BIOLOGICAL ACTIVITY OF THE IMPLANT FOR INTERNAL FIXATION.

Early treatment of bone fractures was performed using implants, which are often used in the form of plates of various types, which are fixed on the bone surface (extracellular fixation) and nails that are located in the medullary canal (intracerebral fixation). The goal of this study was to investigate the features of osseointegration of implants for internal fixation (intramedullar or extramedular) with various bioactive coating techniques. During experimental study on 20 mongrel dogs, the implant model in the form of 1.0 mm plate made of titanium alloy (Ti6Al 4V) was placed in the medullary canal (first series) or under the periosteum (second series): the plates had bioactive coating (HA) produced using the technology of magnetron sputtering (6 animals), Plasma Electrolytic Oxidation or Micro Arc Oxidation technology (PEO) (8 animals) and composite technology (6 dogs). Anatomic and histological studies have shown that the process of active osseointegration of porous implants with bioactive coating begins after 7 days: at first, granulation tissue and then - fibrous connective tissue is formed; after 14 days, the osteogenic substrate can be found, and after 28 days, the entire implant area is covered by the lamellar bone tissue, which creates single implant-bone block. The most active formation of bone tissue is observed around implants with bioactive coating produced using the last two technologies. Low-traumatic placement of porous implants with bioactive coating in the medullary canal or subperiosteally provides the stimulation of reparative osteogenesis and rapid (especially with PEO technique) osseointegration of the implant.