RU2321430C1 - Blood collection and retransfusion apparatus - Google Patents

Abstract

FIELD: medicine, in particular, transfusiology, more particular, blood collecting means allowing blood to be collected, stabilized, filtered and fed back to patient.

SUBSTANCE: apparatus has blood collector with cover and filter, blood and anticoagulant pipes, vacuum pipe connected to cover, and vacuum chamber incorporating container with blood. Apparatus is further provided with valve mounted in cover made from resilient material. Valve is adapted for movement in vertical plane upon displacement of cover due to variation in vacuum extent within blood collector and for communicating of space under cover to environment. Blood collector is connected to container and through valve to vacuum chamber.

EFFECT: automatic maintaining of desired vacuum extent and thereby reduced hemolysis.

5 cl, 2 dwg

Description

The invention relates to medicine, more specifically to transfusiology, in particular to blood collection tools that allow blood collection, stabilization, filtration and return to the patient, or its storage for subsequent infusion. The invention can be used in the field and emergency medicine (disaster medicine). The invention can be used during surgical operations associated with large blood loss, in particular in cardiac surgery. The invention will also find application for nursing patients by replenishing blood lost as a result of trauma.

Recently, in transfusiology, a problem associated with a shortage of donor blood is becoming increasingly acute. Even if there is a sufficient amount of donated blood during its infusion, immune and allergic reactions are possible, there is a risk of transmission of serious diseases, in particular, acquired immunodeficiency syndrome, malaria, hepatitis. In addition, in some situations, donated blood is not available at all. Therefore, they are increasingly resorting to autohemotransfusion, i.e. infusion of blood lost by the patient himself or received from the patient himself.

Currently, to solve the problem of collecting and reinfusion of blood, many devices are used, which, however, have serious disadvantages. So in the copyright certificate SU 1745261 describes a device for aspiration and intraoperative reinfusion of blood, containing vessels for collecting, filtering and returning blood, an aspiration tip, a vessel for a stabilizing solution. To solve the problem of reducing hemolysis, the means for receiving blood are made in the form of cones with through grooves. However, in this device it is not possible to automatically set and adjust the degree of vacuum, and with high vacuum and high aspiration speed, the blood cells are significantly injured due to the high blood speed in the tubes at the inlet of the device. In addition, the device is cumbersome, therefore, can only be used in a stationary operating room. Filters in it require frequent replacement along with containers.

Known system for autohemotransfusion according to patent US5785700, including a rigid vessel with a soft container for blood, a portable vacuum source with a manual drive, filters and connecting lines. The system can be easily assembled to collect blood, however, for reinfusion, the vacuum source must be disconnected, the rigid container turned upside down and connected to the transfusion line. The known device is small and can be used in mobile conditions. However, it is impossible to automatically adjust the degree of rarefaction in it, and therefore there is a danger of high hemolysis, it is difficult to use and requires considerable time to prepare for work.

The closest analogue to the claimed invention, according to the authors, is a device for autohemotransfusion according to patent US4772256, which, like the claimed one, is aimed at solving the problem of reducing hemolysis through the use of low vacuum. The device can also be used in high vacuum and gravitational forces. The known device minimizes the interaction of blood and air and provides early elimination of blood bubbles, in addition, this device can be used repeatedly with a series of different blood bags. A known device includes a blood tank, a blood bag, a vacuum container connected to a vacuum source, lines for supplying anticoagulant and blood, a vacuum line, filters. However, in this device, as well as in the ones described above, the predetermined vacuum value cannot be supported automatically.

A significant drawback is that the device cannot be considered suitable for work in emergency conditions, since the implementation of reinfusion requires a change in its configuration and position in space, which is associated with time losses. The known device is relatively bulky. All this does not allow its use in mobile or field conditions. Therefore, it is intended mainly for use in stationary conditions of the operating room or ward.

In connection with the increasing destructive natural disasters, man-made disasters and terrorist acts leading to severe injuries and blood loss, there was an urgent need to create a device for autohemotransfusion, which could be used directly in the disaster area without loss of time for transporting victims and at the same time ensure the implementation of all functions and advantages of known stationary agents: low hemolysis, a high degree of sterility and filtration, exclusion of expressions.

The technical result that is achieved by using the claimed invention in comparison with the closest analogue is to automatically maintain a predetermined vacuum value and thus reduce blood hemolysis.

An additional technical result consists in increasing sterility by eliminating the contact of blood with air.

An additional technical result is to provide visual control of the operation of the device through the use of transparent polymeric materials.

The technical result is achieved due to the fact that a valve is installed in the device for collecting and reinfusion of blood, including a blood collector with a lid and a filter, blood and anticoagulant lines, a vacuum line connected to the lid and a vacuum chamber with a blood container placed in it, and a valve is installed in a cover made of an elastic material, and a solid hollow rod rigidly fixed to the bottom of the blood collector, while the inner space of the rod is connected to the cavity of the vacuum chamber, the rod and valve are made are coaxial, and the valve has the ability to move vertically when moving the lid associated with a change in the degree of vacuum in the blood collector, and the connection of the space under the lid with the environment.

The technical result is enhanced due to the fact that the cover and the valve moving when the cover is moved are calibrated to maintain vacuum in the device within (90-150) mm Hg. (12-20) kPa.

An additional technical result is achieved due to the fact that the vacuum line is connected through the cover to the interior of the valve body.

An additional technical result is achieved due to the fact that the blood collector, the vacuum chamber and the blood container are made of transparent polymeric materials.

The invention will be more clear from the description with reference to the position of the drawings, where in Fig.1 shows a schematic diagram of a device for collecting and reinfusion of blood, Fig.2 is a collection of blood in section in an enlarged scale.

The device includes a blood collector 1 (Fig. 1, Fig. 2), made in the form of a container of a transparent solid polymer material, a hermetically sealed lid 2, made of an elastic polymer material. The surface of the lid 2 moves inside and out of the collector 1, depending on the amount of vacuum created inside the collector 1. A valve 5 is installed in the lid 2, which moves together with the lid and can connect the space under the lid 2 through the air supply openings 18 with the environment. Any valve can be used to control the flow area. The cover 2 near the valve 5 is connected to a vacuum line 11, which is connected to a vacuum source (not shown). In a preferred embodiment, the vacuum line can be directly connected to the valve body 5. In the upper part of the blood collection 1 there is a tee 7 for connecting the blood line 15 and the anticoagulant line 12. An adjustable roller clamp 17 and an anticoagulant dropper 13 are installed on the line 12 of blood ends with a blood aspiration control handle 22 with a lever 16. In the vacuum chamber 3 is placed a universal soft container for blood 4. The cavity of the container 4 is connected with the inner space blood line with a detachable line 23, on which the first Luer connector 6 and clamps 20, 21 are mounted. Line 23 consists of two parts connected by connector 6: one part belongs to the blood container 4, the other to the collection 1. On the other hand, the cavity of the container 4 is connected with fitting 14, which is used to connect to the transfusion line in the mode of returning blood to the patient. The line 23 is designed to supply blood to the container 4 from the collection 1. The vacuum chamber 3 has a lid that hermetically covers the cavity of the housing of the chamber 3 and is designed to replace blood containers 4.

In the blood collector 1, a hollow rod 26 made of hard plastic is placed along its axis, which is rigidly fixed to the bottom of the collector 1 and is arranged sequentially and coaxially with the valve 5. The inner space of the rod 26 is connected to the vacuum chamber 3 through a detachable line 24. Luer connector 6 and clamp 20. Highway 24 also consists of two parts: one part belongs to the blood collection 1, the other to the vacuum chamber 3.

The device is used as follows.

The blood collector 1 and the vacuum chamber 3 with the blood container 4 installed in it are fixed on a rack. Clips 20 close. The anticoagulant line through the dropper needle 13 is connected to a container with an anticoagulant (not shown). Set the flow of anticoagulant using a roller clamp 17. Close the lever 16 of the control handle 22.

In the patient’s blood sampling mode, the tip 8 is inserted into the wound, by pressing the lever 16 control the blood sampling. Blood from the wound comes at an optimal speed, which provides a vacuum of the order of (90-150) mm Hg (12-20) kPa. It has been experimentally established that such a value of the degree of vacuum provides adequate aspiration with minimal, practically absent blood hemolysis. Such a degree of vacuum is maintained in the device automatically using the valve 5 installed in the cover of the blood collector. The cover with the valve placed in it is calibrated to maintain the indicated vacuum value. With increasing vacuum in the collector 1, the cover 2 bends inward, the valve 5 moves vertically and opens the holes 18 for air supply. The degree of vacuum in the collector 1, and therefore in the device as a whole is reduced. The flow of external air through the openings 18 in the cover 2 is directed through the valve body 5 directly to the vacuum line 11, without contacting the blood in the collector 1. This ensures sterility of the blood and eliminates the possibility of infection from the external environment. Blood entering the collector 1 is filtered by the filter placed in it, and then along the line 23 with open clamps 20 and 21 it enters the blood container 4, which is in a straightened state, because vacuum is constantly maintained in the vacuum chamber by connecting the inner cavity of the vacuum chamber through line 24 with the second open clamp 20 to the rod 26 and through it to the vacuum line 11. The operation of the device and the degree of filling of the collector 1 and container 4 are visually controlled through the transparent walls of the containers. After filling the container 4 with blood, the clamps 20 and 21 are closed. The container 4 and the vacuum chamber 3 can be disconnected from the blood collector 1 using Luer connectors 6, while the replacement of the blood container 4 is carried out without stopping the blood collection process. When replacing the filled container 4 in the vacuum chamber with an empty one, blood collection continues into the blood collector, and then after connecting the vacuum chamber with an empty container and, having opened clamps 20 and 21, blood is automatically drained from the collector into the container.

The mode of returning blood to the patient can be made after completion or directly in the process of taking blood from the patient. To do this, it is enough to close the clamp 21, and connect the fitting 14 to the transfusion line connected with the patient's vein. Pressure must be applied to the vacuum chamber. Blood will flow to the patient by gravity due to the action of gravitational forces.

Clinical trials of the device during five surgical operations with severe blood loss have been performed. In one case, three liters of blood were taken in three collectors, of which 3 liters were reinfused from liter blood containers. In two cases, it was collected in collections and transferred to blood containers of 2.4 and 2.3 liters, which were subsequently reinfused. In two other cases, it was collected in blood collectors and transferred to blood containers of 1.1 and 1.0 liters, and subsequently reinfusion was performed. The studies revealed that the amount of free hemoglobin in the transfused blood after the experiment did not change. Thus, it was found that the device for collecting and reinfusion of blood does not change the free hemoglobin collected from the operating cavities of the reinfused blood.

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

1. Allows you to virtually eliminate blood hemolysis by creating and automatically maintaining the optimal degree of vacuum in the range (90-150) mm Hg (12-20) kPa, and also due to the exclusion of the passage of air through the blood at the moment of termination of its intake and adjustment of the vacuum.

2. Provides for use in disaster medicine and field conditions.

3. Allows you to visually monitor the process of collecting and returning blood to the patient.

4. Provides convenience and ease of maintenance by medical personnel by eliminating the need to change the configuration and spatial arrangement of its components, the ability to automatically maintain a vacuum.

5. Provides a high degree of sterility and the elimination of foaming of blood due to the lack of contact of blood with air at the time of termination of its intake.

6. Provides the ability to easily replace blood containers in a vacuum chamber. Provides the ability to replace containers without stopping the blood collection process.

7. Provides the ability to simultaneously and sequentially implement the modes of collection and return of blood.

Claims (5)

1. A device for collecting and reinfusion of blood, including a blood collector with a lid and a filter, lines for blood and an anticoagulant, a blood line connected to a blood collector, a vacuum line connected to the lid, and a vacuum chamber with a blood container placed in it, characterized in that it introduced a valve mounted in a cover made of an elastic material, having the ability to move vertically when moving the cover, associated with a change in the degree of vacuum in the blood collector and the connection of the space under the cover with swirling medium, wherein the blood collection container and is connected to a valve - the vacuum chamber. 2. The device according to claim 1, characterized in that a solid hollow rod is inserted into it, rigidly fixed to the bottom of the blood collector, while the rod and valve are made coaxial. 3. The device according to claim 1, characterized in that the cover and valve are calibrated to maintain a vacuum within 90-150 mm Hg. 4. The device according to claim 1, characterized in that the vacuum line is connected through the cover to the interior of the valve body. 5. The device according to claim 1, characterized in that the blood collector, the vacuum chamber and the blood container are made of transparent polymeric materials.

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