RU2252788C1 - Device for carrying out membrane-type plasmapheresis in single-needle mode - Google Patents

Abstract

FIELD: medical engineering.

SUBSTANCE: device has line for taking blood and returning erythrocytic mass with air trap, line for supplying anticoagulant and hemodilution agent and forceps. Dosing member is mounted on anticoagulant line being chamber manufactured from plastic film-like material having an opening on one side for anticoagulant to be supplied and another opening for discharging it. Pump segment is set on line collecting blood as a flexible tube having an opening for supplying blood and another opening for delivering the blood to plasma filter connected to pressure control line having valve filter mounted thereon. Unit for supplying drug and discharging air is mounted on the air trap. It is manufactured as a tube with clamp.

EFFECT: enhanced effectiveness in applying continuous and safe plasmapheresis.

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. 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 means for blood sampling, a membrane plasma filter, a storage tank in the form of a syringe, a container for hemodiluting and plasma collection, a line with clamps and droppers, an anticoagulant input means and a pressure control means.

The disadvantage of this device design is the lack of the possibility of a continuous dosed supply of anticoagulant simultaneously with blood sampling during donor and therapeutic plasmapheresis, the lack of protection of the pressure control device from the possibility of refluxing blood with an increase in pressure in the blood sampling line. In addition, the design of the device does not allow the medical staff during the plasmapheresis process to adjust the height of the air trap filling with blood and introduce additional medications necessary for the patient when returning the airspace, which creates inconvenience to the medical staff and does not ensure patient safety during plasmapheresis.

The purpose of the invention is the provision of a continuous dosed supply of anticoagulant simultaneously with blood sampling during donor and therapeutic plasmapheresis, as well as ensuring patient safety, device reliability and ease of use during plasmapheresis.

To achieve this goal, a device is proposed for conducting membrane plasmapheresis according to a single-needle scheme, including a blood sampling and return line of Hermasses with an air trap, a route for supplying hemodilute and anticoagulant and clamps.

A metering element in the form of a chamber made of elastic film material and having an opening for entering the anticoagulant on one side and an opening for its exit is installed on the highway for feeding the anticoagulant.

On the blood sampling line, a pump segment is installed in the form of a tube made of elastic material and having a hole for blood inlet and a hole for supplying blood to the plasma filter, connected to the pressure control line with a filter valve located on it.

On the air trap there is a unit for supplying medicine and air venting, 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 with a connector of the “Luer” type.

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 a General view of the device, is given below.

The device comprises a blood sampling line 1, a return line of Hermasia 2 with an air trap 3, a supply line for hemodiluting 4, an supply line for anticoagulant 5 and clamps 6 and 7.

On the supply line of the anticoagulant, a metering element 8 is installed, made in the form of a chamber of film elastic material and having an opening 9 on the one hand for the entrance of the anticoagulant, and on the other hand, an opening 10 for its exit. The capacity of the chamber is 2 ml of anticoagulant and is calculated on the basis of the maximum possible dose of anticoagulant administered during one cycle of blood sampling.

On the blood sampling line 1, a pump segment 11 is installed in the form of a tube of elastic material with special elastic properties and having a hole 12 for blood inlet and a hole 13 for supplying blood to the plasma filter, connected to a pressure control line 14 having a filter valve 15. The introduction of the pump segment into the blood sampling line allows for continuous synchronous blood sampling from the patient's vein and its mixing with a certain dose of anticoagulant in front of the pump segment, which avoids complicated second, caused by lack of or excess anticoagulant, especially when conducting donor plasmapheresis. In addition, a continuous dosed supply of anticoagulant to the exfusate accelerates the selection of plasma from the plasma filter. The introduction of the pump segment allows a continuous return of the ermass after the plasma filter with the simultaneous administration of the hemodiluteant to the patient. The pressure monitoring line 14 is connected using a “Luer” 16 type connector to a device for measuring blood pressure at the inlet of the plasma filter. To prevent blood from entering the pressure measuring device, a filter valve 15 is installed on the mains, which is a hermetically connected cover, a housing and a membrane located inside them, the physical indicators of which allow air to pass freely without creating additional resistance and at the same time hold a liquid column without letting her get into the pressure control device, which ensures the reliability of the device and the safety of the plasmapheresis procedure.

To create the convenience of using the device and ensuring patient safety during plasmapheresis, an air supply and air removal unit 17 is installed on the air trap 3, made in the form of a tube 18 with a clamp 19, one end of which is connected to the cover of the air trap 20, and the other to a connector of type “ Luer ”16 closed with a cap 21.

This design of the device allows the medical staff in the process of plasmapheresis, slightly opening the cap 21, to regulate the height of filling the air trap with blood by discharging or supplying air to it and injecting additionally with a syringe, connecting it to the connector 16 of the medication necessary for the patient.

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

First, it is necessary to fill the device connected to the plasma filter and the pressure control device with saline solution and to expel the existing air from the device. Then the supply line of the anticoagulant 5 is connected using a dropper 22 to the container with the anticoagulant, and the supply line of the plasma-substituting solution 4 to the container with the solution. The blood sampling line 1 is connected to an intravenous catheter, which is inserted into the vein of the patient. Using the pumping segment 11, a dose of blood is collected from the patient in one cycle, while the dose of the anticoagulant (e.g., glucicir) is taken from the metering element 8 and the dose of the anticoagulant is delivered to the blood sampling line 1 in front of the pump segment. Blood mixed with an anticoagulant is supplied by the pump segment to the plasma filter. The blood pressure in the blood sampling line at the outlet of the pump segment is determined by a pressure control device, to which a pressure control line is connected using a connector 16, with a filter valve 15 located on it, to prevent blood from entering the pressure measuring device with a sharp increase in pressure, which ensures the reliability of the device. Ermass after the plasma filter using the pump segment 11 is returned to the patient via the return flow line 2. Depending on the patient’s condition, the plasmapheresis medical staff can administer the necessary medications by connecting a syringe to the connector 16 of the drug supply node 17. If the blood level in the air trap changes significantly, dangerous for the patient, the medical staff can adjust the blood level due to the possibility of air bleeding by opening the cap 21 of the connector 16. Such manipulations provide It provides patient safety during plasmapheresis, creates convenience in the work of medical staff.

Thus, the proposed device used for conducting membrane plasmapheresis according to a single-needle scheme will allow donor and treatment plasmapheresis safe for the patient with the possibility of accurate dosing and supply of anticoagulant with simultaneous blood sampling using the pump segment, will provide convenience in the work of medical staff.

References

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 (1)

A device for conducting membrane plasmapheresis according to a single-needle scheme, including a blood sampling and erythromass return line with an air trap, a hemodiluant supply line and an anticoagulant supply line, characterized in that a metering element is installed on the anticoagulant delivery line in the form of a container made of an elastic film material and having an opening for anticoagulant entry on one side, an opening for its exit on the other, a pump segment is installed on the blood sampling line a tube of flexible material having an opening for the blood inlet and an opening for blood flow to the plasma filter coupled to the manifold pressure control having a filter-valve, the air trap installed drug delivery unit and the air outlet formed as a tube clamp.