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Professor FELICITY ROSE's Outputs (8)

Biocooperative Regenerative Materials by Harnessing Blood-Clotting and Peptide Self-Assembly (2024)
Journal Article
Padilla-Lopategui, S., Ligorio, C., Bu, W., Yin, C., Laurenza, D., Redondo, C., Owen, R., Sun, H., Rose, F. R., Iskratsch, T., & Mata, A. (2024). Biocooperative Regenerative Materials by Harnessing Blood-Clotting and Peptide Self-Assembly. Advanced Materials, 36(52), Article 2407156. https://doi.org/10.1002/adma.202407156

The immune system has evolved to heal small ruptures and fractures with remarkable efficacy through regulation of the regenerative hematoma (RH); a rich and dynamic environment that coordinates numerous molecular and cellular processes to achieve com... Read More about Biocooperative Regenerative Materials by Harnessing Blood-Clotting and Peptide Self-Assembly.

Fungal Attachment-Resistant Polymers for the Additive Manufacture of Medical Devices (2024)
Journal Article
Yong, L. X., Sefton, J., Vallières, C., Rance, G. A., Hill, J., Cuzzucoli Crucitti, V., Dundas, A. A., Rose, F. R. A. J., Alexander, M. R., Wildman, R., He, Y., Avery, S. V., & Irvine, D. J. (2024). Fungal Attachment-Resistant Polymers for the Additive Manufacture of Medical Devices. ACS Applied Materials and Interfaces, 16(40), 54508–54519. https://doi.org/10.1021/acsami.4c04833

This study reports the development of the first copolymer material that (i) is resistant to fungal attachment and hence biofilm formation, (ii) operates via a nonkilling mechanism, i.e., avoids the use of antifungal actives and the emergence of funga... Read More about Fungal Attachment-Resistant Polymers for the Additive Manufacture of Medical Devices.

In vivo analysis of hybrid hydrogels containing dual growth factor combinations, and skeletal stem cells under mechanical stimulation for bone repair (2024)
Journal Article
Gothard, D., Rotherham, M., Smith, E. L., Kanczler, J. M., Henstock, J., Wells, J. A., Roberts, C. A., Qutachi, O., Peto, H., Rashidi, H., Rojo, L., White, L. J., Stevens, M. M., El Haj, A. J., Rose, F. R., & Oreffo, R. O. (2024). In vivo analysis of hybrid hydrogels containing dual growth factor combinations, and skeletal stem cells under mechanical stimulation for bone repair. Mechanobiology in Medicine, 2(4), Article 100096. https://doi.org/10.1016/j.mbm.2024.100096

Bone tissue engineering requires a combination of materials, cells, growth factors and mechanical cues to recapitulate bone formation. In this study we evaluated hybrid hydrogels for minimally invasive bone formation by combining biomaterials with sk... Read More about In vivo analysis of hybrid hydrogels containing dual growth factor combinations, and skeletal stem cells under mechanical stimulation for bone repair.

Computer Vision for Substrate Detection in High-Throughput Biomaterial Screens Using Bright-Field Microscopy (2024)
Journal Article
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

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 f... Read More about Computer Vision for Substrate Detection in High-Throughput Biomaterial Screens Using Bright-Field Microscopy.

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., Crucitti, V. C., Constantin, H., Inê Evangelista Barreiros, M., Cantu, L. R., Tuck, C., Rose, F. R. A. J., Hague, R. J. M., Roberts, C. J., Turyanska, L., Wildman, R. D., & 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.

Enabling high-fidelity personalised pharmaceutical tablets through multimaterial inkjet 3D printing with a water-soluble excipient (2024)
Journal Article
Rivers, G., Lion, A., Putri, N. R. E., Rance, G. A., Moloney, C., Taresco, V., Crucitti, V. C., Constantin, H., Evangelista Barreiros, M. I., Cantu, L. R., Tuck, C. J., Rose, F. R., Hague, R. J., Roberts, C. J., Turyanska, L., Wildman, R. D., & He, Y. (2024). Enabling high-fidelity personalised 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 personalised pharmaceutical tablets through multimaterial inkjet 3D printing with a water-soluble excipient.

Sustained adenosine release: Revealing its impact on osteogenic signalling pathways of human mesenchymal stromal cells (2024)
Journal Article
Hajiali, H., McLaren, J., Gonzalez-García, C., Abdelrazig, S., Kim, D.-H., Dalby, M. J., Salmerón-Sánchez, M., & Rose, F. R. (2024). Sustained adenosine release: Revealing its impact on osteogenic signalling pathways of human mesenchymal stromal cells. Engineered Regeneration, 5(2), 255-268. https://doi.org/10.1016/j.engreg.2024.04.002

Non-healing fractures, a global health concern arising from trauma, osteoporosis, and tumours, can lead to severe disabilities. Adenosine, integral to cellular energy metabolism, gains prominence in bone regeneration via adenosine A2B receptor activa... Read More about Sustained adenosine release: Revealing its impact on osteogenic signalling pathways of human mesenchymal stromal cells.

Glycerol-based sustainably sourced resin for volumetric printing (2024)
Journal Article
Krumins, E., Lentz, J. C., Sutcliffe, B., Sohaib, A., Jacob, P. L., Brugnoli, B., Cuzzucoli Crucitti, V., Cavanagh, R., Owen, R., Moloney, C., Ruiz-Cantu, L., Francolini, I., Howdle, S. M., Shusteff, M., Rose, F. R. A. J., Wildman, R. D., He, Y., & Taresco, V. (2024). Glycerol-based sustainably sourced resin for volumetric printing. Green Chemistry, 26(3), 1345-1355. https://doi.org/10.1039/d3gc03607c

Volumetric Additive Manufacturing (VAM) represents a revolutionary advancement in the field of Additive Manufacturing, as it allows for the creation of objects in a single, cohesive process, rather than in a layer-by-layer approach. This innovative t... Read More about Glycerol-based sustainably sourced resin for volumetric printing.