USE OF ADDITIVE TECHNOLOGIES FOR RESTORATION OF FACIAL SKELETON DEFECTS

Aim. To study and introduce the technology of three-dimension imaging systems of computer modeling (CAD-system) when producing implants which represent a structure of cells from different biocompatible materials (steel, AISI 316L, powder titanium VT-5 and others). Materials and methods. The work is based on the data regarding Wigner–Seitz cells representing a space with a center in some point of Bravais lattice. The minimum volume area limited by planes will be a Wigner–Seitz cell. Implants with cellular structure (Wigner–Seitz cell) were produced from different materials such as steel AISI 316L, powder material – titanium VT-5, foamy polyurethane – photopolymer SI 500 using innovative technologies which permit to create the products exactly copying facial skeleton bone structures consisting of cells with a regular geometrical form. Results. Implants which represent a cylinder repeating the form of the lower jaw manufactured from steel AISI 316L, powder titanium VT-5, foamy polyurethane - photopolymer SI 500 with complicated geometric structure in the form of penetrating Wigner–Seitz cells fixed to the lower jaw by means of 4 titanium screws, two from each side, (Patent invention № 2469682, 2012) were produces by innovative technology. Conclusion. Three-dimension system technology, SLS technology, is an important step forward in visualization that allows to introduce it into different spheres of science including the sphere of medicine and implantology, in particular. Formation of bone tissue in the cellular structure of an implant using osteogenesis-accelerating preparations at the earliest possible terms significantly improves restoration of facial skeleton defects.

SLS, Implants, implants with Wigner- Seitz structure, computer modeling, SLS