotted. ‘quant’: Vector of quantiles to display in plot ‘plotData’: Determines how the original data are plotted: Either as means or as means with CI or not. The level of the CI is determined by the argument ‘level’. ‘level’: Level for CI, when plotData is equal to ‘meansCI’. ‘lenDose’: Number of grid values to use for display. |
... |
Additional arguments are ignored. |
Details
Componentwise univariate slice samplers are implemented (see Neal, 2003) to sample from the posterior distribution.
Value
An object of class bFitMod, which is a list containing the matrix of posterior simulations plus some additional information on the fitted model.
Author(s)
Bjoern Bornkamp
References
Neal, R. M. (2003), Slice sampling, Annals of Statistics, 31, 705-767
See Also
fitMod
Examples
data(biom)
## produce first stage fit (using dose as factor)
anMod <- lm(resp~factor(dose)-1, data=biom)
drFit <- coef(anMod)
S <- vcov(anMod)
dose <- sort(unique(biom$dose))
## define prior list
## normal prior for E0 (mean=0 and sdev=10)
## normal prior for Emax (mean=0 and sdev=100)
## beta prior for ED50: bounds: [0,1.5] parameters shape1=0.45, shape2=1.7
prior <- list(norm = c(0, 10), norm = c(0,100), beta=c(0,1.5,0.45,1.7))
## now fit an emax model
gsample <- bFitMod(dose, drFit, S, model = "emax",
start = c(0, 1, 0.1), nSim = 1000, prior = prior)
## summary information
gsample
## samples are stored in
head(gsample$samples)
## predict 0.025, 0.25, 0.5, 0.75, 0.975 Quantile at 0, 0.5 and 1
predict(gsample, doseSeq = c(0, 0.5, 1))
## simple plot function
plot(gsample)
## now look at bootstrap distribution
gsample <- bFitMod(dose, drFit, S, model = "emax", type = "bootstrap",
nSim = 100, bnds = defBnds(1)$emax)
plot(gsample)
## now fit linear interpolation
prior <- list(norm = c(0,1000), norm = c(0,1000),
norm = c(0,1000), norm = c(0,1000), norm = c(0,100))
gsample <- bFitMod(dose, drFit, S, model = "linInt",
start = rep(1,5), nSim = 1000, prior = prior)
gsample <- bFitMod(dose, drFit, S, model = "linInt", type = "bootstrap",
nSim = 100)
## data fitted on placebo adjusted scale
data(IBScovars)
anovaMod <- lm(resp~factor(dose)+gender, data=IBScovars)
drFit <- coef(anovaMod)[2:5] # placebo adjusted estimates at doses
vCov <- vcov(anovaMod)[2:5,2:5]
dose <- sort(unique(IBScovars$dose))[-1]
prior <- list(norm = c(0,100), beta=c(0,6,0.45,1.7))
## Bayes fit
gsample <- bFitMod(dose, drFit, vCov, model = "emax", placAdj=TRUE,
start = c(1, 0.1), nSim = 1000, prior = prior)
## bootstrap fit
gsample <- bFitMod(dose, drFit, vCov, model = "emax", placAdj=TRUE,
type = "bootstrap", start = c(1, 0.1),
nSim = 100, prior = prior, bnds = c(0.01,6))
## calculate target dose estimate
TD(gsample, Delta = 0.2)
## now fit linear interpolation
prior <- list(norm = c(0,1000), norm = c(0,1000), norm = c(0,1000), norm = c(0,100))
gsample <- bFitMod(dose, drFit, vCov, model = "linInt", placAdj=TRUE,
start = rep(1,4), nSim = 1000, prior = prior)
gsample <- bFitMod(dose, drFit, vCov, model = "linInt", type = "bootstrap",
placAdj = TRUE, nSim = 100)
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