RU108713U1 - SURGICAL Suture Thread from Stretched Polytetrafluoroethylene - Google Patents

Abstract

 1. A surgical suture thread made of stretched polytetrafluoroethylene having a spatial structure in the form of knots interconnected by fibrils, wherein the knot elements and the elements of the void space between them are connected into a single three-dimensional network, characterized in that the thread has a sealed surface layer and an inner part having the volume fraction of the void space is 20-80%, the specific surface of the void space is 0.15-0.85 μm2 / μm3, the average distance between the voids in the volume is 2-35 μm, the average chord is volume 1-15 μm, and the surface otnenny layer has a volume fraction of void space of 15-20%, a specific surface area of 0.01-0.2 microns2 voids / mm3, the average distance between the voids in the amount of 30-100 microns and an average chord bulk 10-35 microns. ! 2. The surgical suture thread according to claim 1, characterized in that the thickness of the surface layer is 10-40% of the thickness of the thread.

Description

The inventive utility model relates to medicine, in particular to surgical instruments for suturing wounds, and in particular to materials for applying surgical sutures or ligatures to blood vessels made of a high molecular weight compound, namely, porous stretched polytetrafluoroethylene (PTFE).

Due to its chemical and biological inertness, PTFE causes a minimal reaction of tissues adjacent to the seam. Porous stretched PTFE has a spatial structure in the form of microscopic nodes interconnected by filaments (fibrils) with a length of 1.5-50 microns. Elements of nodes connected by fibrils, and elements of the space of voids between nodes are connected into a single three-dimensional network.

The closest set of essential features to the claimed is a surgical suture thread from stretched PTFE having a spatial structure in the form of nodes interconnected by fibrils, and the elements of the nodes connected by fibrils and the elements of the void space between them are connected into a single three-dimensional network [US No. 4482516 NKI 264 \ 217, 11/13/1984]. The specified surgical thread has high strength and a large microstructure: the average length of the fibrils was 120 μm, the average width of the knot was about 17 microns, and the average height of the knot was about 102 microns. Such spatial parameters created a microporous structure with sufficiently large pores, which, as indicated in US No. 4482516, allows the penetration of fibroblasts.

This property of the thread is probably useful when suturing the connective tissue, but is unacceptable when suturing the blood vessels, as it will form a rough scar at the site of the anastomosis, which will inevitably lead to thrombosis.

The technical result, which is achieved by the claimed utility model, is to obtain a surgical thread, successfully used in vascular surgery to apply an anastomosis.

The specified technical result is achieved by the fact that the surgical suture thread from stretched PTFE having a spatial structure in the form of knots interconnected by fibrils, wherein the knot elements and the elements of the void space between them are connected into a single three-dimensional network, made with a compacted surface layer and includes an inner part having a volume fraction of void space of 20-80%, a specific surface space of voids of 0.15-0.85 μm ² / μm ³ , an average distance between voids in a volume of 2-35 μm, an average chord volume 1-15 μm, and a surface layer with a volume fraction of void space of 15-20%, a specific surface space of voids of 0.01-0.2 μm ² / μm ³ , an average distance between voids in a volume of 30-100 μm and an average chord of volume 10 -35 microns.

The thickness of the surface layer may be 10-40% of the thickness of the thread.

The diameter of the thread can be 50-1000 microns (0.05-1.0 mm), the thickness of the surface layer is 20-100 microns.

The surgical thread was obtained from polytetrafluoroethylene of the Ftoroplast - 4D grade (GOST 14906-77) by extrusion followed by a two-stage drawing by 2000% and pulling the stretched thread without drawing through a sleeve heated to 350-380 ° C. The density of the obtained yarn is 1.3-1.4 g / cm ³ , the tensile strength at break is 500-1500 kg / cm ² .

The spatial structure (volumetric parameters) of the product was determined by a known method [Panteleev V.G., Ramm K.S. Inorganic Materials, 1986, Volume 22, No. 12, from 1941-1951; Avtangilov G.G. and others. "Systemic stereometry in the study of the pathological process", M., "Medicine", 1981; Chernyavsky K.S. "Stereology in metal science." M., "Metallurgy", 1977].

Figure 1-3 presents microphotographs in a 400-fold increase in the obtained filaments: figure 1 is a side view, figure 2 is a transverse section, figure 3 is a longitudinal section. The difference in the microstructure of the inner and surface layers is clearly visible.

The inventive surgical suture thread was successfully used in an in vivo experiment when replacing a portion of a blood vessel with an implanted PTFE hollow prosthesis in dogs. As a result of the experiment, it was revealed that after the operation there is complete patency of the vessels. The site of the anastomosis is covered with a gentle connective capsule. Inside the puncture site is covered with neointima, there is no pronounced inflammatory reaction, since the surface layer of the surgical thread with its structure creates an impenetrable barrier for the penetration of fibroblasts into the structure of the thread. The structure of the thread is not changed. The inner more porous layer of the claimed surgical suture thread gives it flexibility and elasticity.

Claims (2)

1. A surgical suture thread made from stretched polytetrafluoroethylene having a spatial structure in the form of knots interconnected by fibrils, wherein the knot elements and the voids space elements between them are connected into a single three-dimensional network, characterized in that the thread has a sealed surface layer and an inner part having the volume fraction of void space of 20-80%, a specific surface area of voids 0,15-0,85 m ² / m ^3, the average distance between the voids in the volume of 2-35 microns mean volume chord of 1-15 microns, and the surface plotnenny layer has a void space volume fraction of 15-20%, a specific surface area void space 0.01-0.2 microns ² / m ^3, the average distance between the voids in the amount of 30-100 microns and an average chord bulk 10-35 microns. 2. The surgical suture thread according to claim 1, characterized in that the thickness of the surface layer is 10-40% of the thickness of the thread.