RU2528647C2 - Apparatus for extracorporeal blood and red cell processing - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to apparatuses for intraoperative extracorporeal blood processing. The apparatus comprises ultraviolet sources, a transparent plastic tray exposed to an excessive pressure of not less than 150 mmAq from the inside and provided with nozzles connected to a blood and packed red cell return system. The apparatus accommodates a pressure sensor and a control unit. The tray represents a flat elastic bag surfaces of which are welded to form a serpentine passage. The blood and packed red cell return system is provided with a soft container and a clamp at the top. The bottom of the blood return system comprises a loop with an injection needle attached at the end. The pressure sensor is arranged on the surface of the soft container and coupled with the control unit connected to the ultraviolet source with a variable intensity.

EFFECT: prolonging the blood and component exposure and simplifying the apparatus process.

2 dwg

Description

The invention relates to medical equipment for extracorporeal processing of blood and, in particular, red blood cells during surgery. During surgery with large blood loss of blood from the wound, red blood cells are collected and isolated from it, which are returned to the patient. The device is most adapted to irradiate red blood cells.

State of the art

Known devices from the United States are THERAKOS, THERAKOS VVARX, and THERAKOS CELLEX. In these devices, blood irradiation occurs in a transparent rigid cuvette having a serpentine channel for the passage of blood. The disadvantage of this device is a single-use cell darling because of its complexity. A device is known according to patent of Russia 2145898, in which blood is irradiated in a semi-rigid cuvette consisting of a rigid body and a transparent film that covers half of the cuvette on one side. This cuvette is simpler than the above, but it is also difficult to manufacture, and, in addition, the blood path in this cuvette is small.

The task is to simplify the cuvette and provide in it at the same time sufficient opportunities for irradiation of blood. In addition, given that the erythrocyte flow rate during surgery through the cuvette may be different, and the radiation dose should be constant, the device provides for automatic provision of the radiation dose.

SUMMARY OF THE INVENTION

The cuvette is a flat elastic bag with fittings, and on the plane of the cuvette there are welds that connect both walls of the cuvette and form a serpentine channel. Alternatively, the serpentine channel can be formed by elastic protrusions located on one of two plates, between which the cell is located. In addition, on the surface of a soft container with red blood cells there is a pressure sensor connected to a control unit that interacts with the radiation source through the power supply.

Description of drawings

The invention and the possibility of achieving a technical result are illustrated by drawings. Figure 1 shows a General view of the device. Figure 2 is a view of the cuvette from the side.

An example of a structural embodiment of the invention

The device consists of a cuvette 1 in the form of a flat transparent plastic bag having fittings 2 and welds 3, a blood return system 4 is connected to the fittings 2. A soft container with red blood cells 5 and a clip 6 are located in the upper part of the return system 4. a sensor 7 connected to the control unit 8, and the latter interacts through a power supply 9 with a radiation source in the ultraviolet range 10. A loop 11 is formed in the lower part of the return system 4, and an injection needle 12 is formed at the end. On the plate 13 pressing the kyu etu to the transparent plate 15, as a variant, there are elastic protrusions 14, which are located on-site welds 3.

Device operation

Install the device on a medical stand with cuvette 1, fill the tank with 5 red blood cells. Clamp 6. Close through the power supply 9, the source of ultraviolet radiation 10. The red blood cells through the return system 4 through the nozzle 2 enter the cell 1, and from it after irradiation to the lower return system 4 and through the needle 12 into the patient's vein. The cuvette 1 is located between the two plates 13 and 15. The plate 15 is transparent to ultraviolet radiation. In the cuvette, red blood cells move along the serpentine channel, which ensures their high saturation with ultraviolet rays. To completely fill the serpentine channel, an overpressure of at least 150 mm water column is created in the cell. using the loop 11. At this pressure, the channel straightens and takes place between the plates 13 and 15, the distance between which is 3 mm Instead of welds 3, elastic protrusions 14 can be used to form a serpentine channel, which, like welds, in certain places connect the walls of cell 1. During the operation, based on the patient’s condition, the return of red blood cells can be different in speed their introduction. At the same time, in order to maintain the optimal radiation dose, the radiation intensity should be changed. In the device, this is done automatically by arranging the pressure sensor 7 on the surface of the soft container 5. The arrows 16 show how the container is compressed. The signal from the sensor 7 is fed to the control unit, and from it to the power supply, which changes the irradiation intensity. Instead of red blood cells when using the device in medical facilities, blood is irradiated, and the sensor 7 and the control unit 8 are not used.

Claims (1)

A device for extracorporeal irradiation of blood and erythrocyte mass, including sources of ultraviolet radiation, a transparent plastic cuvette, on which an overpressure of at least 150 mm of water acts from the inside. a column equipped with fittings connected to a blood or erythrocyte mass return system, characterized in that a pressure sensor and a control unit are introduced into it, wherein the cuvette is made in the form of a flat elastic bag, the planes of which are connected by welds with the formation of a serpentine channel, the blood return system or erythrocyte mass of the upper part is provided with a soft container and a clamp, and in its lower part a loop is formed with an injection needle mounted on the end, and the pressure sensor is located on the surface of the soft container bone and connected to a control unit that interacts with the radiation source with the possibility of changing the radiation intensity.

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