Inkjet based 3D Printing of bespoke medical devices that resist bacterial biofilm formation

He, Yinfeng; Begines, Belen; Luckett, Jeni; Dubern, Jean-Frederic; Hook, Andrew; Prina, Elisabetta; Rose, Felicity RAJ; Tuck, Christopher; Hague, Richard; Irvine, Derek; Williams, Paul; Alexander, Morgan R.; Wildman, Ricky D.

All Outputs (5)

Enabling High-fidelity Personalized Pharmaceutical Tablets through Multimaterial Inkjet 3D Printing with a Water-soluble Excipient (2024)
Journal Article
Rivers, G., Lion, A., Rofiqoh Eviana Putri, N., Rance, G., Moloney, C., Taresco, V., …He, Y. (2024). Enabling High-fidelity Personalized Pharmaceutical Tablets through Multimaterial Inkjet 3D Printing with a Water-soluble Excipient. Materials Today Advances, 22, Article 100493. https://doi.org/10.1016/j.mtadv.2024.100493

Additive manufacturing offers manufacture of personalised pharmaceutical tablets through design freedoms and material deposition control at an individual voxel level. This control goes beyond geometry and materials choices: inkjet based 3D printing e... Read More about Enabling High-fidelity Personalized Pharmaceutical Tablets through Multimaterial Inkjet 3D Printing with a Water-soluble Excipient.

Exploiting Generative Design for Multi-Material Inkjet 3D Printed Cell Instructive, Bacterial Biofilm Resistant Composites (2022)
Preprint / Working Paper
he, Y., Begines, B., Trindade, G., Abdi, M., dubern, J., Prina, E., …Wildman, R. Exploiting Generative Design for Multi-Material Inkjet 3D Printed Cell Instructive, Bacterial Biofilm Resistant Composites

As our understanding of disease grows, it is becoming established that treatment needs to be personalized and targeted to the needs of the individual. In this paper we show that multi-material inkjet-based 3D printing, when backed with generative des... Read More about Exploiting Generative Design for Multi-Material Inkjet 3D Printed Cell Instructive, Bacterial Biofilm Resistant Composites.

Ink-jet 3D printing as a strategy for developing bespoke non-eluting biofilm resistant medical devices (2021)
Journal Article
He, Y., Luckett, J., Begines, B., Dubern, J. F., Hook, A. L., Prina, E., …Wildman, R. D. (2022). Ink-jet 3D printing as a strategy for developing bespoke non-eluting biofilm resistant medical devices. Biomaterials, 281, Article 121350. https://doi.org/10.1016/j.biomaterials.2021.121350

Chronic infection as a result of bacterial biofilm formation on implanted medical devices is a major global healthcare problem requiring new biocompatible, biofilm-resistant materials. Here we demonstrate how bespoke devices can be manufactured throu... Read More about Ink-jet 3D printing as a strategy for developing bespoke non-eluting biofilm resistant medical devices.

Inkjet 3D Printing of Polymers Resistant to Fungal Attachment (2021)
Journal Article
He, Y., Vallières, C., Alexander, M. R., Wildman, R. D., & Avery, S. V. (2021). Inkjet 3D Printing of Polymers Resistant to Fungal Attachment. Bio-protocol, 11(9), Article e4016. https://doi.org/10.21769/BioProtoc.4016

Inkjet 3D printing is an additive manufacturing method that allows the user to produce a small batch of customized devices for comparative study versus commercial products. Here, we describe the use of a commercial 2D ink development system (Dimatix... Read More about Inkjet 3D Printing of Polymers Resistant to Fungal Attachment.

Inkjet based 3D Printing of bespoke medical devices that resist bacterial biofilm formation (2020)
Preprint / Working Paper
He, Y., Begines, B., Luckett, J., Dubern, J., Hook, A., Prina, E., …Wildman, R. D. Inkjet based 3D Printing of bespoke medical devices that resist bacterial biofilm formation

We demonstrate the formulation of advanced functional 3D printing inks that prevent the formation of bacterial biofilms in vivo. Starting from polymer libraries, we show that a biofilm resistant object can be 3D printed with the potential for shape a... Read More about Inkjet based 3D Printing of bespoke medical devices that resist bacterial biofilm formation.