CS254798B1 - Hollow vascular prosthesis - Google Patents

Abstract

A hollow vascular prosthesis in the form of a radially reinforced hose, especially a braided one, is suitable for use in healthcare during surgical procedures. It is characterized in that its basic structure has a longitudinally reinforced hose provided on the outer surface with elastic elements arranged at regular or irregular intervals. The elastic elements may be in the form of unclosed annular segments, rotated, for example, so that the unclosed section of one annular segment lies next to the closed adjacent annular segment.

Description

The invention is suitable for medical use and relates to a hollow textile, in particular knitted prosthesis, reinforced in a radial direction in order to increase the flexibility of its wall.

Reinforced vascular prostheses with the ability to withstand external tissue pressure are often used in vascular surgery · Several types of these reinforced vascular prostheses are currently being implanted · These are, for example, incompressible braided crimped synthetic fiber tubular products in a tube reinforced with a biologically inert spiral line , which is loosely and removably wound in the form of a helix on the outer surface of the prosthesis in their preformed spurs. In this case, the line is not firmly connected to the base of the prosthesis tubing and can be removed from the surface of the vascular prosthesis at any point, or used as a conventional crimped vascular prosthesis ·

The construction of another type of reinforced vascular prosthesis is based on the reinforcement of the surface of the smooth non-corrugated base tubular formation with an uninterrupted spiral made of low melting point material · The permanent attachment of the spiral to the outer surface of the vascular prosthesis is ensured by thermoplastic

In another known embodiment, the radial stiffening of the vascular prosthesis is performed by attaching separate rings at regular intervals side by side to the surface of the polytetrafluoroethylene hose. Loosely threaded rings are made

- 2 254 798 of a material with a lower melting point relative to the hose material and their interconnection is again thermoplastic ·

A vascular prosthesis in the shape of a knitted tube reinforced on the outer surface by a spirally stiffening thread is the subject of the description of the invention to the author's certificate No. 203 373, according to which the backing is incorporated into the knitted tube. attached to the base knit by the platinum arches of the base knit.

A similar prosthesis solution comprising a reinforcing material is also disclosed in U.S. Pat. No. 4,306,316 and in GB No. 1,565,828.

These types of reinforced vascular prostheses are suitable in medical practice in terms of resistance to compression and in terms of adaptation to local conditions during vascular reconstruction. They are also suitable for adapting the joined end of a vascular prosthesis to a proper artery with a suitable transition. On the other hand, their common drawback is low inadequate elasticity along the perimeter and the possibility of forming transverse folds of corrugations, which leads to the risk of turbulent swirling of blood stream in the prosthesis channel and of unwanted thrombus formation. In addition, a coherent line spiral reduces the elasticity of the perimeter wall of the prosthesis and causes great stresses in the blood flow, which in turn cause damage to the underlying blood elements.

It is therefore an object of the present invention to increase the elasticity of the vascular prostheses in the radial direction and thus to improve their utility and functional properties. In order to meet this requirement, according to the invention, a hollow ancient prosthesis, in particular knitted with reinforced bands in the length direction, is provided with elastic elements spaced at its circumference spaced at regular or irregular intervals therebetween. By shape,

254 798 □ in position and relative position, these resilient elements may be formed in various forms, for example, of non-closed annular segments facing each other such that the closed section of one annular segment lies between two closed sections of adjacent annular segments, varies as you like ·

Alternatively, the elastic elements may be composed of two or more, for example, three separate annular sections, threaded onto a basic tubular formation, the outer wall of which is thereby reinforced, with the possibility of rotating the closed and unclosed sections of adjacent separate annular sections relative to each other. section adjoins a closed separate annular section. It is also possible to form the spring elements as parts of the coil spring with sections smaller than the pitch of the coil spring coil.

Advantages and advantages of the invention are apparent from the attached schematic drawings of four exemplary embodiments of such reinforced vascular prostheses, wherein FIG. 1 indicates a vascular prosthesis with a reinforcement on the outer periphery in the form of open ring segments; FIG. 3 and 4, a vascular prosthesis with resilient elements in the form of separate, non-closed annular spiral-shaped elements.

Giant. 1 shows a vascular prosthesis consisting of a basic tubular formation 1, the outer peripheral wall of which has non-closed elastic elements 2 at regular intervals therebetween, the two adjacent elastic elements 2 being each pivoted by approximately 180 [deg.]. According to FIG. 2, two or three uncapped elastic elements 2 are adhered or thermoplastically bonded to the outer peripheral wall of the basic tubular body 1 at regular intervals, rotated relative to each other by approximately 90 °.

~ 4,254,798

AND

In this case, the elastic elements 2 consist of several separate, non-connected segments. FIG. 3 shows a basic tubing formation 1 with four reinforced bands on its periphery, provided with elastic elements 2 with separate annular sections at regular intervals therebetween. These separate annular sections are disposed on the surface of the basic tubular body 1 in such a way that, beside the interruption point in one reinforcement zone, a full space lies in the adjacent reinforcement zone. Referring to FIG. 4, resilient elements 2 are attached to the outer periphery of the basic tubular formation 1 in the form of broken sections of a portion of the coil spring whose length is less than the pitch of the coil spring.

The basic tubular body 1 is made, for example, of PESh and the resilient elements 2 of resilient polypropylene, which is connected to the surface of the vascular prosthesis by means of surgical glue or thermally.

Claims (3)

Hollow vascular prosthesis in the form of a reinforced hose in radial direction, in particular knitted, provided with reinforcing elements on its outer circumference, characterized in that the elements (2) are made of a resilient material and formed of non-closed annular segments arranged at selected intervals; so that the non-closed section of one annular segment lies adjacent to the closed section of an adjacent annular segment · Hollow vascular prosthesis according to claim 1, characterized in that the elastic elements (2) are formed from two or more separate annular sections surrounding the basic tubular prosthesis formation (1) when the closed and non-closed sections of adjacent separate annular sections are rotated relative to each other. Hollow vascular prosthesis according to claim 1, characterized in that the spring elements (2) form parts of the coil spring with sections smaller than the pitch of the coil spring coil.