tspline: Spline time-course functions
In MBNMAtime: Run Time-Course Model-Based Network Meta-Analysis (MBNMA) Models
View source: R/time.functions.R
tspline R Documentation
Spline time-course functions
Description
Used to fit B-splines, natural cubic splines, and
piecewise linear splines\insertCiteperperoglu2019MBNMAtime.
Usage
tspline(
type = "bs",
knots = 1,
degree = 1,
pool.1 = "rel",
method.1 = "common",
pool.2 = "rel",
method.2 = "common",
pool.3 = "rel",
method.3 = "common",
pool.4 = "rel",
method.4 = "common"
)
Arguments
type
The type of spline. Can take "bs" (B-spline),
"ns" (natural cubic spline) or "ls" (piecewise linear spline)
knots
The number/location of spline internal knots. If a single number is given it indicates the number of knots (they will
be equally spaced across the range of time points). If a numeric vector is given it indicates the location of the knots.
degree
The degree of the piecewise B-spline polynomial - e.g. degree=1 for linear, degree=2 for quadratic, degree=3 for cubic.
pool.1
Pooling for the 1st coefficient. Can take "rel" or "abs" (see details).
method.1
Method for synthesis of the 1st coefficient. Can take "common, "random", or be assigned a numeric value (see details).
pool.2
Pooling for the 2nd coefficient. Can take "rel" or "abs" (see details).
method.2
Method for synthesis of the 2nd coefficient. Can take "common, "random", or be assigned a numeric value (see details).
pool.3
Pooling for the 3rd coefficient. Can take "rel" or "abs" (see details).
method.3
Method for synthesis of the 3rd coefficient. Can take "common, "random", or be assigned a numeric value (see details).
pool.4
Pooling for the 4th coefficient. Can take "rel" or "abs" (see details).
method.4
Method for synthesis of the 4th coefficient. Can take "common, "random", or be assigned a numeric value (see details).
Value
An object of class("timefun")
Time-course parameters
Time-course parameters in the model must be specified using a pool and a method prefix.
pool is used to define the approach used for pooling of a given time-course parameter and
can take any of:
Argument Model specification
"rel" Indicates that relative effects should be pooled for this time-course parameter. Relative effects preserve randomisation within included studies, are likely to vary less between studies (only due to effect modification), and allow for testing of consistency between direct and indirect evidence. Pooling follows the general approach for Network Meta-Analysis proposed by \insertCitelu2004;textualMBNMAtime.
"abs" Indicates that study arms should be pooled across the whole network for this time-course parameter independently of assigned treatment to estimate an absolute effect. This implies estimating a single value across the network for this time-course parameter, and may therefore be making strong assumptions of similarity.
method is used to define the model used for meta-analysis for a given time-course parameter
and can take any of the following values:
Argument Model specification
"common" Implies that all studies estimate the same true effect (often called a "fixed effect" meta-analysis)
"random" Implies that all studies estimate a separate true effect, but that each of these true effects vary randomly around a true mean effect. This approach allows for modelling of between-study heterogeneity.
numeric() Assigned a numeric value, indicating that this time-course parameter should not be estimated from the data but should be assigned the numeric value determined by the user. This can be useful for fixing specific time-course parameters (e.g. Hill parameters in Emax functions, power parameters in fractional polynomials) to a single value.
When relative effects are modelled on more than one time-course parameter,
correlation between them is automatically estimated using a vague inverse-Wishart prior.
This prior can be made slightly more informative by specifying the scale matrix omega
and by changing the degrees of freedom of the inverse-Wishart prior
using the priors argument in mb.run().
References
\insertAllCited
Examples
# Second order B spline with 2 knots and random effects on the 2nd coefficient
tspline(type="bs", knots=2, degree=2,
pool.1="rel", method.1="common",
pool.2="rel", method.2="random")
# Piecewise linear spline with knots at 0.1 and 0.5 quantiles
# Single parameter independent of treatment estimated for 1st coefficient
#with random effects
tspline(type="ls", knots=c(0.1,0.5),
pool.1="abs", method.1="random",
pool.2="rel", method.2="common")
MBNMAtime documentation built on Oct. 14, 2023, 5:08 p.m.
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View source: R/time.functions.R
| tspline | R Documentation |
Spline time-course functions
Description
Used to fit B-splines, natural cubic splines, and piecewise linear splines\insertCiteperperoglu2019MBNMAtime.
Usage
tspline(
type = "bs",
knots = 1,
degree = 1,
pool.1 = "rel",
method.1 = "common",
pool.2 = "rel",
method.2 = "common",
pool.3 = "rel",
method.3 = "common",
pool.4 = "rel",
method.4 = "common"
)
Arguments
type |
The type of spline. Can take |
knots |
The number/location of spline internal knots. If a single number is given it indicates the number of knots (they will be equally spaced across the range of time points). If a numeric vector is given it indicates the location of the knots. |
degree |
The degree of the piecewise B-spline polynomial - e.g. |
pool.1 |
Pooling for the 1st coefficient. Can take |
method.1 |
Method for synthesis of the 1st coefficient. Can take |
pool.2 |
Pooling for the 2nd coefficient. Can take |
method.2 |
Method for synthesis of the 2nd coefficient. Can take |
pool.3 |
Pooling for the 3rd coefficient. Can take |
method.3 |
Method for synthesis of the 3rd coefficient. Can take |
pool.4 |
Pooling for the 4th coefficient. Can take |
method.4 |
Method for synthesis of the 4th coefficient. Can take |
Value
An object of class("timefun")
Time-course parameters
Time-course parameters in the model must be specified using a pool and a method prefix.
pool is used to define the approach used for pooling of a given time-course parameter and
can take any of:
| Argument | Model specification |
"rel" | Indicates that relative effects should be pooled for this time-course parameter. Relative effects preserve randomisation within included studies, are likely to vary less between studies (only due to effect modification), and allow for testing of consistency between direct and indirect evidence. Pooling follows the general approach for Network Meta-Analysis proposed by \insertCitelu2004;textualMBNMAtime. |
"abs" | Indicates that study arms should be pooled across the whole network for this time-course parameter independently of assigned treatment to estimate an absolute effect. This implies estimating a single value across the network for this time-course parameter, and may therefore be making strong assumptions of similarity. |
method is used to define the model used for meta-analysis for a given time-course parameter
and can take any of the following values:
| Argument | Model specification |
"common" | Implies that all studies estimate the same true effect (often called a "fixed effect" meta-analysis) |
"random" | Implies that all studies estimate a separate true effect, but that each of these true effects vary randomly around a true mean effect. This approach allows for modelling of between-study heterogeneity. |
numeric() | Assigned a numeric value, indicating that this time-course parameter should not be estimated from the data but should be assigned the numeric value determined by the user. This can be useful for fixing specific time-course parameters (e.g. Hill parameters in Emax functions, power parameters in fractional polynomials) to a single value. |
When relative effects are modelled on more than one time-course parameter,
correlation between them is automatically estimated using a vague inverse-Wishart prior.
This prior can be made slightly more informative by specifying the scale matrix omega
and by changing the degrees of freedom of the inverse-Wishart prior
using the priors argument in mb.run().
References
\insertAllCitedExamples
# Second order B spline with 2 knots and random effects on the 2nd coefficient
tspline(type="bs", knots=2, degree=2,
pool.1="rel", method.1="common",
pool.2="rel", method.2="random")
# Piecewise linear spline with knots at 0.1 and 0.5 quantiles
# Single parameter independent of treatment estimated for 1st coefficient
#with random effects
tspline(type="ls", knots=c(0.1,0.5),
pool.1="abs", method.1="random",
pool.2="rel", method.2="common")
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