RU2285543C2 - Device for removing gel inclusions, micro aggregate particles and leukocytes from blood products - Google Patents

Abstract

FIELD: medical engineering.

SUBSTANCE: device has connection unit, connection tubes and filter having inlet opening connected to the connection unit, and outlet opening connected to container for collecting filtered blood product, in its casing, an opening for liquid and an opening for gas to pass. The opening for gas to pass is connected to the connection unit and one of containers for collecting filtered blood product allowing the connection tubes to be closed. The opening for liquid to pass is connected to two containers for collecting filtered blood product, allowing the connection tubes to be closed. It is also connected, via a cavity available in one of the containers, to the connection unit and inlet opening for liquid to pass.

EFFECT: reduced blood component losses.

2 cl, 1 dwg

Description

The invention relates to medicine, more specifically to transfusion, and can be used in the process of processing blood for subsequent storage or infusion. The device is designed to remove gels, microaggregate particles and leukocytes from the components of canned blood (erythromass and plasma), with the aim of preventing immunological reactions and complications, as well as preventing a number of infectious diseases, preventing the formation of microclots and improving the storage conditions of erythrocyte media. The device can find application at blood transfusion stations, donor points, in medical institutions.

A filtering device for removing white blood cells is known [European Patent No. 1,500,002 A2], comprising a housing with an inlet and outlet nozzles and a filter element located inside the housing, the inlet nozzle being connected by means of tubes and a tee to blood and anticoagulant containers, and the outlet nozzle is connected when using a tube with a container for collecting leukocyte blood.

The disadvantage of this device is that the design does not allow filtering of two blood components: plasma and erythromass, it does not allow removal of the residual amount of the filtered biological product from the leukofilter after filtration.

A device for removing viral pathogens from the blood according to the application of the Russian Federation No. 98114098 A1, including a filter housing, in which there is a liquid inlet connected to an external line connection, a liquid outlet connected to a container for collecting the filtered product, and the hole for removing air, in addition, the device includes a tube bypassing the filter, with a one-way valve installed in it, designed to exhaust air from the container for collecting filtered blood product.

However, this device also does not allow filtering of two components - plasma and erythromass, maximize the use of the surface of the filter elements and reduce the loss of the filtered product.

A significant disadvantage of this device is the complicated filtration procedure, the inability to obtain two blood components in one device and the inability to store the filtered components for a long time.

Currently, the removal of leukocytes from the blood and its components is one of the most effective ways of preventing well-known immunological reactions and complications, as well as the transfer of viruses associated with white cells and a number of other infections.

Removal of white blood cells from blood transfusion media using special devices - white blood filters, manufactured by foreign manufacturers at present, has become a mandatory procedure in transfusion practice in several countries. Until the end of the last century, leukofiltration was practically unavailable for our blood service due to the high cost of imported filtering devices.

Therefore, the task was to create a cheaper domestic device for filtering blood and its products by removing gels, microaggregate particles and white blood cells that carry viral pathogens, which will prevent pyrogenic reactions, reduce the risk of graft versus host disease, transfer of a number of viral infections and HLA- alloimmunization.

In addition, it was found that in filtered media, the functional properties of red blood cells are better preserved. In red blood cells depleted in leukocytes, microbunches do not form. As a result, the technique of blood transfusion is simplified, the rate of transfusion of such media is not limited.

The technical result to which the claimed invention is directed is to reduce the loss of blood components, and to ensure the filtering of two blood components (plasma and erythromass) with one device.

An additional technical result is to maximize the use of the surface of the filter elements and reduce material consumption.

The technical result is achieved due to the fact that in the device for cleaning blood products, which includes a connector, connecting tubes and a filter, in the housing of which there is an inlet connected to a connector and an outlet connected to a container for collecting the filtered blood product, openings for liquid and an opening for air, an air hole with the possibility of overlapping the corresponding connecting tubes is connected to the connector and one of the containers for collecting the filtered blood product, and the outlet e liquid to overlap the corresponding connecting pipes connected to the two containers for collecting filtered blood product, and through the lumen of one of the container - with the connector and the inlet for liquid.

A roller clamp is inserted into the device, which is installed between the connector and the inlet for the liquid of the filter housing.

The invention will be better understood from the description with reference to the position of the drawing, which shows the claimed device for cleaning blood products.

The device 1 includes a connector 2 for sterile connection, made in the form of a single-channel needle 3, a closed sheath. Connector 2 is closed with a cap until used. The filter housing 4 has an inlet for liquid 5, an outlet for liquid 6 and an opening for air 7. The inlet for liquid 5 is connected to a connector 2 through a pipe 8, a first tee 9, a pipe 10 and a roller clamp 11. A roller clamp 11 is used for smooth control of the speed of the transfused plasma, since the quality of filtration and the degree of capture of leukocytes is determined by the feed rate of the filtered medium. A tube 12, a second tee 13, a tube 14 with a first clamp 15 connected to the first container for a leukocyte-free plasma 16 are connected in series to the second input of the first tee 9. The second output of the second tee 13 is connected to the air hole 7 by a pipe 17 with a second clamp 18 the hole 6 for the filter fluid 4 by a tube 19 is connected to a third tee 20, the first outlet of which by a tube 21 with a third clamp 22 is also connected to the container 16. The second outlet of the third tee 20 by a tube 23 with a fourth clamp 24 is connected to the second container 25 for filtered product: leukocyte-free plasma.

The device creates a closed system when it is connected to containers with previously separated blood components from a single donor (plasma and red blood cells) due to connector 2, which is specially designed to provide a connection that guarantees the preservation of the sterility of the transfused components.

The device operates as follows.

Containers with filtered media obtained from one donor (a plasma container and an erythromass container are not shown), interconnected by a connecting tube with a clamp, are connected to the device 1 through connector 2 immediately before the filtering process.

Before filtration, the suitability of the filtered media — plasma and erythromass — is also checked; the shelf life of preserved blood and its products before filtration should not exceed 48 hours at 4 ° C. Device 1 is removed from the package. Close all clamps 11, 15, 18, 22, and 24. Remove the cap from the single-channel needle 3 of the connector 2 for sterile connection, while the sheath should remain on the needle 3. Open the protective sheath of the plasma container fitting and rotate the needle 3 with the sheath up to stop, punctured the fitting’s membrane. Containers with filtered media are hung to a height of at least 1.5 m with a vertical arrangement of filter 4. In this case, the container with the plasma should be 0.2 m lower than the container with an erythrocyte mass. To displace air from the filter 4, it has an outlet for liquid 6 upward, open the roller clamp 11 and the third clamp 22. Under the influence of gravity, the filter 4 is filled. When plasma appears in the tube 19, the filter 4 is returned to its original position.

The plasma filtration process is continued until its entire volume is filtered out of the plasma container. At the end of plasma filtration, close the roller clamp 11, preventing air from entering the plasma container into the tube 10. If air appears in the tube 10, the air is returned to the container by the reverse plasma flow, gently squeezing the container for the leukocyte-free plasma 16.

To filter erythromass, transfer it from the erythrocyte mass container to the plasma container by removing the corresponding clip. Open the roller clamp 11 and displace the remaining plasma from the tubes 10 and 8 and the filter 4 into the container for leukocyte-free plasma 16. When the erythromass appears in the tube 19, close the third clamp 22. Open the fourth clamp 24 and filter the erythromass into the container for leukocyte-free erythromass 25. Close the roller clamp 11.

Then the container for leukocyte-free plasma 16 is placed in a plasma extractor (not shown). The first clamp 15 is opened. Using a plasma extractor, gently press on the container for the leukocyte-free plasma 16, preventing the plasma from entering the tube 14, and the remaining erythromass from the tube 8 and filter 4 (from the input side) is squeezed out into the container for the leukocyte-free erythromass 25 Open the second clamp 18 and again gently press on the container for the leukocyte-free plasma 16. The air collected in it transfers the remaining erythromass from the filter 4 (from the input side) and tubes 8, 19 and 23 into the container for the bezleik-free of erythrocyte mass 25. Open the clamp 18 and again gently press on the container 16. The remaining air transfers the remaining erythromass from the filter 4 and tubes 19, 23 into the container for leukocyte-free erythromass 25. Close the fourth clamp 24. With the process taking place in the claimed device removing residues of filtered masses, blood components are removed from both sides of the filter and all connecting tubes. This allows you to fully remove the filtered mass into containers for their collection and to eliminate the loss of expensive filtered components.

If it is necessary to remove the remaining air from the container for the leukocyte-free plasma 16, the roller clamp 11 is opened and, gently pressing on the filled container for the leukocyte-free plasma 16, preventing the plasma from entering the tube 14, the air is displaced into the container with the filtered blood product. Close the first clamp 15.

If it is necessary to remove the remaining air from the container for leukocyte-free erythromass 25, place it in the plasma extractor and open the fourth clip 24. Carefully pressing on the filled container for leukocyte-free erythromass 25, preventing the erythromass from entering the tube 21, displace air into the container with the filtered blood product. Close the fourth clamp 24.

The tubes 14, 21, 23 are sealed closer to the containers 16 and 25. These tubes are cut off above the point of sealing. Containers with leukocyte-free blood components are labeled and stored at the temperature indicated on the label.

The device according to the claimed invention has the following advantages.

1. It allows to exclude the loss of expensive filtered blood components due to the complete displacement of their residues from the filter (on both sides of the filter element) and connecting tubes.

2. Allows you to get two leukocyte-depleted blood components of one donor (erythromass and plasma) in one device and in one cycle of its work.

3. Does not require washing the filter assembly with physiological saline, does not require dilution of saline, which is prepared by leukocyte-depleted erythromass.

4. The process of leukofiltration is carried out in a closed system, which makes it possible in principle for long-term storage of erythromass and plasma depleted in leukocytes.

5. The technology for the preparation of two leukocyte-free blood components, which provides for the fractionation of donor’s canned blood before leukofiltration, allows you to select if necessary leukotrombosloy - a valuable fraction that is the source of platelets and leukocytes. When filtering canned blood, followed by separation into erythromass and plasma, as is done abroad, inevitable losses of expensive platelets occur, most of which are delayed by the filter.

6. Has a special protective device for sterile connection of the needle to the container with the filtered medium.

Claims (2)

1. A device for the purification of blood and its products, including a connector, connecting tubes and a filter, in the housing of which an inlet connected to a connector and an outlet connected to a container for collecting the filtered blood product, openings for liquid and an opening for air, characterized in that the air hole with the possibility of overlapping the corresponding connecting tubes is connected to the connector and one of the containers for collecting the filtered blood product, and the liquid outlet with Tew overlapping the respective connecting tubes is connected to two containers for collecting filtered blood product, and through the lumen of one of the container - with the connector and the inlet for liquid. 2. The device according to claim 1, characterized in that a roller clip is inserted in it, mounted between the connector and the inlet for the liquid of the filter housing.