PROGRESSION OF INFLAMMATORY PROCESSES IN PATIENTS AFTER IM NAILING USING BIOINERT AND BIODEGRADABLE IMPLANTS BASED ON MC-10 MAGNESIUM ALLOY

Abstract

Summary. Modern medicine widely uses artificial materials to replace damaged tissues and organs. Biodegradable implants should be gradually replaced with living tissue and stay functioning within a specified period, don’t have any negative impact on surrounding tissues and a human body in general. Clinical studies of biochemical values specifying the intensity of inflammatory response to IM nailing with biodegradable implants are of clinical and scientific interest. Task of the study: to substantiate of the use of implants made of biodegradable magnesium alloy MS-10 in the dynamic IM nailing for diaphyseal fractures of the tibia. Materials and methods. The study involved 34 patients with diaphyseal tibial fractures, which resembled surgical treatment (IM nailing). Cannulated intramedullary titanium nails served as a blocking pin. The treatment included closed reposition followed with IM nailing of a tibia. To lock the nail, a screw made of magnesium alloy MS-10 was inserted in a static (round) hole in 16 patients. In 18 patients, a screw made of titanium was inserted into a static hole. The both groups passed blood sampling for studies, before and after the surgery, 2 and 4 weeks, 2 and 4 months after surgery. Biochemical blood tests were to determine the concentration of fibrinogen-monomer complexes in the blood plasma (β-naphthol test). Results. The study of the activity of AST and ALT found it lower (19 and 29%) in patients with biodegradable screws, compared to the group of patients with IM nailing locked with bioinert screws. The situation was similar with ESR, fibrinogen B and total bilirubin in the blood of patients in both groups. Conclusions. The study convincingly proves the expediency of the use of biodegradable material (magnesium alloy MS-10) to produce implants for the IM nailing for the patients with long bones’ fractures.