All Outputs (2)

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.

Strengths and opportunities in research into extracellular matrix ageing: A consultation with the ECMage research community (2024)
Journal Article
Dalby, M. J., Pekovic‐Vaughan, V., Shanley, D. P., Swift, J., White, L. J., & Canty‐Laird, E. G. (2024). Strengths and opportunities in research into extracellular matrix ageing: A consultation with the ECMage research community. BioEssays, 46(5), Article 2300223. https://doi.org/10.1002/bies.202300223

Ageing causes progressive decline in metabolic, behavioural, and physiological functions, leading to a reduced health span. The extracellular matrix (ECM) is the three‐dimensional network of macromolecules that provides our tissues with structure and... Read More about Strengths and opportunities in research into extracellular matrix ageing: A consultation with the ECMage research community.