Zegre, MiguelHenriques, M.Santos, C.Ribeiro, I. A.Caetano, Liliana AranhaGonçalves, Lídia M.Bettencourt, Ana F.2022-03-142022-03-142021-09Zegre M, Henriques M, Santos C, Ribeiro IA, Caetano LA, Gonçalves L, et al. Poly(DL-lactic acid) scaffolds adsorbed with minocycline and voriconazole: a new pathway towards infection containment. In: 31st Conference of the European Society for Biomaterials [online], University of Porto (Portugal), September 5-9, 2021.http://hdl.handle.net/10400.21/14450Bone infection (osteomyelitis): burden as a clinical complication of orthopedic surgeries. Controlled antimicrobial release systems: treat and prevent osteomyelitis. Biomaterials based on porous scaffolds: local administration of high concentration of drugs; no systemic toxicity; extended time. Scaffolds in bone tissue engineering: a combination of bioresorbable polymers with bioactive bioglasses; present biodegradability and biosafety; suitable microenvironment and structure; favor osteogenic differentiation and cell growth. Co-encapsulation of drugs: advantageous means for administration of drugs; novel strategy directed to the co-delivery of two antimicrobials (voriconazole and minocycline).engScaffoldsMinocyclineVoriconazoleOsteomyelitisLocal antimicrobial therapyconference object