Self-supervision advances morphological profiling by unlocking powerful image representations

Kim, Vladislav; Adaloglou, Nikolaos; Osterland, Marc; Morelli, Flavio; Zapata, Paula Andrea Marin

doi:10.1101/2023.04.28.538691

Cited by 10 publications

(20 citation statements)

References 73 publications

(162 reference statements)

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“…To make interpretation easier, every metric here was normalized between 0 and 1, with 0 being the worst performance and 1 being the best. These quantitative metrics (Sup Figure A) guided the selection of the preprocessing steps to be used as our Baseline approach, in agreement with established protocols in the field 34,36 . All remaining results in this paper apply this four-step preprocessing.…”

Section: Resultssupporting

confidence: 57%

“…Methods evaluated in this benchmark process tabular data extracted with standard image processing algorithms 43 . An alternative approach is to learn representations from images 29,36 . The design of neural network architectures and representation learning algorithms for Cell Painting is still an active research area, as is studying the interaction of these methods with those for batch correction; thus, our benchmark serves to establish a baseline for future studies comparing the performance of batch correction methods for learning-based representations.…”

Section: Discussionmentioning

confidence: 99%

“…However, this approach also requires the tuning of additional classification pipelines during evaluation, making the comparison of batch correction methods somewhat less straightforward. Lastly, Kim et al's 44 evaluation provides another direct approach, using silhouette score, graph connectivity, and local inverse Simpson's index (LISI) to quantify batch effects across different representation learning methods. Their evaluation is similar to our Scenarios 1 and 2, described below.…”

Section: Selection Of Batch Correction Methods and Evaluation Strategiesmentioning

confidence: 99%

“…Again, we observed that applying both preprocessing steps was preferable according to most metrics. We therefore selected MAD + Sphering as our Baseline approach, in agreement with established protocols in the field 44,45 . All remaining results in this paper apply this two-step preprocessing.…”

Section: Selection Of Batch Correction Methods and Evaluation Strategiesmentioning

confidence: 99%

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Evaluating batch correction methods for image-based cell profiling

Arevalo,

Su,

van Dijk

et al. 2023

Preprint

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High-throughput image-based profiling platforms are powerful technologies capable of collecting data from billions of cells exposed to thousands perturbations in a time- and cost-effective manner. Therefore, image-based profiling data has been increasingly used for diverse biological applications, such as predicting drug mechanism of action or gene function. However, batch effects pose severe limitations to community-wide efforts to integrate and interpret image-based profiling data collected across different laboratories and equipment. To address this problem, we evaluated seven top-ranked batch correction strategies for mRNA profiles in the context of a newly released Cell Painting dataset, the largest publicly accessible image-based dataset. We focused on five different use scenarios with varying complexity, and found that Harmony, a nonlinear method, consistently outperformed the other tested methods. Furthermore, we provide a framework, benchmark, and metrics for the future assessment of new batch correction methods. Overall, this work paves the way for improvements that allow the community to make best use of public Cell Painting data for scientific discovery.

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Section: Resultssupporting

confidence: 57%

Section: Discussionmentioning

confidence: 99%

Section: Selection Of Batch Correction Methods and Evaluation Strategiesmentioning

confidence: 99%

Section: Selection Of Batch Correction Methods and Evaluation Strategiesmentioning

confidence: 99%

See 2 more Smart Citations

Evaluating batch correction methods for image-based cell profiling

Arevalo,

Su,

van Dijk

et al. 2023

Preprint

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“…Kim et al 70 performed a systematic analysis of common image augmentations for multi-channel microscopy images, finding that a combination of random brightness shifts and intensity changes applied independently to each image channel had the greatest positive impact on model performance. We have extended this approach by adding a probability weighting for each channel, hereby referring to this method as Channel-wise Augmentation (CWA).…”

Section: Raw Images: Data Augmentationmentioning

confidence: 99%

Cell-Vision Fusion: A Swin Transformer-based Approach to Predicting Kinase Inhibitor Mechanism of Action from Cell Painting Data

Dee,

Sequeira,

Lobley

et al. 2023

Preprint

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Image-based profiling of the cellular response to drug compounds has proven to be an effective method to characterize the morphological changes resulting from chemical perturbation experiments. This approach has been useful in the field of drug discovery, ranging from phenotype-based screening to identifying a compound’s mechanism of action or toxicity. As a greater amount of data becomes available however, there are growing demands for deep learning methods to be applied to perturbation data. In this paper we applied the transformer-based SwinV2 computer vision architecture to predict the mechanism of action of 10 kinase inhibitor compounds directly from raw images of the cellular response. This method outperforms the standard approach of using image-based profiles, multidimensional feature set representations generated by bioimaging software. Furthermore, we combined the best performing models for three different data modalities, raw images, image-based profiles and compound chemical structures, to form a fusion model, Cell-Vision Fusion (CVF). This approach classified the kinase inhibitors with 69.79% accuracy and 70.56% F1 score, 4.20% and 5.49% greater, respectively, than the best performing image-based profile method. Our work provides three techniques, specific to Cell Painting images, which enable the SwinV2 architecture to train effectively, and explores approaches to combat the significant batch effects present in large Cell Painting perturbation datasets.

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