A biodegradable antibiotic-impregnated scaffold to prevent osteomyelitis and encourage new bone growth

McLaren, Jane S.; Bayston, Roger; White, Lisa J.; Cox, Helen C.; Ashraf, Warda; Rahman, Cheryl V.; Blunn, G.W.; Goodship, Allen E.; Quirk, Robin A.; Shakesheff, Kevin M.; Scammell, Birgitte E.

doi:10.22203/eCM.v027a24

All Outputs (2)

A biodegradable antibiotic-impregnated scaffold to prevent osteomyelitis in a contaminated in vivo bone defect model (2014)
Journal Article
McLaren, J. S., White, L., Cox, H., Ashraf, W., Rahman, C., Blunn, G., …Scammell, B. E. (2014). A biodegradable antibiotic-impregnated scaffold to prevent osteomyelitis in a contaminated in vivo bone defect model. eCells and Materials Journal, 27, 332-349. https://doi.org/10.22203/eCM.v027a24

Open fractures are at risk of serious infection and, if infected, require several surgical interventions and courses of systemic antibiotics. We investigated a new injectable formulation that simultaneously hardens in vivo to form a porous scaffold f... Read More about A biodegradable antibiotic-impregnated scaffold to prevent osteomyelitis in a contaminated in vivo bone defect model.

A biodegradable antibiotic-impregnated scaffold to prevent osteomyelitis and encourage new bone growth (2014)
Journal Article
McLaren, J. S., Bayston, R., White, L. J., Cox, H. C., Ashraf, W., Rahman, C. V., …Scammell, B. E. (2014). A biodegradable antibiotic-impregnated scaffold to prevent osteomyelitis and encourage new bone growth. eCells and Materials Journal, 27, 332-349. https://doi.org/10.22203/eCM.v027a24

Open fractures are at risk of serious infection and, if infected, require several surgical interventions and courses of systemic antibiotics. We investigated a new injectable formulation that simultaneously hardens in vivo to form a porous scaffold f... Read More about A biodegradable antibiotic-impregnated scaffold to prevent osteomyelitis and encourage new bone growth.