Author: Zimmerman, Kip D.; Espeland, Mark A.; Langefeld, Carl D.
Title: A practical solution to pseudoreplication bias in single-cell studies Cord-id: a7kpq7n0 Document date: 2021_2_2
ID: a7kpq7n0
Snippet: Cells from the same individual share common genetic and environmental backgrounds and are not statistically independent; therefore, they are subsamples or pseudoreplicates. Thus, single-cell data have a hierarchical structure that many current single-cell methods do not address, leading to biased inference, highly inflated type 1 error rates, and reduced robustness and reproducibility. This includes methods that use a batch effect correction for individual as a means of accounting for within-sam
Document: Cells from the same individual share common genetic and environmental backgrounds and are not statistically independent; therefore, they are subsamples or pseudoreplicates. Thus, single-cell data have a hierarchical structure that many current single-cell methods do not address, leading to biased inference, highly inflated type 1 error rates, and reduced robustness and reproducibility. This includes methods that use a batch effect correction for individual as a means of accounting for within-sample correlation. Here, we document this dependence across a range of cell types and show that pseudo-bulk aggregation methods are conservative and underpowered relative to mixed models. To compute differential expression within a specific cell type across treatment groups, we propose applying generalized linear mixed models with a random effect for individual, to properly account for both zero inflation and the correlation structure among measures from cells within an individual. Finally, we provide power estimates across a range of experimental conditions to assist researchers in designing appropriately powered studies.
Search related documents:
Co phrase search for related documents- accurate result and low number: 1
- accurate result and low specificity: 1
- long large and low number: 1, 2, 3, 4, 5, 6
Co phrase search for related documents, hyperlinks ordered by date