RU181544U1 - Mechanical artificial heart valve - Google Patents

Abstract

A new model of mechanical artificial heart valve (MICS) belongs to the field of medical technology and can be used in cardiac surgery to replace the aortic valve of the human heart. MIX provides a direct blood flow when opening the locking element and prevents blood regurgitation when closing the locking element. The mechanical artificial heart valve includes an annular body, a sash attachment unit mounted on the casing, three sashes fixed to the attachment point by a hinge, having a convex-concave shape, ensuring the passage section and its overlap, while the sash attachment unit consists of two parts - the rotating element of the mount and the locking element of the mount, while the housing and the end surface are configured to limit the movement of the wings, and the rotating element of the assembly Lenia is configured to concentric rotation of flaps along the surface of the housing. The technical result is achieved due to the fact that the prosthesis of the heart valve uses a new attachment site for the valves, taking into account the tornado-like movement of blood due to its valve design. 10 of FIG.

Description

A new model of mechanical artificial heart valve (MICS) belongs to the field of medical technology and can be used in cardiac surgery to replace the aortic valve of the human heart. MIX provides a direct blood flow when opening the leaflet and prevents blood regurgitation when closing the leaflet.

There is a mechanical artificial heart valve with an annular body and three convex-concave valves (RF patent No. 2325874. Prosthesis of the heart valve, 2006). The disadvantage of this model is the location of the valves on the inside of the housing, which, when the valve is opened, leads to the formation of a central flow and three peripheral flows. The formation of peripheral flows and the interaction with a large area of the valve leads to the formation of blood clots and impaired natural hemodynamics.

Also known is a heart valve prosthesis comprising an annular body and three wings (RF patent No. 2477105. Heart valve prosthesis, 2011). The disadvantage of the design of the valve is the increased risk of damage to the surface of the aortic leaflets when they open.

The objective of the utility model is to develop a new mechanical artificial tricuspid heart valve taking into account the tornado-like movement of blood.

The technical result of the new model of the tricuspid valve of the heart is to ensure free blood flow with open cusps and to reduce the outflow of the cusp edges beyond the contours of the body, which reduces the risk of damage to the aorta by the cusps. The leaflets can concentrically rotate on the surface of the body due to the design of the leaf mount assembly under the influence of angular blood pressure. The assembly of the valve is simplified by dividing the attachment point of the flaps into 2 parts — a rotating element of the attachment point and a locking element of the attachment point.

The technical result is achieved due to the fact that the prosthesis of the heart valve uses a new node for fastening the valves, taking into account the tornado-like movement of blood due to its rigid fit on the valve body.

To install the valves, the well-known hinge is used, which was previously used to create other models of artificial heart valves.

In order to simplify the assembly, the leaf attachment unit is made divided into two parts - a rotating element of the attachment unit and a locking element of the attachment unit, which are interconnected by a hard fit and three studs. To do this, the rotating element of the mount contains three holes (grooves), and studs are located on the locking element of the mount.

The essence of the utility model is illustrated by drawings, where:

in FIG. 1 and FIG. 2 shows a frontal section and a top view of a valve with closed flaps,

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

in FIG. 5 shows a section in the open position of the wings

in FIG. 6 and FIG. 7 shows the sash, front view and isometry, respectively,

in FIG. 8 and FIG. 9 shows a rotating element of the mount, isometric view and bottom view, respectively,

in FIG. 10 depicts a locking element of an attachment assembly in isometry.

The prosthesis of the heart valve consists of an annular body 5 with an annular groove 1 for attaching the cuff, three flaps 2 having a convex-concave shape, a rotating element of the fastener 3, and a locking element of the fastener 4. The design of the rotating element of the fastener 3 is made with the possibility of concentric rotation on the surface of the housing 5. The end surface 6 is integrated into the design of the rotating element of the attachment node 3 to limit the movement of the wings. The flaps 2, in turn, are made of flaps 7. To connect the rotating element of the fastener 3 and the locking element of the fastener 4, three studs 11 and three corresponding grooves 10 are used. The rotating element of the fastener 3 and the locking element of the fastener 4 contain grooves 9 for hinges 8 integrated into the design of the valves 2 and made with the possibility of fastening the valves 2. All of the above valve elements are made of nanostructured pyrocarbon (RF patent No. 2477105. Prosthesis of the heart valve, 2011).

The principle of the heart valve is based on the pressure difference in the aorta and the left ventricle. The opening of the valves 2 of the prosthesis occurs under the influence of a direct blood flow with the formation of a passage section. The design of the rotating element of the mount 3 is made with the possibility of concentric rotation on the surface of the housing 5 when angular pressure induced by tornado-like movement of blood occurs. The design of the rotating element of the mount 3, the locking element of the mount 4, the end surface 6, the nut 7, the hinges 8 and the grooves 9 is configured to open the leaves 2 at an angle of 85 ° ± 1 °, but only the central flow is formed, without the formation of peripheral streams. When the flow of blood stops in the left ventricle, a reduced pressure is formed, which leads to the leaflet 2 to its original position with the passage flow being blocked. In the closed position, the edges of the wings 2 are in contact with each other, and the valve body 5 itself is the limiter of the stroke. The rotary element of the fastener 3 contains grooves 10, the locking element of the fastener 4 in turn contains studs 11, made for joint rotation on the surface of the body 5 The design of the housing 5 provides an annular groove 1 with the possibility of mounting the cuff.

Claims (1)

A mechanical artificial heart valve, including an annular body, a sash attachment unit mounted on the casing, three sashes fixed to the attachment point by a hinge, having a convex-concave shape, providing a cross section and its overlap, characterized in that the sash attachment unit consists of two parts - a rotating element of the mount and the locking element of the mount, while the housing and the end surface are made with the possibility of restricting the movement of the wings, and the rotating The fastener assembly element is made to ensure concentric rotation of the flaps over the surface of the housing.

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