ФЕДЕРАЛЬНОЕ ГОСУДАРСТВЕННОЕ БЮДЖЕТНОЕ ОБРАЗОВАТЕЛЬНОЕ УЧРЕЖДЕНИЕ ВЫСШЕГО ОБРАЗОВАНИЯ "САРАТОВСКИЙ ГОСУДАРСТВЕННЫЙ ТЕХНИЧЕСКИЙ УНИВЕРСИТЕТ ИМЕНИ ГАГАРИНА Ю.А."
发明人:
Родионов Игорь Владимирович (RU),Перинская Ирина Владимировна (RU),Куц Любовь Евгеньевна (RU)
申请号:
RU2019111554
公开号:
RU0000196170U1
申请日:
2019.04.17
申请国别(地区):
RU
年份:
2020
代理人:
摘要:
The utility model relates to medicine, namely to traumatology, orthopedics and implantology. The technical result of the utility model consists in hardening and creating a microporous surface of the intraosseous parts of the knee endoprosthesis as a result of blistering pore formation and synthesis of a carbon diamond-like non-porous film on the formed microporous surface. An endoprosthesis of a knee joint with a biocompatible coating contains a femoral component made in the form of a slide made of two parallel arches connected to each other, having on the inside a supporting plane for the distal sawdust of the femur, a tibial component made in the form of a base, from which the limiter is fixed from the opposite sides and a foot with stiffeners, a support pin, a platform of ultra-high molecular weight polyethylene, on one side of which recesses are made, paired along a cylindrical surface arches with slides of the femoral component, and on the other hand, the arcuate and guide grooves are made in the platform, in which the limiter and support pin are installed, the slides of the arches of the femoral component and the recesses associated with them in the platform are made in the form of cylindrical surfaces turning into tangent planes, each of which is located at an angle equal to 5-13 ° to the corresponding plane parallel to the reference plane of the distal sawdust of the femur and drawn through the corresponding line to Asania has on the surface of the intraosseous parts of the endoprosthesis, namely, the fixators of the femoral component and the legs with stiffeners of the tibial component, a microporous layer obtained as a result of preliminary blistering pore formation during ion-beam surface treatment with a helium ion beam (He) followed by synthesis on the formed microporous the surface of a carbon diamond-like non-porous film obtained by ion beam treatment in a vacuum environment of carbon dioxide (CO) with an ion beam argon (Ar), which has increased bioco