Simulation evaluation of statistical properties of methods for indirect and mixed treatment comparisons
| Autor: | Allan Clark, Max O Bachmann, Fujian Song, Jim Maas |
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| Jazyk: | angličtina |
| Předmět: |
Computer science
Epidemiology Bayesian probability Health Informatics 030204 cardiovascular system & hematology computer.software_genre Inconsistency Statistical power 03 medical and health sciences Bayes' theorem 0302 clinical medicine Clinical Protocols Bias Frequentist inference Indirect Treatment Mixed treatment comparison Humans Computer Simulation 030212 general & internal medicine Network meta-analysis lcsh:R5-920 Indirect comparison Data interpretation Bayes Theorem Research Design Data Interpretation Statistical Type I error Data mining Simulation evaluation lcsh:Medicine (General) computer Type I and type II errors Research Article |
| Zdroj: | BMC Medical Research Methodology, Vol 12, Iss 1, p 138 (2012) BMC Medical Research Methodology |
| ISSN: | 1471-2288 |
| DOI: | 10.1186/1471-2288-12-138 |
| Popis: | Background Indirect treatment comparison (ITC) and mixed treatment comparisons (MTC) have been increasingly used in network meta-analyses. This simulation study comprehensively investigated statistical properties and performances of commonly used ITC and MTC methods, including simple ITC (the Bucher method), frequentist and Bayesian MTC methods. Methods A simple network of three sets of two-arm trials with a closed loop was simulated. Different simulation scenarios were based on different number of trials, assumed treatment effects, extent of heterogeneity, bias and inconsistency. The performance of the ITC and MTC methods was measured by the type I error, statistical power, observed bias and mean squared error (MSE). Results When there are no biases in primary studies, all ITC and MTC methods investigated are on average unbiased. Depending on the extent and direction of biases in different sets of studies, ITC and MTC methods may be more or less biased than direct treatment comparisons (DTC). Of the methods investigated, the simple ITC method has the largest mean squared error (MSE). The DTC is superior to the ITC in terms of statistical power and MSE. Under the simulated circumstances in which there are no systematic biases and inconsistencies, the performances of MTC methods are generally better than the performance of the corresponding DTC methods. For inconsistency detection in network meta-analysis, the methods evaluated are on average unbiased. The statistical power of commonly used methods for detecting inconsistency is very low. Conclusions The available methods for indirect and mixed treatment comparisons have different advantages and limitations, depending on whether data analysed satisfies underlying assumptions. To choose the most valid statistical methods for research synthesis, an appropriate assessment of primary studies included in evidence network is required. |
| Databáze: | OpenAIRE |
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