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Modulation of the biological response to surfaces through the controlled deposition of 3D polymeric surfactants

Cuzzucoli Crucitti, Valentina; Hajiali, Hadi; Dundas, Adam A.; Jayawarna, Vineetha; Tomolillo, Dario; Francolini, Iolanda; Vuotto, Claudia; Salmeron-Sanchez, Manuel; Dalby, Matthew J.; Alexander, Morgan R.; Wildman, Ricky D.; Rose, Felicity R. A. J.; Irvine, Derek J.

Authors

Hadi Hajiali

Vineetha Jayawarna

Dario Tomolillo

Iolanda Francolini

Claudia Vuotto

Manuel Salmeron-Sanchez

Matthew J. Dalby



Abstract

Biomaterials play a crucial role in modern medicine through their use as medical implants and devices. However, they can support biofilm formation and infection, and lack integration with the surrounding human tissue at the implant site. This work reports the development of novel poly(ethyl acrylate) (PEA) based copolymers that address both issues. These PEA materials were molecularly designed polymeric surfactants (surfmers) synthesised via controlled radical polymerisations to achieve different polymeric architectures, (i.e., statistical and block copolymers). These were both deposited as structured 2D films on glass coverslips and used to manufacture monodisperse 3D micro-particles with functional surfaces (via microfluidics). ToF-SIMS was used to analyse these 2D and 3D surfaces to understand: (a) the surface arrangement of the monomer sequences exhibited by the different polymer structures and (b) how this surface monomer arrangement influenced mammalian fibroblast cell and/or Staphylococcus aureus behaviour at these film/particle surfaces. In addition, the form of the fibronectin (FN) network assembly's importance in promoting growth factor (GF) binding was probed using atomic force microscopy (AFM) on the 2D films. This confirmed that specific surfmer molecular surface organisations were achieved during film/micro-particle fabrication, which presented exterior functionalities that either prevent biofilm attachment or promote the formation of structured FN networks for GF binding.

Citation

Cuzzucoli Crucitti, V., Hajiali, H., Dundas, A. A., Jayawarna, V., Tomolillo, D., Francolini, I., Vuotto, C., Salmeron-Sanchez, M., Dalby, M. J., Alexander, M. R., Wildman, R. D., Rose, F. R. A. J., & Irvine, D. J. (2025). Modulation of the biological response to surfaces through the controlled deposition of 3D polymeric surfactants. Journal of Materials Chemistry B, 13(15), 4657-4670. https://doi.org/10.1039/d4tb01941e

Journal Article Type Article
Acceptance Date Mar 5, 2025
Online Publication Date Mar 25, 2025
Publication Date Apr 21, 2025
Deposit Date Apr 2, 2025
Journal Journal of Materials Chemistry B
Print ISSN 2050-750X
Electronic ISSN 2050-7518
Publisher Royal Society of Chemistry
Peer Reviewed Peer Reviewed
Volume 13
Issue 15
Pages 4657-4670
DOI https://doi.org/10.1039/d4tb01941e
Public URL https://nottingham-repository.worktribe.com/output/47118948


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