İNAN, AHMET TALATMUTLU MİTİL, BİLÇENOKTAR, FAİK NÜZHETKURT, MUSTAFAEKREN, NAZMİGÜNDÜZ, OĞUZHAN2022-03-122022-03-1220192510-1560https://hdl.handle.net/11424/2356683D bioprinting provides an innovative strategy to fabricate a new composite scaffold material consisted in a porous and rough structure with using polycaprolactone (PCL), beta-tricalcium phosphate (beta-TCP), and collagen as a building block for tissue engineering. We investigated the optimization of the scaffold properties based on the beta-TCP concentration using 3D bioprinting method. Computer-aided drawing was applied in order to digitally design the scaffolds while instead of solid filaments, materials were prepared as a blend solution and controlled evaporation of the solvent during the bioprinting was enabled the proper solidification of the scaffolds, and they were successfully produced with well-defined porous structure. This work demonstrated the feasibility of complex PCL/beta-TCP/collagen scaffolds as an alternative in the 3D bioprinting engineering to the fabrication of porous scaffolds for tissue engineering.enginfo:eu-repo/semantics/closedAccessBiomaterialsBiomedical engineeringAdditive manufacturingHard tissue scaffoldsNANOFIBROUS SCAFFOLDarticleWOS:00048297590002710.1007/s41779-018-00299-y2510-1579