New Interior Finish for Vascular Walls -- COMPAMED Trade Fair

New Interior Finish for Vascular Walls

In the animal study, researchers at the Krasnoyarsk regional department of morbid anatomy have used polymers of fatty acids' oxyderivatives (polyhydroxyalkanoates or PHAs) - biocompatible and biodegradable materials of microbe origin as coating stent material. PHAs, which practically do not provoke immune reactions, are highly believed in by vascular sturgeons who are planning to make prosthetic cardiac valves of this material and to use it for angioplasty.

The PHA synthesis, isolation and purification technique was developed in the Institute of Biophysics (Siberian Branch, Russian Academy of Sciences). The technique allows to get high-purity samples tolerant to contact with blood. The researchers carried out all necessary investigations, including acute and chronic experiments with laboratory animals, and made sure that PHAs are biocompatible with cells, tissues and the organism as a whole.

The polymer was used to cover stents for peripheral vessels made of nitinol - nickel/titanium alloy. Intravascular stents (0.8 mm in diameter, 10 mm long) were introduced under anaesthetic into the femoral artery of laboratory dogs. Investigations carried out in two and twelve weeks after the operation proved that vessels were patent in all cases, artery lumen was not constricted. Stems with polymeric coating have proved to be better in every respect than metal ones. With their implantation, inflammatory reaction is much weaker, therefore they caused significantly less reactive changes of the vascular wall and did not provoke thrombi formation.

Within twelve weeks all stents, as expected, grew into vessel tissues, having plunged into its wall. In case of nitinol stent with polymeric coating, the wall of a vessel practically did not thicken, while in the vessels with metal stent it was significantly thicker than the standard.; Source: Informnauka (Informscience) Agency