Abstract
It may not always be possible to blind participants of a randomized controlled trial for treatment allocation. As a result, estimators of the actual treatment effect may be biased. In this paper, we will extend a novel method, originally introduced in genetic research, for instrumental variable meta-analysis, adjusting for bias due to unblinding of trial participants. Using simulation studies, this novel method, “Egger Correction for non-Adherence”, is introduced and compared to the performance of the “intention-to-treat,” “as-treated,” and conventional “instrumental variable” estimators. Scenarios considered (time-varying) non-adherence, confounding, and between-study heterogeneity. The effect of treatment on a binary endpoint was quantified by means of a risk difference. In all scenarios with unblinded treatment allocation, the Egger Correction for non-Adherence method was the least biased estimator. However, unless the variation in adherence was relatively large, precision was lacking, and power did not surpass 0.50. As a comparison, in a meta-analysis of blinded randomized controlled trials, power of the conventional IV estimator was 1.00 versus at most 0.14 for the Egger Correction for non-Adherence estimator. Due to this lack of precision and power, we suggest to use this method mainly as a sensitivity analysis.
Original language | English |
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Pages (from-to) | 2413-2427 |
Number of pages | 15 |
Journal | Statistical Methods in Medical Research |
Volume | 27 |
Issue number | 8 |
DOIs | |
Publication status | Published - 1 Aug 2018 |
Keywords
- bias
- instrumental variable
- Monte Carlo method
- randomized controlled trials
- Statistics
- treatment effectiveness