Modification and mechanical properties of electrospun blended fibermat of PLGA and siloxane-containing vaterite/PLLA hybrids for bone repair

Abstract: Abstract. Multi-syringe electrospinning has been successfully employed to produce a blended fibermat composed of poly(lactic-glycolic acid) (PLGA) fibers and a composite fiber for bone repair. The composite fiber, siloxane-containing vaterite (SiV)/poly(L-lactic acid) (PLLA), donated as SiPVH has the ability to release soluble silica species and calcium ions at a controlled rate. The SiPVH fibermats have demonstrated excellent bone regeneration ability in vivo at the front midline of the calvaria of rabbits. H… Show more

“…Lou et al observed an 80% increase of scaffolds compressive strength with an 11% decrease of their porosity (37). Poologasundarampillai et al obtained, by electrospinning, hybrid, PLGA-based, fibermats with maximum value of tensile strength around 0.5 MPa (38). In our study, a combination of electrospinning with the freeze-drying method allowed fabrication of materials with higher tensile strength (about 1.6 MPa).…”

Polylactide/polycaprolactone asymmetric membranes for guided bone regeneration

“…Lou et al observed an 80% increase of scaffolds compressive strength with an 11% decrease of their porosity (37). Poologasundarampillai et al obtained, by electrospinning, hybrid, PLGA-based, fibermats with maximum value of tensile strength around 0.5 MPa (38). In our study, a combination of electrospinning with the freeze-drying method allowed fabrication of materials with higher tensile strength (about 1.6 MPa).…”

Polylactide/polycaprolactone asymmetric membranes for guided bone regeneration

Inorganic-Organic Hybrids for Biomedical Applications

Inorganic-Organic Hybrids for Biomedical Applications