Frontal bone defect repair with experimental glass-fiber-reinforced composite with bioactive glass granule coating. Tuusa SM-R, Peltola MJ, Tirri T, Lassila LVJ, Vallittu PK.
Antibacterial effects and dissolution behavior of six bioactive glasses. Zhang D, Leppäranta O, Munukka E, Ylänen H, Viljanen MK, Eerola E, Hupa M, Hupa L
Maailmanlaajuisesti ainutlaatuista bioteknologiaa LEHDISTÖTIEDOTE 19.01.2021 klo 10:00COR Group mukaan kallokirurgisia implantteja valmistavaan Skulle Implantsiin
Bone attachment to glass fibre-reinforced composite implant with porous surface. Mattila RH, Laurila P, Rekola J, Gunn J, Lassila LVJ, Mäntylä T, Aho AJ, Vallittu PK.
Development of a biomechanically optimized multi-component fiber-reinforced composite implant for load-sharing conditions. Zhao DS, Moritz N, Laurila P, Mattila R, Lassila LVJ, Strandberg N, Mäntylä T, Vallittu PK, Aro HT.
Reconstruction of critical size calvarial bone defects in rabbits with glass-fiber-reinforced composite with bioactive glass granule coating. Tuusa SM-R, Peltola MJ, Tirri T, Röyttä M, Aho H, Lassila LVJ, Vallittu PK
Clinical Experience on Bioactive Glass S53P4 in Reconstructive Surgery in the Upper Extremity Showing Bone Remodelling, Vascularization, Cartilage Repair and Antibacterial Properties of S53P4. Lindfors NC
Bioactive glass S53P4 as bone graft substitute in treatment of osteomyelitis. Lindfors NC, Hyvönen P, Nyyssönen M, Kirjavainen M, Kankare J, Gullichsen E, Salo
Bone response to prepolymerized versus in situ polymerized fiber reinforced composite – pilot study. Ballo AM, Närhi TO, Syrjänen SM, Vallittu PK.