lgOR.vcov: Computing Variance-Covariance Matrices for Log Odds Ratios
In metavcov: Computing Variances and Covariances, Visualization and Missing Data Solution for Multivariate Meta-Analysis
lgOR.vcov R Documentation
Computing Variance-Covariance Matrices for Log Odds Ratios
Description
The function lgOR.vcov computes effect sizes and variance-covariance matrix for multivariate meta-analysis when the effect sizes of interest are all measured by log odds ratio. See mix.vcov for effect sizes of the same or different types.
Usage
lgOR.vcov(r, nt, nc, st, sc, n_rt = NA, n_rc = NA)
Arguments
r
A N-dimensional list of p \times p correlation matrices for the p outcomes from the N studies. r[[k]][i,j] is the correlation coefficient between outcome i and outcome j from study k.
nt
A N \times p matrix storing sample sizes in the treatment group reporting the p outcomes. nt[i,j] is the sample size from study i reporting outcome j.
nc
A matrix defined in a similar way as nt for the control group.
st
A N \times p matrix recording number of participants with event for all outcomes (dichotomous) in treatment group. st[i,j] reports number of participants with event for outcome j in treatment group for study i. If outcome j is not dichotomous, NA has to be imputed in column j.
sc
Defined in a similar way as st for the control group.
n_rt
A N-dimensional list of p \times p matrices storing sample sizes in the treatment group reporting pairwise outcomes in the off-diagonal elements. n_rt[[k]][i,j] is the sample size reporting both outcome i and outcome j from study k. Diagonal elements of these matrices are discarded. The default value is NA, which means that the smaller sample size reporting the corresponding two outcomes is imputed: i.e. n_rt[[k]][i,j]=min(nt[k,i],nt[k,j]).
n_rc
A list defined in a similar way as n_rt for the control group.
Value
ef
A N \times p data frame whose columns are computed log odds ratios.
list.vcov
A N-dimensional list of p(p+1)/2 \times p(p+1)/2 matrices of computed variance-covariance matrices.
matrix.vcov
A N \times p(p+1)/2 matrix whose rows are computed variance-covariance vectors.
Author(s)
Min Lu
References
Lu, M. (2023). Computing within-study covariances, data visualization, and missing data solutions for multivariate meta-analysis with metavcov. Frontiers in Psychology, 14:1185012.
Examples
##########################################################################
# Example: Geeganage2010 data
# Preparing log odds ratios and covariances for multivariate meta-analysis
##########################################################################
data(Geeganage2010)
## set the correlation coefficients list r
r12 <- 0.71
r.Gee <- lapply(1:nrow(Geeganage2010), function(i){matrix(c(1, r12, r12, 1), 2, 2)})
computvcov <- lgOR.vcov(nt = subset(Geeganage2010, select = c(nt_DD, nt_D)),
nc = subset(Geeganage2010, select = c(nc_DD, nc_D)),
st = subset(Geeganage2010, select = c(st_DD, st_D)),
sc = subset(Geeganage2010, select = c(sc_DD, sc_D)),
r = r.Gee)
# name computed log odds ratio as y
y <- computvcov$ef
colnames(y) <- c("lgOR.DD", "lgOR.D")
# name variance-covariance matrix of trnasformed z scores as S
S <- computvcov$matrix.vcov
## fixed-effect model
MMA_FE <- summary(metafixed(y = y, Slist = computvcov$list.vcov))
MMA_FE
#######################################################################
# Running random-effects model using package "mixmeta" or "metaSEM"
#######################################################################
# Restricted maximum likelihood (REML) estimator from the mixmeta package
#library(mixmeta)
#mvmeta_RE <- summary(mixmeta(cbind(lgOR.DD, lgOR.D)~1,
# S = S,
# data = as.data.frame(y),
# method = "reml"))
#mvmeta_RE
# maximum likelihood estimators from the metaSEM package
# library(metaSEM)
# metaSEM_RE <- summary(meta(y = y, v = S))
# metaSEM_RE
##############################################################
# Plotting the result:
##############################################################
obj <- MMA_FE
# obj <- mvmeta_RE
# obj <- metaSEM_RE
# pdf("CI.pdf", width = 4, height = 7)
plotCI(y = computvcov$ef, v = computvcov$list.vcov,
name.y = c("lgOR.DD", "lgOR.D"),
name.study = Geeganage2010$studyID,
y.all = obj$coefficients[,1],
y.all.se = obj$coefficients[,2],
hline = 1)
# dev.off()
metavcov documentation built on July 9, 2023, 7:11 p.m.
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| lgOR.vcov | R Documentation |
Computing Variance-Covariance Matrices for Log Odds Ratios
Description
The function lgOR.vcov computes effect sizes and variance-covariance matrix for multivariate meta-analysis when the effect sizes of interest are all measured by log odds ratio. See mix.vcov for effect sizes of the same or different types.
Usage
lgOR.vcov(r, nt, nc, st, sc, n_rt = NA, n_rc = NA)
Arguments
r |
A |
nt |
A |
nc |
A matrix defined in a similar way as |
st |
A |
sc |
Defined in a similar way as |
n_rt |
A |
n_rc |
A list defined in a similar way as |
Value
ef |
A |
list.vcov |
A |
matrix.vcov |
A |
Author(s)
Min Lu
References
Lu, M. (2023). Computing within-study covariances, data visualization, and missing data solutions for multivariate meta-analysis with metavcov. Frontiers in Psychology, 14:1185012.
Examples
##########################################################################
# Example: Geeganage2010 data
# Preparing log odds ratios and covariances for multivariate meta-analysis
##########################################################################
data(Geeganage2010)
## set the correlation coefficients list r
r12 <- 0.71
r.Gee <- lapply(1:nrow(Geeganage2010), function(i){matrix(c(1, r12, r12, 1), 2, 2)})
computvcov <- lgOR.vcov(nt = subset(Geeganage2010, select = c(nt_DD, nt_D)),
nc = subset(Geeganage2010, select = c(nc_DD, nc_D)),
st = subset(Geeganage2010, select = c(st_DD, st_D)),
sc = subset(Geeganage2010, select = c(sc_DD, sc_D)),
r = r.Gee)
# name computed log odds ratio as y
y <- computvcov$ef
colnames(y) <- c("lgOR.DD", "lgOR.D")
# name variance-covariance matrix of trnasformed z scores as S
S <- computvcov$matrix.vcov
## fixed-effect model
MMA_FE <- summary(metafixed(y = y, Slist = computvcov$list.vcov))
MMA_FE
#######################################################################
# Running random-effects model using package "mixmeta" or "metaSEM"
#######################################################################
# Restricted maximum likelihood (REML) estimator from the mixmeta package
#library(mixmeta)
#mvmeta_RE <- summary(mixmeta(cbind(lgOR.DD, lgOR.D)~1,
# S = S,
# data = as.data.frame(y),
# method = "reml"))
#mvmeta_RE
# maximum likelihood estimators from the metaSEM package
# library(metaSEM)
# metaSEM_RE <- summary(meta(y = y, v = S))
# metaSEM_RE
##############################################################
# Plotting the result:
##############################################################
obj <- MMA_FE
# obj <- mvmeta_RE
# obj <- metaSEM_RE
# pdf("CI.pdf", width = 4, height = 7)
plotCI(y = computvcov$ef, v = computvcov$list.vcov,
name.y = c("lgOR.DD", "lgOR.D"),
name.study = Geeganage2010$studyID,
y.all = obj$coefficients[,1],
y.all.se = obj$coefficients[,2],
hline = 1)
# dev.off()
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