The feasibility to obtain highly porous collagen-based scaffolds (SCs) integrated with uniformly dispersed poly (lactide-co-glycolide)(PLGA) microparticles (MPs) was evaluated. PLGA-MPs were prepared by double emulsion technique and SCs with different amounts of MPs (SC/PLGA-MPs) were produced. Results showed that SC/PLGA-MPs could be successfully manufactured, the PLGA-MPs being physically retained in the SCs, without affecting the porous structure. PLGA-MPs also increased the SC hydrophilicity, acted as a mechanical reinforcement and retarded the degradation rate. In addition, the interactions between MPs and Caco-2 cells did not interfere with the correct morphological, adhesion and proliferation pathways.
Integration of PLGA Microparticles in Collagen-Based Matrices: Tunable Scaffold Properties and Interaction Between Microparticles and Human Epithelial-Like Cells
Madaghiele, M.;Salvatore, L.;Barca, A.;Bettini, S.;Valli, L.;Verri, T.;Sannino, A.
2020-01-01
Abstract
The feasibility to obtain highly porous collagen-based scaffolds (SCs) integrated with uniformly dispersed poly (lactide-co-glycolide)(PLGA) microparticles (MPs) was evaluated. PLGA-MPs were prepared by double emulsion technique and SCs with different amounts of MPs (SC/PLGA-MPs) were produced. Results showed that SC/PLGA-MPs could be successfully manufactured, the PLGA-MPs being physically retained in the SCs, without affecting the porous structure. PLGA-MPs also increased the SC hydrophilicity, acted as a mechanical reinforcement and retarded the degradation rate. In addition, the interactions between MPs and Caco-2 cells did not interfere with the correct morphological, adhesion and proliferation pathways.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
