Immune Modulation by Design: Using Topography to Control Human Monocyte Attachment and Macrophage Differentiation
Description
Material topography is known to influence macrophage attachment and phenotype, providing opportunities for the rational design of ‘immune-instructive’ topographies to modulate macrophage function and thus foreign body responses to biomaterials. However, no generalisable understanding of the inter-relationship between topography and cell response exists. We therefore utilise a high throughput screening approach to investigate the relationship between topography and human monocyte-derived macrophage attachment and phenotype, using a diverse library of 2176 micropatterns generated by an algorithm. We use machine learning to successfully build a model that correlates cell attachment and phenotype with a selection of descriptors, illustrating that materials can potentially be designed to induce pro-inflammatory, anti-inflammatory or regulatory immune responses, for future application in the fight against foreign body rejection of medical devices.
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Subjects
- Macrophages
- Immune response -- regulation
- Biomedical materials
- Biocompatible Materials
- Immunomodulation
- Immunologic Factors
- Macrophages
- biomaterials, high-throughput screening, immune-modulation, topography
- Biological Sciences
- Q Science::QR Microbiology
Divisions
- University of Nottingham, UK Campus::Faculty of Science::School of Pharmacy
Research institutes and centres
- University of Nottingham, UK Campus
Deposit date
2020-05-05Data type
Excel spreadsheets, GraphPad prism files, jpeg images, Notepad (readme) filesContributors
- Vassey, Matthew
- Figueredo, Grazziela
- Scurr, David
- Alexander, Morgan R
- Williams, Paul
- Luckett, Jeni C
- Ghaemmaghami, Amir
- Winkler, David A
- de Boer, Jan
- Beijer, Nick R. M.
- Vasilevich, Aliaksei S.
- Vermeulen, Steven
- Carlier, Aurelie
Funders
- Engineering & Physical Sciences Research Council
Grant number
- EP/N006615/1
Collection dates
- 2018-2019
Data collection method
Microscopy, XPS, Tof-SIMS, ELISA, immunofluorescent stainingResource languages
- en