Examining the practical limits of batch effect-correction algorithms: When should you care about batch effects?
Publication date: Available online 20 September 2019Source: Journal of Genetics and GenomicsAuthor(s): Longjian Zhou, Andrew Chi-Hau Sue, Wilson Wen Bin GohAbstractBatch effects are technical sources of variation and can confound analysis. While many performance ranking exercises have been conducted to establish the best batch effect-correction algorithm (BECA), we hold the viewpoint that the notion of best is context-dependent. Moreover, alternative questions beyond the simplistic notion of “best” are also interesting: are BECAs robust against various degrees of confounding and if so, what is the limit? Using two different methods for simulating class (phenotype) and batch effects and taking various representative datasets across both genomics (RNA-Seq) and proteomics platforms, we demonstrate that up till situations where sample classes and batch factors are moderately confounded, and most BECAs are remarkably robust and only weakly affected by upstream normalization procedures. This observation is consistently supported across the multitude of test datasets. BECAs do have limits: When sample classes and batch factors are strongly confounded, BECA performance declines, with variable performance in precision, recall and also batch correction. We also report that while conventional normalization methods have minimal impact on batch effect correction, they do not affect downstream statistical feature selection, and in strongly confounded scenarios, may even outperform BECA...
Source: Journal of Genetics and Genomics - Category: Genetics & Stem Cells Source Type: research
MedWorm Privacy Policy
Disclaimer
Copyright © MedWorm 2006-2024