In meta-analysis, the random-effects model is often used to account for heterogeneity. The model assumes that heterogeneity has an additive effect on the variance of effect sizes. An alternative model, which assumes multiplicative heterogeneity, has been little used in the medical statistics community, but is widely used by particle physicists. In this paper, we compare the two models using a random sample of 448 meta-analyses drawn from the Cochrane Database of Systematic Reviews. In general, differences in goodness of fit are modest. The multiplicative model tends to give results that are closer to the null, with a narrower confidence interval. Both approaches make different assumptions about the outcome of the meta-analysis. In our opini...
In recent years, meta-analysis has evolved to a critically important field of Statistics, and has si...
Evaluation of important causes of heterogeneity among study results is an important component of any...
Heterogeneity in meta-analysis can be caused by chance, methodological or clinical variations betwee...
In meta-analysis, the random-effects model is often used to account for heterogeneity. The model ass...
In meta-analysis the random-effects model is often used to account for heterogeneity. The model assu...
To conduct a meta-analysis, one needs to express the results from a set of related studies in terms ...
The goal of a meta-analysis is not only to synthesize the information of selected studies, estimate ...
Heterogeneity in meta-analysis describes differences in treatment effects between trials that exceed...
In this paper we use Monte Carlo simulation to investigate the impact of effect size heterogeneity o...
The meta-analytic random effects model assumes that the variability in effect size estimates drawn f...
The random effects model in meta-analysis is a standard statistical tool often used to analyze the e...
Meta-analyses are conducted to synthesize the quantitative results of related studies. The random-ef...
Background Meta-analysis of preclinical data is used to evaluate the consistency of findings and to ...
A relevant problem in meta-analysis concerns the possible heterogeneity between trial results. If a ...
In this article we use Monte Carlo analysis to assess the small sample behaviour of the OLS, the wei...
In recent years, meta-analysis has evolved to a critically important field of Statistics, and has si...
Evaluation of important causes of heterogeneity among study results is an important component of any...
Heterogeneity in meta-analysis can be caused by chance, methodological or clinical variations betwee...
In meta-analysis, the random-effects model is often used to account for heterogeneity. The model ass...
In meta-analysis the random-effects model is often used to account for heterogeneity. The model assu...
To conduct a meta-analysis, one needs to express the results from a set of related studies in terms ...
The goal of a meta-analysis is not only to synthesize the information of selected studies, estimate ...
Heterogeneity in meta-analysis describes differences in treatment effects between trials that exceed...
In this paper we use Monte Carlo simulation to investigate the impact of effect size heterogeneity o...
The meta-analytic random effects model assumes that the variability in effect size estimates drawn f...
The random effects model in meta-analysis is a standard statistical tool often used to analyze the e...
Meta-analyses are conducted to synthesize the quantitative results of related studies. The random-ef...
Background Meta-analysis of preclinical data is used to evaluate the consistency of findings and to ...
A relevant problem in meta-analysis concerns the possible heterogeneity between trial results. If a ...
In this article we use Monte Carlo analysis to assess the small sample behaviour of the OLS, the wei...
In recent years, meta-analysis has evolved to a critically important field of Statistics, and has si...
Evaluation of important causes of heterogeneity among study results is an important component of any...
Heterogeneity in meta-analysis can be caused by chance, methodological or clinical variations betwee...