SU843976A1 - Heart artificial valve - Google Patents

Description

one

The invention can be used in medical technology, namely in prosthetic heart valves.

The artificial heart valve is known, containing a base, freely floating, 1, and locking elements and restricting movement of the locking elements 1.

In a lime artificial valve, freely floating locking elements are in the form of valve discs that are located inside the channel to control the flow of blood through this channel, while the dimensions of the discs are somewhat smaller than the dimensions of the channel, and the movement stops are two pairs of curved guide surfaces, performed together with the base.

The main disadvantages of this valve include the fact that the locking elements in the process of working, moving from the open position to the closed position, relate to the movement limiters of the locking elements, in addition, the size of the disks is slightly smaller than the size of the channel in which they move. This, in turn, does not provide sufficient tightness of the valve. Finally, two pairs of curvilinear inner surfaces of the retention device form stagnant zones for blood, which can lead to thrombosis.

The purpose of the invention is to reduce flow resistance and regurgitation by increasing the flow area and speed of the valve.

The goal is achieved by the fact that, in the well-known valve containing basic and freely floating locking elements with their movement restrictions, the surface of freely floating locking elements is made in the form of a single cavity gieprboloid, and the stoppers are mounted on the locking elements under

angle to the plane of the valve base.

FIG. 1 shows the valve in the open position; in fig. 2 - the same in the closed position; in fig. 3 - the surface shape is freely floating, of their locking elements.

The proposed valve soderntsb base 1 with a saddle 2 and a cuff 3, freely floating locking elements 4 and 5. Locking elements 4 and 5 are made in

the shape of the surface of double curvature, for example, the parts of the surface of a uni- cavity hyperboloid, which is enclosed between perpendicular planes passing through the center of symmetry of the hyperboloid. The locking elements have juice 6 at the base, which corresponds to the shape of the base saddle 1 and ends with movement restraints 7, made in the form of racks 8 with supports 9.

The supports 8 are located at the ends: of the locking elements 4 and 5 at an angle to the plane of their connector passing through the central axis of the valve. FIG. Figure 3 shows a unilateral hyperboloid 10, which cuts perpendicular planes 11 and 12 and a part of the surface 13 of hyperboloid 10, which is enclosed between secant perpendicular planes 11 and 12.

During valve operation, the locking elements 4 and 5 are somewhat separated from the saddle 2 and rotated through the opening angle until the stops 9 on the posts 8 come into contact with the back side of the saddle 2, ensuring smooth blood flow, or tightly pressing against the saddle 2 and each other, preventing reverse blood flow.

In comparison with the known valve constructions, the proposed one is distinguished by a decrease in hydraulic resistance and regurgitation, on which the network of prosthetic results will depend on in the long-term period.

F O r, m u l a and 3 o b r-e shadow

and

Artificial heart valve containing the base and freely floating locking elements with restriction of their movement, characterized in that, in order to reduce flow resistance and regurgitation by increasing the flow area and speed of the valve, the surface of the freely locking locking elements is made in the shape of a single-cavity hyperboloid, and The stops are mounted on the locking elements at an angle to the plane of the valve base.

Information sources,

taken into consideration iri expertise

1. US patent No. 3903548, CL. 3-1,5, publ. 1975.

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Claims (1)

An artificial heart valve containing a base and free-floating locking elements with limiters ne _10, displacement, characterized in that, in order to reduce hydraulic resistance and regurgitation by increasing the flow area and valve speed, the surface of free-floating locking elements is made in the form of a single-cavity hyperboloid, and the stops are mounted on the locking elements at an angle to the plane of the valve base.