RU178537U1 - Heart valve prosthesis - Google Patents

Abstract

The utility model relates to medical equipment, in particular to mechanical prostheses of the heart valve. The valve comprises a housing and a locking element made in the form of four identical convex-concave valves, which have the ability to diverge in different directions, forming a central passage hole when opening the valve. The flaps are connected to the casing by means of articulated joints formed by grooves located on the end surface of the casing and by protrusions located on the lower part of the flaps corresponding in shape to the groove openings. At the bottom of the sash is a protrusion that has a triangular cross-section, restricting the movement of the sash when it opens. The technical result of a useful model of a four-leaf prosthesis of a heart valve is to reduce the protrusion of the leaf edges beyond the contours of the body in the open position and to reduce the risk of damage to the aortic surface by the leaflets. Also, with the loss of one leaf in closed and open jamming, there is an advantage due to the smaller effect on the diameter of the model of the four-leaf passage opening of the valve prosthesis. 5 of FIG.

Description

The utility model relates to the field of medical technology and can be used in cardiac surgery when performing operations to replace the affected natural valves of the human heart. The prosthetic valve of the heart is a check valve that provides a direct blood flow when the locking element is opened and prevents the backflow of blood when the locking element is closed.

Known mechanical prosthesis of the heart valve, containing an annular body with two flanges and a locking element made in the form of three convex-concave valves (RF patent No. 2325874. Prosthesis of the heart valve. 2006). The design drawback is that the flaps are fixed in the outer part of the valve and when opened, in addition to the central hole, gaps between the outer side of the flap and the inner cylindrical surface of the body open. Separation of blood flow and interaction with a larger valve area contribute to blood clots.

Mechanical valve prostheses are also known, containing an annular body and a locking element made in the form of three wings (RF patent No. 2370245. Heart valve prosthesis. 2007; RF patent No. 2477105. Heart valve prosthesis. 2011 - prototype), the design feature of the valves increases the risk of damage to the surface of the aorta when they open.

The objective of the utility model is to develop the design of the four-leaved valve of the heart and increase its reliability.

The technical result of a useful model of the four-leaved valve of the heart is to reduce the departure of the edges of the leaflet over the contours of the body in the open position and reduce the risk of damage by the leaflets of the surface of the aorta. Also, with the loss of one leaf in closed and open jamming, there is an advantage due to the smaller effect on the diameter of the passage opening of the valve prosthesis.

The technical result is achieved due to the fact that in the prosthesis of the heart valve, including an annular body, bounded by upper and lower ends, on which are located the grooves for fastening the locking element, made in the form of four wings, and the course of the movement of the valves made in the form of four triangular protrusions placed at the bottom of the cusps.

The list of drawings.

The invention will be more apparent from the description below with reference to the position of the drawings, where:

in FIG. 1 and FIG. 2 shows a prosthetic heart valve with open sashes, respectively, a front view and a top view,

in FIG. 3 and FIG. 4 shows a prosthetic heart valve with closed flaps, respectively, a front view and a top view,

in FIG. 5 shows a valve flap with cylindrical protrusions.

Information confirming the possibility of carrying out the invention.

The heart valve prosthesis comprises an annular body 1 made of pyrocarbon and has four convex-concave flaps 2, also made of pyrocarbon with the possibility of rotation and the formation of the main passage area in the center, installed in the body 1. The annular body 1 is limited to the distal 3 and proximal 4 end surfaces. On the distal end surface 3 of the housing 1 are grooves 5 with transverse cylindrical holes. The locking element of the prosthetic valve of the heart is made in the form of four valves, the bottom of which is made of cylindrical protrusions 6, forming a hinge with grooves 5. The stoppers of the valves are made in the form of four triangular protrusions 7 located in the lower part of the valves, which interact with the end surface of the housing 3. The housing 1 on the outside has an annular groove 8 for attaching a sewing cuff.

The prosthesis of the heart valve works as follows. When the valve prosthesis is opened by direct blood flow, the leaflets 2 rotate, they are initially held securely by grooves 5 interacting with the cylindrical protrusions 6 of each leaf 2. The leaflet 2 is limited by the triangular protrusion 7 made on the lower part of the leaf 2. This leaf rotation equilibrium state. In this case, the blood flows in the forward direction, the Central part of the opening of the body 1 of the prosthesis of the heart valve passes freely without distortion. The valves are located almost vertically, the opening angle of the valves is 85 ° ... 86 °, and do not create resistance to blood flow. When the direct flow of blood stops, the leaflets 2 begin to turn and return to their original position until they touch each other.

Claims (1)

The prosthesis of the heart valve, including an annular body limited by the distal and proximal end surfaces, a locking element mounted in the body with the possibility of rotation to form a passage section and its overlap, made in the form of convex-concave valves, and the stop valves of the valves, characterized in that the locking the element is made in the form of four wings, the stoppers of the wings are made in the form of four triangular protrusions located in the lower part of the wings with the possibility of interaction from the ends second surface of the housing, and the distal end surface of the housing positioned transverse grooves with cylindrical holes, forming together with the cylindrical projections on the wings articulations for pivoting flaps.

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