2021
DOI: 10.1101/2021.09.03.458920
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When no answer is better than a wrong answer: a causal perspective on batch effects

Abstract: Batch effects, undesirable sources of variance across multiple experiments, present a substantial hurdle for scientific and clinical discoveries. Specifically, the presence of batch effects can create both spurious discoveries and hide veridical signals, contributing to the ongoing reproducibility crisis. Typical approaches to dealing with batch effects conceptualize 'batches' as an associational effect, rather than a causal effect, despite the fact that the sources of variance that comprise the batch -- pote… Show more

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Cited by 7 publications
(5 citation statements)
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“…Finally, while popular, the existing cross-sectional ComBat methods assessed here only represent one flavor of multi-site harmonization 4,5,36,37 . It will be important for future work to compare ComBatLS to -or potentially integrate it with -other innovative and emerging frameworks [38][39][40] .…”
Section: Discussionmentioning
confidence: 99%
“…Finally, while popular, the existing cross-sectional ComBat methods assessed here only represent one flavor of multi-site harmonization 4,5,36,37 . It will be important for future work to compare ComBatLS to -or potentially integrate it with -other innovative and emerging frameworks [38][39][40] .…”
Section: Discussionmentioning
confidence: 99%
“…We use DRTMLE to estimate the deconfounded group difference. However, a host of other statistical methods could be applied to the same end including covariate matching, propensity score matching ( Bridgeford et al, 2021 ; Stuart, 2010 ), inverse propensity weighting ( Lewinn et al, 2017 ), G-computation ( Robins, 1986 ; Snowden et al, 2011 ), augmented inverse propensity weighting ( Robins et al, 2012 ), and targeted maximum likelihood estimation ( Schuler and Rose, 2017 ; van der Laan and Rubin, 2006 ). Comparing the performance of these approaches in the context of rs-fMRI studies is an important area for future work but is beyond the scope of this paper.…”
Section: Discussionmentioning
confidence: 99%
“…We use DRTMLE to estimate the deconfounded group difference. However, a host of other statistical methods could be applied to the same end including covariate matching, propensity score matching (Stuart, 2010; Bridgeford et al, 2021), inverse propensity weighting (Lewinn et al, 2017), G-computation (Robins, 1986; Snowden et al, 2011), augmented inverse propensity weighting (Robins et al, 2012), and targeted maximum likelihood estimation (van der Laan and Rubin, 2006; Schuler and Rose, 2017). Comparing the performance of these approaches in the context of rs-fMRI studies is an important area for future work but is beyond the scope of this paper.…”
Section: Discussionmentioning
confidence: 99%