RU1619U1 - HEART VALVE BIOPROTHESIS - Google Patents

Abstract

BIOPROTHESIS OF THE VALVE OF THE HEART, containing a framework in the form of a rigid ring, sheathing, cuff, sashes made of biological material with commissures and flexible smoothly rounded commissure supports and limiters of movement of commissure supports made in the form of rigid teeth placed at the angle to the plane of the carcass, while the angle between the plane of each tooth and the plane of the ring is less than the angle of installation of the supports commissures, characterized in that the valves are made of Glisson capsule of the liver of cattle.

Description

VALVE-HEART BIOPROTHESIS

The utility model relates to medical equipment, namely to the creation of prosthetic heart valves.

Known heart valve bioprosthesis (Dobrova NB; Flexible support frame for bioprostheses of heart valves. Composite Mechanics. 1985, N 5, pp. 901-910), consisting of a fabric-lined frame with sash attached to it, with each closing edge . The frame consists of a base and flexible supports located around the perimeter of the frame at an angle to its plane and serving to hem the flaps. The use of a thick, rigid, quick-kayaking xieopericardium ViejiflT for valve flaps leads to the valve losing its mobility after some time after the Gi-1 | plantation due to calcium deposits, perforations, and ruptures in places of the greatest stress of biological material. The most common causes of failure of a known valve prosthesis are rupture or separation of the cusps from the frame, kink of supports, prolapse and inversion of the cusps. When working in a high-pressure chamber, the known heart valve bioprosthesis is characterized by relative fragility.

The task of the proposed utility model is to increase the wear resistance of a heart valve bioprosthesis.

The problem is solved by application of the Glisson cattle liver capsule to perform heart valve bioprosthesis flaps.

The heart valve bioprosthesis contains an all-metal frame, the upper and lower body of which are connected by jumpers.

- / sheathing, cuffs, sashes made of biological material with commissures and flexible, smoothly rounded three supports of commissures placed on the frame at an angle to its plane.

The frame is made of sheet steel grade 1X18H9T or guitar, sheathed with dacron velor. A ring of Teflon felt passes along the outer surface of the lower contour of the frame, which serves as a cuff for suturing during valve implantation. The diameter of the frame is 18-40 mm, depending on the age of the patient. The cross-sectional diameter of the carcass wall is 0.50.8 mm. The height of the frame is 12-20 mm. On the frame, at an angle of 5-10 ° to its plane, at three equal distances from each other, three smoothly rounded supports are made with a height of 12-20 cm, with a cross-sectional diameter of 0.5-0.8 mm, onto which biological material is hemmed during the formation of valve flaps .

The valve modeling on the frame is carried out according to the method of B. Fursov. (Fursov B.A., Bykova V.A., Karasik B.I .; Experimental Surgery, 1972, No. 4, pp. 14-17).

For the preparation of prosthetic flaps, biological material of various thicknesses is used, depending on the size of the proposed pulmonary trunk valve prosthesis.

A bioprosthesis of a heart valve works as follows. When excessive pressure occurs at the inlet of the valve, the valve flaps open, allowing a direct flow of blood through the prosthesis. When excessive pressure occurs behind the valve, the movable flaps close, returning to their original position.

An example of a specific device. The prosthesis consists of an all-metal frame with three uprights.

The frame is lined with dacron velor. The diameter of the frame is 30 mm, the diameter of the cross section of the frame wall is 0.6 mm, and the height is 15 mm. Three smoothly rounded supports, 20 mm high, with a cross-sectional diameter of 0.6 mm, are made on the frame at an angle of 5 ° to its plane at equal distances from each other.

An indispensable condition is the specified thickness and flexibility of the valve flaps. The tissue should not contain blood vessels, the remains of the liver parenchyma, should not be deformed.

With a special we can cut out a strip of fabric 100 mm long and 35 mm wide from the Glisson capsule. The width of the strips of Glisson capsule is sewn for 4 mm with mercilene, 4/0 prolene so that a cylinder forms. After forming the cylinder to determine the boundaries of the valves, the cylinder is put on a conical obturator with three slots located at an angle of 120 ° degrees around the circumference and, accordingly, nodal seams are applied along them. After determining the boundaries of the valves, the cylinder from the liver capsule is placed on the frame of a certain diameter. Then through the holes in the rack of the frame, valve fabric and strips of synthetic fabric spend U-shaped seams that fix the valve and strip of synthetic fabric to the frame. The next seam of the stand is completely covered with biological tissue. This is the most crucial moment when modeling a biological valve, since at this stage valve commissures and

compare the sashes. A comparison of the free edges of the leaf to a depth of 3 mm is sufficient for the normal closure function of the valve at physiological pressure. Tissues are made along the racks of the frame to commissural sutures. After that, a continuous mattress is applied along the contour of the frame

 3

eleven

f

a seam that fixes all three leaves, then sutures of tissue sections in the area of the racks. Excess fabric is cut off, vertical strips of hem are sewn into strips of synthetic fabric. A continuous mattress seam along the contour of the frame fixes the cuff.

Biological material is kept in a 0.625% glutaraldehyde solution in Hepes buffer for 14 days.

The Glisson capsule of the liver is three times thinner (0.15 mm) used by calves xenopericardium (0.45-50 mm), and in terms of its mechanical properties it corresponds to the latter. The use of the Glisson cattle liver capsule as a material for the valve makes the cusps light, mobile, they easily float in the blood stream, instantly react to the slightest and 3 M-e + teti and i blood flow, due to this there is no pressure gradient on the valve and is prevented the occurrence of a reverse movement of blood. The proposed valves are as close as possible to the natural valve of the pulmonary trunk. The use of the proposed prosthesis of the heart valve reduces the number of complications.

Bukharin V.A. KagramanovChi. And. Fursov B.A.

Bondarev Yu / Y. Kokshenev / I.V.

Claims (1)

BIOPROTHESIS OF THE VALVE OF THE HEART, containing a framework in the form of a rigid ring, sheathing, cuff, sashes made of biological material with commissures and flexible smoothly rounded commissure supports and limiters of movement of commissure supports made in the form of rigid teeth placed at the angle to the plane of the carcass, while the angle between the plane of each tooth and the plane of the ring is less than the angle of installation of the supports commissures, characterized in that the valves are made of Glisson capsule of the liver of cattle.