RU41976U1 - Suture - Google Patents

Abstract

Field of technology: The utility model relates to the field of medicine, in particular, to surgical suture material.

EFFECT: increased tensile strength due to an increase in the adhesion area of the impregnation material and the base, a decrease in the effect of insufficient adhesion, elimination of the wickiness (capillarity) of the suture material, as well as providing a smooth outer surface with significant deformation of the suture material while maintaining its elasticity.

The essence of the utility model: The basis of suture material from a synthetic polymer or a polymer of natural origin from the polysaccharide class is impregnated with a polymer of natural origin from the class of polysaccharides or a modified polymer of natural origin from the class of polysaccharides.

Description

The utility model relates to the field of medicine, in particular, to surgical suture material.

Known suture materials (patent RU No. 2073528, IPC ⁶ A 61 L 17/00, publ. 02/20/97 and patent No. 2080126, IPC ⁶ A 61 L 17/00, publ. 05/27/97) based on a thread of polyester or polyamide coated with a natural polymer chitosan, and when applying a chitosan coating to the polyamide yarn (warp), a low adhesion of this shell was found, because the chitosan layer is easily separated from the polyamide yarn during manipulations with it. They tried to solve the problem of weak adhesion of chitosan to a polyamide yarn by applying a layer of chitosan on a polyamide yarn with a sheath of polyvinyl alcohol.

Nevertheless, in the case of applying a coating of chitosan to a base of polyester and in the case of applying a two-layer coating of a base of polyamide, the adhesion of such a coating to the base is in some cases insufficient, since only surface contact of the coating and the base is ensured, and also when coating is inevitable defects in the coating, which leads to a deterioration in its properties and leads to delamination of the coating with increased deformations of the suture material during the manipulation process. And also, with a two-layer coating, there is a significant increase in the outer diameter of the thread, especially small diameters, without increasing the strength characteristics.

In addition, the base of suture materials after coating is still wicked. The wick effect is explained by the capillarity of the warp threads due to the presence of capillary channels between the fibers.

Therefore, the best solution is to impregnate the base of the suture material (impregnation refers to the application of an additional layer with a full base), since in this case the base is not only covered with a sheath, but also impregnated with the coating material, as a result, the capillary channels and irregularities of the base are completely filled.

The task is to create a suture material that has, in relation to the prototype, greater tensile strength and elimination of capillary properties (pseudomonofilament effect).

The technical result of the claimed utility model is to increase the tensile strength by increasing the adhesion area of the impregnation material and the base, lowering the effect of insufficient adhesion, eliminating the wickiness (capillarity) of the suture material, and also ensuring a smooth outer surface with significant deformation of the suture material while maintaining its elasticity.

The technical result is achieved in that the base of the suture material from a synthetic polymer or a polymer of natural origin from the polysaccharide class is impregnated with a polymer of natural origin from the class of polysaccharides or a modified polymer of natural origin from the class of polysaccharides.

The presence of functional groups of polysaccharides provides the possibility of multilateral modification of a natural polymer in order to impart various properties that improve the characteristics of the thread. In addition, natural polymers from the class of polysaccharides have the best biocompatibility with tissues of living organisms.

This suture material can be either absorbable or non-absorbable depending on the materials used, which makes it possible to use it in all areas of surgery.

An example of absorbable suture material: a catgut base is impregnated with chitosan.

Impregnation allows you to get material with different periods of biodegradation in the body. For example, when a polyglycolide base is impregnated with modified chitosan. Using various modifiers, the physical and mechanical properties (strength of the thread) are maintained in the required time frames during biodegradation.

A useful model is as follows. The base purified from industrial pollution is placed in a container with a solution of a natural polymer or its modification, in which impregnation is carried out under the influence of temperature factors and pressure. Then, after extraction, the thread is passed through a calibration unit, removing the remaining solution, and dried in a convection dryer.

An example of a non-absorbable suture: the cellulosic thread is impregnated with starch or modified chitosan.

An example of a non-absorbable suture: a polyester thread (lavsan) is impregnated with a modified chitosan.

Also, a polymer of natural origin can be modified with methylene blue, brilliant green or silver ions, which gives the thread additional antiseptic properties.

The studies showed that in the case of impregnation of the warp, the tensile strength of the thread increased by 5-10%, the capillary effect was absent, no peeling of the impregnation material was observed, and a smooth outer surface was preserved with significant strains of the thread.

Claims (1)

Suture material based on threads of polymer fibers, characterized in that the basis is a thread of a synthetic polymer or a polymer of natural origin from the polysaccharide class, which is impregnated with a polymer of natural origin from the class of polysaccharides or a modified natural polymer from the class of polysaccharides.