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AI-based approach to dissect the variability of mouse stem cell-derived embryo models

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Peer-reviewed

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Abstract

Recent advances in stem cell-derived embryo models have transformed developmental biology, offering insights into embryogenesis without the constraints of natural embryos. However, variability in their development challenges research standardization. To address this, we use deep learning to enhance the reproducibility of selecting stem cell-derived embryo models. Through live imaging and AI-based models, we classify 900 mouse post-implantation stem cell-derived embryo-like structures (ETiX-embryos) into normal and abnormal categories. Our best-performing model achieves 88% accuracy at 90 h post-cell seeding and 65% accuracy at the initial cell-seeding stage, forecasting developmental trajectories. Our analysis reveals that normally developed ETiX-embryos have higher cell counts and distinct morphological features such as larger size and more compact shape. Perturbation experiments increasing initial cell numbers further supported this finding by improving normal development outcomes. This study demonstrates deep learning’s utility in improving embryo model selection and reveals critical features of ETiX-embryo self-organization, advancing consistency in this evolving field.

Description

Acknowledgements: We thank Wenqi Hu for the annotation of the dataset. This work was supported by the NIH through the Director’s Pioneer Award (HD104575A to M.Z.-G.), and R01HD101489 (GRANT13035316 to M.Z.-G.), NOMIS Foundation (12540449 to M.Z.-G.), the Wellcome Trust (207415/Z/17/Z to M.Z.-G.), the Open Philanthropy Project (to M.Z.-G.), the Helmholtz Association under the joint research school “HIDSS4Health” – Helmholtz Information and Data Science School for Health to L.D., and the Helmholtz program NACIP to R.M. and L.D. This work is supported by the Helmholtz Association Initiative and Networking Fund on the HAICORE@KIT partition.


Funder: MZG.PIONEER.1.NIHP (HD104575A) Open Philanthropy Project

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Journal Title

Nature Communications

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Journal ISSN

2041-1723

Volume Title

16

Publisher

Nature Publishing Group UK

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Except where otherwised noted, this item's license is described as http://creativecommons.org/licenses/by-nc-nd/4.0/
Sponsorship
NOMIS Stiftung (NOMIS Foundation) (12540449)
Wellcome Trust (Wellcome) (207415/Z/17/Z)
Helmholtz Association (HIDSS4Health)