SU1026809A1 - Device for plasmophoresis - Google Patents

Abstract

DEVICE FOR - PLASMAFERESA, including a rotor, a device for taking blood, connected via pipelines through a tee to a device for supplying anticoagulant and a device for supplying blood with anticoagulant to the rotor, each of which has pumps; moreover, the device for supplying blood contains a sensor pressure, and a device for taking plasma from the rotor, characterized in that, in order to intensify plasma exchange, to improve the quality of the plasma and the formed elements, it is equipped with a device for taking elements, including a container, a device for feeding saline solution, each of which has a pump, a device for reinfusing the donor elements, secured on the casing with an L-shaped stand, adjustable in height and a removable horizontal panel that has grooves and holders for fixing pipelines, the rotor is provided with an additional drain channel, and the pressure sensor has a blocking element associated with the blood supply device, with the pump of a device for selecting shaped elements They are connected via a pipeline to an additional rotor channel, and the container of the device for selecting shaped elements is connected to the pump by means of a pump for feeding saline and with a device for reinfusion.

Description

The invention relates to medicine, in particular, to devices for plasma Ferezas, which provide for automatic selection of plasma from the blood of donors. A device for a plasma is known. containing a device for taking blood from a donor, a device for delivering anti-coagulant to whole blood, a device for feeding blood with anticoagulant to an apparatus for separating blood into plasma and shaped elements, a device for collecting plasma, a device for selecting shaped elements from the rotor AND a device for returning them to the RU 1. The disadvantage of the device is a violation of the sterility of the closed system due to the need to detach the containers used in the device at the end of each cycle, since Since plasma cutting with the use of this device consists of a series of successive cycles of collecting and separating blood, this requires a long time and careful observance of aseptics measures for the safety of the donor and the preservation of the sterility of the isolated plasma and formed elements. A device for plasmapheresis is known, comprising a rotor, a device for taking blood connected via pipelines through a screw pipe to an anticoagulant supply device and an anticoagulant blood supply device in the ipoTop, each of which has an abundance, the blood supply device containing a pressure sensor and a device for taking plasma from the rotor. The device for supplying an anticoagulant includes an anticoagulant solution container and a pipeline connecting it through the anticoagulant supply pump to the device for blood delivery. to supply blood to the rotor includes a filter chamber with a pipeline, one end of which is connected to a blood collection device, and the other through a weight control sensor, a pressure sensor, an air bubble control sensor, and a reversible peristaltic blood supply pump connected to the rotor 2 inlet . The blood supply unit performs two functions; at first it supplies blood mixed with anticoagulant to the rotor, and then after the rotor stops, it takes the shaped elements from the rotor after dividing the shaped elements, passes them back through the chamber with the control sensor and pressure and the chamber with the filter and ultrasonic sensor, directing them donor reinfusion elements A plasma extraction device consists of a conveyor for collecting plasma, connected by a pipeline with an outlet of the rotor and suspended on a weighing sensor. The rotor of the apparatus contains a dividing chamber having one input element connected to the pipeline of the blood supply device, and one output element connected to the pipeline of the plasma extraction device. A disadvantage of the known system is that the plasmapheresis process is carried out in a continuously periodic mode: first, blood is taken from the donor and supplied to the rotor, where it is divided into plasma and shaped elements. - Then, nocj: e, filling the rotor with shaped elements and shutting it down The latter are taken from the rotor by the return stroke of the blood supply pump and collected in a container for transferring them back to the donor. During one division cycle from one donor, only 200-300 ml of plasma can be obtained, depending on the rotor volume. If it is necessary to select a larger amount of plasma, the process is repeated. As a result, the time spent working with one donor increases, if we consider that the reinfusion of the donor shaped elements must be carried out very slowly, since the reinfusion process depends on the condition of the donor's IVI, and it is also possible to mix the voevra donated to the mass donor with air bubbles the rotor. Sensor control bubbles air 1 sends only a signal of the presence of bubbles, and remove them in the chamber with the filter, which is ineffective. In addition, despite the presence of a large number of sensors for monitoring the plasmapheresis process, operator labor is not excluded. So, for example, 3 selection modes from the rotor. Uniform elements need to disconnect the plasma collection container from the rotor in order not to suck the plasma back into the rotor with the selected flow. In this case, the sterility of the system is relied on and there is a risk of infiTation of the mass returned to the donor. In the well-known system, a camera-filter is used to filter microbloods of blood and other inclusions alternately with a laum of the opposite flow of blood: anticoagulated blood and formed elements, transfusion - to the donor. With this use of a filter chamber, its application is ineffective; what was filtered out of the blood gets back to the bark. A disadvantage of the known system is its complexity of P13 due to the presence of a large number of sensors and control devices that are complexly interconnected. This does not allow the operator to vary the process parameters depending on the state of the donor's veins. The purpose of the invention is to intensify plasmapheresis, improving the quality of plasma and formed elements. The goal is achieved by the fact that a device for plasmapheresis includes a rotor, a device for taking blood connected via pipelines through a tee to a device for supplying anticoagulants and a device for supplying blood with anticoagulant to the rotor, each of which has pumps, and for blood supply, it contains a pressure sensor and a device for taking plasma from; a rotor, additionally equipped with a device for the selection of shaped elements, including a container, a device for feeding and saline, each of which has a pump, a device for reinfusing the shaped elements to the donor, mounted on the housing with an L-shaped stand, adjustable in height, and a removable horizontal panel that has grooves and holders for fixing the pipelines, the rotor is provided with an additional drain channel, and the sensor The pressure has a blocking element associated with the blood supply device, wherein the pump of the device for selecting the shaped elements is connected via a pipeline to an additional rotor channel, and to nteyner means for collecting the formed elements pipes are connected to a pump for supplying prispo in autonomous saline and device for reinfusion. The drawing shows a device for plasmapheresis, a general view. A device for plasmapheresis contains an actuator (not shown), a rotor 1 having a working zone with a channel 2 for blood supply and two outlet channels 3 for taking shaped elements, and 4 for plasma removal, a pressure sensor 5, a weight sensor b, blood supply pumps 7, anticoagulant 8, saline 9 and removal of shaped elements 10, L-shaped stand 11, adjustable in height to accommodate containers 12-14, removable horizontal shelf 15 providing grooves and holders for fixing pipelines. (not shown) and piping system. The piping system, in turn, consists of several devices that connect the donor with all the functional parts of the apparatus: a device for drawing blood from the donor's vein, containing a standard injection needle 16 ,. connected to the tee 17, a device for supplying the anticoagulant, including a container 12 with an anticoagulant, a conduit 18, forming a loop 19 in the middle part, which is laid in the pump 8, and connecting it to the tee 17; for supplying blood to the rotor 1, containing the flow container 20, a flexible elastic tube 21, inserted into the pressure sensor 5 and a pipeline 22, forming a loop 23, inserted into the blood supply pump 7. At one end, the device is connected to the tee 17, the other end to a channel 2 for introducing blood into the rotor 1, a plasma sampling device containing a container 24 for collecting plasma, mounted on a weight sensor 6 fixing the collection time for a given amount of plasma, and connected by pipeline 25 to channel 4 for plasma extraction from the rotor 1. Adaptation for the removal of uniform elements from the rotor, containing a pipe 26 with a loop 27, laid in the pump of 10 collection of uniform elements and a container 14 for collecting uniform elements connected to the pump 10 by pipeline 28, a device for feeding saline into the container 14 for collecting uniform elements consisting of a container 13 with saline and a pipeline 29 forming a loop 30, which is laid. a saline supply pump 9 connected to a container 14 for collecting shaped elements, a device for reinfusing the formed elements to a donor, containing a dropper 31 and a venous needle 32 connected by a pipeline 33 to a container 14 for collecting formed elements. Containers 12 and 13 with solutions and a container 14 for collecting shaped elements are placed on an L-shaped rack 11, which is adjustable in height, and pipelines 18, 22, 26 and 29, pledged loop hly 19, 23 ,. 27 and 30 B pumps 7–10, placed in slots of the removable horizontal shelf 15, fixed by holders 34. In this case, pipelines 18, 22, 26 and 29, connecting pumps with containers 12–14 are fixed by linking 35 on the vertical part rack 11. All elements of the system are fixed on the housing of the apparatus 36. The device operates as follows. The blood from the donor's vein through the injection needle 16 enters the tee 17, where in the immediate vicinity of the injection needle 16 by pump 8 through the pipeline 18 from the container 12 is supplied an anticoagulant. Passing through the pipeline 22, the shelter enters the flow container 20, fills it and the flexible section of pipe 21 embedded in the pressure sensor 5. Then the pump 7 supplies blood to the rotating rotor 1 through the inlet channel 2. In the case of a decrease in the donor’s natural blood flow rate relative to the pump performance 7, the flexible section of the tube 21 is compressed by atmospheric pressure and the pressure sensor 5 signals an emergency condition by disconnecting the pumps supply of blood 7 and anticoagulum 8. Blood, falling into the rotor 1, under the detritus of centrifugal force, places into the heavy fraction (shaped elements) and light (plasma), which are the corresponding discharge channels 3 and 4 are withdrawn from the rotor 1. In this case, the shaped elements are piped through pipe 26, and then 28 are withdrawn from the rotor by pump 10 into container -14, and the plasma flows by gravity through conduit 25 into container 24 suspended on weight sensor 6. When assembled The container 24 of a given amount of plasma weighing sensor 6 delivers a signal to the operator about the end of the plasma exchange process. The shaped elements that are picked up by the pump 10, are conveyed through the pipeline 28 to the container 14 and are collected in its lower part, where air bubbles are emitted from them. In order to facilitate the reinfusion of the shaped elements to the donor, they can be diluted with a phyiological solution, piped by pump 10 from container 13 through line 29. When collecting enough elements in container 14, they can be returned to the hole through pipeline 33 through filter dropper 31 and injection needle 32. For reinfusion, there is no need to fill the container 14 completely. This process is slower and takes place simultaneously for reanfusion of the shaped elements to each specific patient, governed by the height of the rack 11 at which the container 14 is suspended. Using the device for plasmapheresis can significantly shorten the time of the process of plasmapheresis, because the individual devices of the system are connected in a manner that, in combination with the apparatus, provides for automated plasmapheresis in a continuous cycle, t, a. with continuous blood supply to the rotating rotor directly from the donor, admission, plasma in a special container with simultaneous return of the formed elements to the donor. The advantage of the device is greater preservation of blood cells by reducing their residence time in the zone of action of centrifugal forces, which can be simultaneously removed from the rotor of the plasma and blood cells, which ultimately significantly reduces the hemolysis of blood cells. At the same time, in a known device, shaped elements accumulate in the working area of the rotor until it is completely filled and only after that they are removed. At the same time, during the whole time of dividing they are in the zone of the greatest overloads. The presence in the blood supply device of a flexible part of the tube and the flow container in front of it provides visual and automatic monitoring of the patient's veins, signaling to the operator that it is necessary to introduce a correction into the blood separation mode or take emergency measures to the patient, and eliminate the causes of injection injection thrombosis .g Lll. The flexible tube section increases the sensitivity of the pressure sensor. Due to the presence in the device of a separate device for selecting the formed elements independent of blood supply to the rotor, the device allows to continuously assemble the formed elements in the separate container B, and not to - within the whole division cycle. ) The end of the process, which is :. to reinfuse the cells to the donor. At the same time, to accelerate reinfusion, as well as to replenish the donor of the liquid part of the blood, it is possible to dilute the transfused uniform elements with physiological pacTBOpo / f in a wide range of concentrations. In addition, a separate, independent of the device for the selection of formed elements, a device for re-diffusion, which includes a dropper-filter, which works all the time in only one direction — a donor providing filtration of the transfused mass to the donor and eliminating the possibility of the microparticle flow 3 donor . The independence of these devices ensures the safety of the donor’s life. The device is supplied with a removable horizon with a shelf of the holder and grooves and an L-shaped stand, adjustable-. height, provides a fixed placement of pipelines and containers, ease of monitoring the modes of operation of all components of the apparatus, as well as the speed of placement and my

Claims (1)

A device for -PLASMAFERESIS, comprising a rotor, a blood collection device, connected via pipelines through a tee to an anticoagulant supply device and a blood supply device with an anticoagulant to the rotor, each of which has pumps, the blood supply device containing a pressure sensor, and a device for plasma selection from the rotor, characterized in that, in order to intensify plasmapheresis, improve the quality of plasma and shaped elements, it is equipped with a device for the selection of uniform elements comprising a container, a device for supplying saline solution, each of which has a pump, a device for reinfusion of shaped elements to a donor, mounted on the body with a L-shaped rack, height-adjustable and a removable horizontal panel that has grooves and holders for fixing pipelines, the rotor is equipped with an additional outlet channel, and the pressure sensor has a blocking element associated with the device for supplying blood, while the pump device for the selection of shaped elements by means of the pipeline is connected to the additional channel of the rotor, and the container of the device for selecting shaped elements is connected by pipelines to the pump of the device for supplying saline solution and to the device for reinfusion. 5U „„ 1026809