scTree: Discovering Cellular Hierarchies in the Presence of Batch Effects in scRNA-Seq Data
Abstract
We propose a novel method, scTree, for single-cell Tree Variational Autoencoders, extending a hierarchical clustering approach to single-cell RNA sequencing data. scTree corrects for batch effects while simultaneously learning a tree-structured data representation. This VAE-based method allows for a more in-depth understanding of complex cellular landscapes independently of the biasing effects of batches. We show empirically on seven datasets that scTree discovers the underlying clusters of the data and the hierarchical relations between them, as well as outperforms established baseline methods across these datasets. Additionally, we analyze the learned hierarchy to understand its biological relevance, thus underpinning the importance of integrating batch correction directly into the clustering procedure.
Cite
Text
Vandenhirtz et al. "scTree: Discovering Cellular Hierarchies in the Presence of Batch Effects in scRNA-Seq Data." ICML 2024 Workshops: AccMLBio, 2024.Markdown
[Vandenhirtz et al. "scTree: Discovering Cellular Hierarchies in the Presence of Batch Effects in scRNA-Seq Data." ICML 2024 Workshops: AccMLBio, 2024.](https://mlanthology.org/icmlw/2024/vandenhirtz2024icmlw-sctree/)BibTeX
@inproceedings{vandenhirtz2024icmlw-sctree,
title = {{scTree: Discovering Cellular Hierarchies in the Presence of Batch Effects in scRNA-Seq Data}},
author = {Vandenhirtz, Moritz and Barkmann, Florian and Manduchi, Laura and Vogt, Julia E and Boeva, Valentina},
booktitle = {ICML 2024 Workshops: AccMLBio},
year = {2024},
url = {https://mlanthology.org/icmlw/2024/vandenhirtz2024icmlw-sctree/}
}