Dr ROBERT OWEN Robert.Owen@nottingham.ac.uk
Nottingham Research Fellow Fellowship
Computer Vision for Substrate Detection in High‐Throughput Biomaterial Screens Using Bright‐Field Microscopy
Owen, Robert; Nasir, Aishah; H. Amer, Mahetab; Nie, Chenxue; Xue, Xuan; Burroughs, Laurence; Denning, Chris; D. Wildman, Ricky; A. Khan, Faraz; R. Alexander, Morgan; R. A. J. Rose, Felicity
Authors
AISHAH NASIR Aishah.Nasir@nottingham.ac.uk
Research Fellow
Mahetab H. Amer
Chenxue Nie
Xuan Xue
Laurence Burroughs
CHRIS DENNING chris.denning@nottingham.ac.uk
Professor of Stem Cell Biology
RICKY WILDMAN RICKY.WILDMAN@NOTTINGHAM.AC.UK
Professor of Multiphase Flow and Mechanics
Faraz A. Khan
MORGAN ALEXANDER MORGAN.ALEXANDER@NOTTINGHAM.AC.UK
Professor of Biomedical Surfaces
FELICITY ROSE FELICITY.ROSE@NOTTINGHAM.AC.UK
Professor of Biomaterials and Tissue Engineering
Abstract
High-throughput screening (HTS) can be used when ab initio information is unavailable for rational design of new materials, generating data on properties such as chemistry and topography that control cell behavior. Biomaterial screens are typically fabricated as microarrays or “chips,” seeded with the cell type of interest, then phenotyped using immunocytochemistry and high-content imaging, generating vast quantities of image data. Typically, analysis is only performed on fluorescent cell images as it is relatively simple to automate through intensity thresholding of cellular features. Automated analysis of bright-field images is rarely performed as it presents an automation challenge as segmentation thresholds that work in all images cannot be defined. This limits the biological insight as cell response cannot be correlated to specifics of the biomaterial feature (e.g., shape, size) as these features are not visible on fluorescence images. Computer Vision aims to digitize tasks humans do by sight, such as identify objects by their shape. Herein, two case studies demonstrate how open-source approaches, (region-based convolutional neural network and algorithmic [OpenCV]), can be integrated into cell-biomaterial HTS analysis to automate bright-field segmentation across thousands of images, allowing rapid, spatial definition of biomaterial features during cell analysis for the first time.
Citation
Owen, R., Nasir, A., H. Amer, M., Nie, C., Xue, X., Burroughs, L., Denning, C., D. Wildman, R., A. Khan, F., R. Alexander, M., & R. A. J. Rose, F. (2024). Computer Vision for Substrate Detection in High‐Throughput Biomaterial Screens Using Bright‐Field Microscopy. Advanced Intelligent Systems, Article 2400573. https://doi.org/10.1002/aisy.202400573
| Journal Article Type | Article |
|---|---|
| Acceptance Date | Jul 29, 2024 |
| Online Publication Date | Aug 22, 2024 |
| Publication Date | Aug 22, 2024 |
| Deposit Date | Sep 11, 2024 |
| Publicly Available Date | Sep 13, 2024 |
| Journal | Advanced Intelligent Systems |
| Electronic ISSN | 2640-4567 |
| Publisher | Wiley |
| Peer Reviewed | Peer Reviewed |
| Article Number | 2400573 |
| DOI | https://doi.org/10.1002/aisy.202400573 |
| Public URL | https://nottingham-repository.worktribe.com/output/38649052 |
| Publisher URL | https://onlinelibrary.wiley.com/doi/10.1002/aisy.202400573 |
Files
Advanced Intelligent Systems - 2024 - Owen - Computer Vision for Substrate Detection in High‐Throughput Biomaterial Screens
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Publisher Licence URL
https://creativecommons.org/licenses/by/4.0/
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