RU2933U1 - DEVICE FOR IRRADIATION OF BIOLOGICAL OBJECTS - Google Patents

Abstract

1. A device for irradiating bioobjects containing a light source made in the form of an LED, characterized in that the source is mounted on the end of a rigid rod. The device according to claim 1, characterized in that it is equipped with a device for connecting to a power source.

Description

BIOPROTHESIS OF THE VALVE OF THE HEART.

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

Known prosthetic heart valve (USSR Author's Certificate N 1388023, 1988, MKI A 61 F2 / 24) containing a plate and a pocket sewn to it, made on the surface of the cylinder, the axis of which is located at an angle to the plate.

The disadvantage of this prosthesis is the impossibility of accurate selection of the prosthesis of a certain size to the individual geometric parameters of the pulmonary trunk and the free edge of the pocket that performs the locking function. This leads to the occurrence of regurgitation and the development of further heart failure. The use of a larger prosthesis leads to an expansion of the lumen of the pulmonary trunk and a deterioration in hemodynamics.

The objective of the utility model is to ensure accurate selection of the geometric parameters of the valve prosthesis to the individual characteristics of the patient.

The task is achieved by performing the upper part of the pocket in the form of a rectangle with three edges not attached to the main plate.

In FIG. 1 shows a general view of a bioprosthesis.

The prosthesis consists of a plate 1 and a pocket 2. The pocket is sewn to the plate along the contour 3. The pocket 2 is made on the surface of the cylinder, the axis of which is located at an angle to the plate. In this case, the upper part of the pocket in the form of a rectangle remains free.

MKHS A 61 F2 / 24

.

The plate is made of biological material. This can be xenopericardium of calves, pig pericardium, Glisson capsule of the liver of cattle, etc. The pocket is also made of biological material. On the reverse side of the plate, a plate of synthetic material is hemmed to it along the contour of the pocket.

Biological materials are treated in a 0.625X solution of glutaraldehyde in Nerez buffer for 14 days. To prepare the plate - the base and pocket of the prosthesis, biological materials of various thicknesses are used, depending on the size of the proposed prosthesis. A xenopericardial plate 30-40x85-100 mm in size, 0.45-0.5 mm thick, is used. The pocket is cut out in the form of a complex figure, the lower part of which is a triangle, and the upper rectangle. The dimensions of the rectangle exceed by 1-1.5 cm on each side the dimensions of the triangle, and the height of the rectangle is 1.5-2 cm, depending on the size of the prosthesis.

The prepared pocket is placed on the plate - base with smooth sides to each other in the middle of the plate. Then atraumatic suture material (6/0) fix the pocket on the sides of the triangle with a twisted seam. Next, plates made of synthetic material (polypropylene knitwear) and a pocket fixed to the plate are connected to each other by a continuous mattress seam along the edge of the sash and back with atraumatic material (4/0). The finished prosthesis is placed in a special container for sterilization in 4% formalin and storage. After checking sterility, the prosthesis is ready for use.

into the hydrostatic pressure valve, pocket 2 is pressed against the plate 1, providing free passage of blood flow into the pulmonary artery. When reverse blood flow occurs, the pocket overlaps the lumen of the pulmonary trunk. Using a large free edge in the form of a rectangle allows you to carve out a pocket during the operation that fully corresponds to the individual parameters of the pulmonary trunk of a particular patient. Thus, the surgeon during the operation can form a monostasis with a sinus that is tightly adjacent to the trunk of the pulmonary artery in a state of maximum opening of the valve, i.e. into diastole.

In FIG. Fig. 2 schematically shows at the time of diastole the sash prototype (Fig. 2a) and the proposed sash (Fig. 26).

The use of the Glisson capsule of the liver of cattle, pig pericardium or other materials with high mobility and elasticity to form the pocket of the proposed valve allows you to bring it as close as possible to the natural valve of the pulmonary trunk.

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Claims (2)

1. A device for irradiating bioobjects containing a light source made in the form of an LED, characterized in that the source is mounted on the end of a rigid rod.  2. The device according to claim 1, characterized in that it is equipped with a device for connecting to a power source.