+20 In the picture: đź‘€ 99% of cell viability with ColBioink formulation. This material is a native Type I collagen formulation that comes from porcine origin and is in a “ready to print format”. It also ensures that the formed structures can be safely grafted without immune rejection and used […]
Biomaterials
40 posts
00 “Next generation gelatin-based bio-ink.” Introduction X EASYGEL INX© is a gelatin-based shear thinning, cell-interactive ECM mimicking ink. X EASYGEL INX combines all the benefits of conventional gelatin/gel-MA based inks in combination with a highly improved printing process thanks to its shear thinning behavior, as schematically presented in Figure 1a. […]
+20 “Stability for Long Lasting Support.” Introduction X Stable INX© is a synthetic shear thinning, cell-interactive scaffold ink. X Stable INX allows an easy printing process thanks to its shear thinning behavior, as schematically presented in Figure 1a. At high shear rates, it exhibits a low viscosity which is favorable […]
+20 Introduction Material extrusion is an additive manufacturing technique that uses a continuous filament of thermoplastic or composite material to construct 3D parts. Filament-based material extrusion is the most common practice in the 3D printing community. However, it’s not necessary for extrusion to only work with filament. In fact, pellet […]
+30 Facilan™ PCL 100 Filament (MW = 50000 g/mol) was used as 3D printing filament. The scaffolds were designed with the software Regemat3D Designer v1.4.4 and printed using a Regemat3D Bio V1® bioprinter (REG4Life, REGEMAT 3D, Granada, Spain) equipped with a glass bed and a 0.4 mm diameter nozzle. The […]
+30 The printing process of FILAMENT-Oss is carried out by a Fused Filament Fabrication process (FFF/FDM). As any other Additive Manufacturing technique, the FFF creates a physical 3D object from a digital model (usually a CAD representation) which is sliced in layers at consecutive height levels.  The process requires of […]
+5-1 The biofabrication technique comprises two processes for every volume: first, the fused deposition of the thermoplastic polymer to obtain the scaffold and second, the injection of the bioink and CaCl2 solution to fill the printed scaffold. Firstly, commercial non-medical grade PLA (1.75 mm filament) was used and it […]
+100 Introduction: Injuries to the knee meniscus commonly lead to osteoarthritis. Current therapies for meniscus regeneration, including meniscectomies and scaffold implantation, do not achieve complete functional tissue regeneration. This has led to increased interest in cell and gene therapies and tissue engineering approaches to meniscus regeneration. The implantation of a […]
+40 Introduction Hypoxia is a common characteristic of many solid tumors that has been associated with tumor aggressiveness. Limited diffusion of oxygen generates a gradient of oxygen availability from the blood vessel to the interstitial space and may underlie the recruitment of macrophages fostering cancer progression. However, the available data […]
+110 In recent years, the development and use of biomaterials has undergone a great advance because they have made it possible to improve people’s life expectancy, improve surgical techniques and, on the other hand, successfully develop implants and medical devices capable of working properly in contact with tissues of the […]