RU2271834C1 - Device for carrying apparatus-free membrane plasmapheresis according to single-needle scheme - Google Patents

Abstract

FIELD: medical equipment.

SUBSTANCE: device can be used for medicinal and donor blood separation to erythromass and plasma, for removal of plasma, return of erythromass to patient and introduction of plasma-substituting solutions and anticoagulant. Device has blood taking conduct provided with accumulating container, erythromass returning conduct with air trap, anticoagulant and hemodilution agent supplying conduct and plasma collecting conduct provided with removable containers and clamps. Blood taking conduct has injection unit for additional introduction of medicines, which unit is disposed close to needle for blood taking. Blood taking conduct is joined permanently with accumulating container which is made of film material. Accumulating container has additional tube provided with clamp. One end of tube is joined permanently with accumulating container and the other end is connected with connector and plug. Dropping bottles with polymeric two-channeled needles are mounted at hemodilutant agent and anticoagulant supply conducts. Plasma collecting conduct has container for collection plasma which container is made of film material. Polymeric needles at conducts for supplying hemodilution agent and anticoagulant are made with two channels. Extracorporal close circuit is made to provide higher sterility of plasmapheresis.

EFFECT: better comfort at operation; higher degree of sterility.

2 cl, 1 dwg

Description

The proposed device for conducting membrane plasmapheresis according to a single-needle scheme relates to medical devices and can be used for medical and donor membrane plasmapheresis, i.e. separation of blood into hermass and plasma, plasma removal, return of hermass to the patient and the introduction of plasma-substituting solutions and anticoagulant. Plasmapheresis is recognized as the most effective method, providing a radical removal of toxins from the body along with plasma.

A device for separating plasma under the influence of gravity is known, including a blood sampling line, a membrane plasma filter, a storage tank connected to the plasma filter by a second line, a plasma tank connected to a plasma filter by a plasma line, a hemodiluting tank with a line and an anticoagulant input means connected to the line blood sampling. The capacity for hemodiluteant is connected by a line directly to the storage capacity [1].

A disadvantage of the known device is the lack of the possibility of dosed supply of an anticoagulant, which leads to serious complications during plasmapheresis, because with a small amount of anticoagulant, thrombosis of the plasma filter is possible, and with an excessive amount - the possibility of a countercurrent to the flow of blood taken. When using this device, there is an increased trauma of blood cells due to their repeated passage through the plasma filter when concentrate blood is returned to a person. In addition, the use of this device for therapeutic plasmapheresis is difficult due to the implementation of the return of hermass to the patient only once. The design of the device does not provide a stable mode of blood sampling, especially when the veins subside.

The closest in technical essence to the proposed device is a device for the implementation of membrane plasmapheresis according to a single-needle scheme [2].

The known device includes a blood sampling device, a membrane plasma filter connecting their first line, a storage tank connected to the plasma filter by a second line, a plasma tank with a line, a tank for hemodiluteant with a line, and an anticoagulant input means in the form of a container with a line on which a dropper and clamp.

The disadvantage of this device design is the lack of an integral connection of the storage tank and the line connecting it to the plasma filter, which does not allow for a closed sterile extracorporeal circuit, creates inconvenience to the medical staff and does not ensure patient safety during plasmapheresis.

In addition, the connection of containers for hemodiluteant and anticoagulant with highways does not allow the use of various standard containers with solutions manufactured by the industry as such.

The absence of standard Luer-Lock type connectors on highways does not allow the use of plasma filters from other manufacturers.

In addition, the container for collecting plasma is inextricably connected to the trunk, which does not allow the replacement of the tank during the plasmapheresis procedure, which is necessary for therapeutic plasmapheresis.

The purpose of the invention is the creation of a closed extracorporeal circuit and maintaining sterility during the plasmapheresis procedure, as well as ensuring the convenience of medical personnel.

To achieve this goal, a device is proposed for conducting membrane plasmapheresis according to a single-needle scheme, including a blood sampling line with an accumulative capacity, a return line of Hermas with an air trap, a line for supplying hemodilute and anticoagulant, a line for collecting plasma with removable containers and clamps.

In addition, the blood sampling line has an injection unit for additional drug administration, located near the blood sampling needle, and is permanently and tightly connected to the storage tank made of film material and having an additional tube with a clamp, one end of which is tightly and tightly connected to the storage capacity, and the other with a plug with a plug, connected by the type of "Luer-lock".

In addition, the Hermas return line is equipped with an air trap, on the cover of which there is a medication supply and air removal unit made in the form of a tube with a clamp, one end of which is connected to the air trap cover, and the other is equipped with a connector with a plug connected according to the Luer lock ".

In addition, droppers with polymeric two-channel needles are installed on the highways for the supply of hemodilute and anticoagulant.

In addition, the plasma collection line has a plasma collection container made of film material and equipped with a tube and connector with an internal Luer cone for connection to the line, and at the end of the line connected to the tank, there is a device in the form of a sleeve having a cone "Luer", and a movable threaded union nut that is inseparably connected to it and provides a tight connection between the sleeve and the trunk connector.

In addition, the blood sampling line, the Hermas return line, and the plasma collection line are equipped with plugs connected to the Luer-lock type for connection to the plasma filter, which allows the device to be used with any plasma filter that also has standard Luer-lock connectors .

To explain the invention, an example of a specific embodiment of a device for conducting membrane plasmapheresis according to a single-needle scheme with reference to the drawing, which shows the device, is given below.

The device comprises a blood sampling line 1 with an accumulating capacity of 2, a return line of Hermas 3 with an air trap 4, a supply line for hemodiluting 5, an anticoagulant supply line 6, clamps 7 and 8, and a plasma collection line 9 with replaceable containers 10. On the blood collection line an injection unit 11 is installed, made in the form of a tube of highly elastic polymer material, which allows you to enter additional drugs by puncture with an injection needle. At one end, the tube has a sleeve 12 with a Luer cone for connection to an intravenous catheter, and the other end is connected to a blood sampling line. The blood sampling line is hermetically and permanently connected to the storage tank 2 for collecting blood. The container is made of film material and has an additional tube 13 with a clip 14. One end of the tube is connected to a storage tank, and the other to a connector 15 with a stopper 16 connected by the Luer-lock type. The tube can be used to vent air from a container when filling it with blood or to take blood samples. In addition, the blood sampling line has a branch in the form of a tube 17, one end of which is equipped with a connector 18 with a plug 19 connected to the Luer-lock type for connection to the plasma filter, and its other end is connected via a tee 20 to the blood sampling line 1 and storage tank 2. The blood supply line 5, which is part of the blood sampling line, and the anticoagulant supply line 6 have droppers with polymer needles 21 and 22, and these needles are made of two channels, i.e. having at the same time channels for liquid and air. This design of needles allows you to use as containers with a hemodilute and anticoagulant both polymer containers and glass bottles and use the necessary hemodilute and anticoagulant.

The return line of Hermas 3 is equipped with an air trap 4, on the cover of which there is a unit for supplying drugs and air vent 23, made in the form of a tube 24 with a clamp 25, one end of which is connected to the cover of the air trap 26, and the other with a connector 27 having an inner cone "Luer", and a closed cap 28. The presence of such a device allows you to make the plasmapheresis procedure safer for the patient and provides ease of use for the medical staff.

This design of the device allows the medical staff in the process of plasmapheresis, slightly opening the cap 28, to adjust the height of the air trap filling with blood by discharging or supplying air to it and injecting it with a syringe, connecting it to the connector 27 of the medication necessary for the patient.

In addition, the Hermasian return line has at one end a connector 29 with an internal Luer cone, closed by a cap 30, for connection to a plasma filter. A similar connector 31 with cap 32 is also provided at one end of the plasma collection line. Thus, all the lines of the device have “Luer” connectors for connecting to the plasma filter, which allows you to use this device with any plasma filter of domestic and foreign manufacturers.

The plasma collection line 9 has a plasma collecting vessel 10 made of film material and equipped with a tube 33 and a connector 34 with an internal Luer cone for connection to the line, and there is a device in the form of a sleeve 35 at the end of the line connected to the container having a cone "Luer", and permanently connected to it by a movable threaded union nut 36, providing a tight connection of the sleeve with the connector 34 of the highway. This design of the plasma collection line allows the replacement of the plasma collection vessel during the plasmapheresis procedure without loss of the contents of the vessel.

A device for conducting membrane plasmapheresis according to a single-needle scheme works as follows.

Pre-fill the device connected to the plasma filter, saline and displace the air in the device. In the storage tank 2 of the blood sampling line 1, draw 100 ml of saline and, using an additional tube 13, displace air from the tank. Place the prepared container at the top of the transfusion rack. Use the solution from the storage tank to fill and expel air from the plasma chambers of the plasma filter and the plasma collection line 9. Pipette 100 ml of anticoagulant into the storage tank.

Introduce an intravenous catheter into one of the patient's elbow veins and connect the injection unit of device 11 to it using the sleeve 12. Open the clamps 37 and 38 and proceed to draw blood into the storage tank 2. After filling the blood vessel (500 ml), close the clamps 37 and 38 Open clamp 7 and fill the blood sampling line with saline. Secure the storage tank 2 at the top of the transfusion rack. Open clamps 37 and 39 and fill the plasma filter with blood. Open clamp 40 on the plasma collection line and begin to separate the plasma and return the hermass to the patient. During the return of Hermas, an isotonic solution of sodium chloride is added to it at a rate corresponding to the rate of plasma separation. After complete emptying, the storage tank 2 is moved to the lower position, the next dose of the anticoagulant is recruited and the blood is taken again. Further, the cycles of blood sampling and return of Hermas are alternated until the completion of the plasmapheresis program. The resulting plasma is collected in a container for collecting plasma 10. After receiving the planned plasma volume, the emptied storage tank 2 is lowered to the lower position and filled with the remaining saline. Then it is transferred to the top position to return the blood remaining in the device to the patient and replace the removed plasma volume.

Depending on the patient’s condition, in the process of plasmapheresis, the medical staff can administer the necessary drugs by connecting with a syringe to the connector 27 of the drug delivery unit 23. If the blood level in the air traps 4, which is dangerous for the patient, changes significantly, the medical staff can adjust the blood level due to the possibility of air removal, opening the cap 28 of the connector 27. The implementation of such manipulations ensures the safety of the patient during plasmapheresis, creates the convenience of the medical staff.

Thus, the proposed device used for conducting membrane plasmapheresis according to a single-needle scheme will allow the treatment and donor plasmapheresis to be safe for the patient, creating a closed extracorporeal circuit, maintaining sterility and creating convenience in the work of medical personnel.

Literature

1. Japan, application No. 60-7852, A 61 M 1/04, 1985

2. Russia, RF patent No. 2113863, A 61 M 1/36, 1998

Claims (2)

1. A device for conducting membrane-free plasma plasmapheresis according to a one-needle scheme, including a plasma filter, a blood sampling line with an accumulative capacity, an erythromass return line, a blood supply line for hemodilute and anticoagulant, a plasma collection line with a capacity, characterized in that the blood sampling line has an injection unit for the introduction of drugs and is permanently hermetically connected to a storage tank made of film material and having an additional tube with a clip, one end of which it is inseparably and tightly connected to the storage tank, in addition, the blood sampling line has a branch in the form of a tube, one end of which is equipped with a connector for connection to the plasma filter, and its second end is connected via a tee to the blood sampling line and storage tank, the erythromass return line is equipped an air trap, on the cover of which a unit for supplying drugs and air is mounted, made in the form of a tube with a clamp, one end of which is connected to the cover of the air trap, and the other is equipped with a connector Hur for connection with the plasma filter; droppers with polymer needles are installed on the highways for the delivery of hemodilute and anticoagulant, which are part of the blood sampling line; and the plasma collection line has a plasma collection tank made of film material and equipped with a tube and a connector with an internal cone for connection to the line, while at the connecting end of the line there is a device in the form of a sleeve with a protruding cone located inside it and movably connected to it a threaded union nut, which provides a tight connection between the sleeve and the connector, in addition, the second end of the plasma collection line is equipped with a connector for connection to the plasma filter. 2. The device according to claim 1, characterized in that the polymer needles on the lines for supplying hemodilute and anticoagulant are made of two channels.