KR20010112727A - Mixing device of concentrates and water for hemodialysis - Google Patents

Abstract

The hemodialysis concentrate and water mixing device is a dialysis solution A on a hemodialysis machine and a first plastic tube connected to a medicine bag with a granular concentrate in it and a medicine bag with a RO water discharge socket of the hemodialysis machine. Or a second plastic conduit connected to a medicine bag with a suction tube of B.

Medicine bags are made of soft plastic.

One input conduit and one discharge conduit are arranged on one side of the medicine bag. The input conduit is used to supply RO water to the medicine bag, while the discharge conduit is used to flow the solution into the suction tube for dialysis solution A or B of the hemodialysis machine. When in use, the medicine bag can be placed directly on the drug delivery line, thus reducing both the risk of bacterial contamination and the drug packaging volume. In any case, the used medicine bags can be compressed into small volumes to reduce the amount of waste and the cost of waste disposal.

Description

MIXING DEVICE OF CONCENTRATES AND WATER FOR HEMODIALYSIS

The present invention relates to a mixing device of concentrate and water for hemodialysis. In particular, it relates to a device used directly to mix hemodialysis solution A or solution B and send it to the hemodialysis machine.

In the conventional hemodialysis process, the dialysis solution containing nutrients and minerals is required not only to pass through the dialysis filter to generate the dissolved concentration but also to achieve the basic balance of acidity. Dialysis solutions generally include solution A or solution B for preservation convenience. In use, each solution exits the dialysis machine and is mixed in a proportion. The duration of hemodialysis is about 4-5 hours.

Solution A is a kind of strong acidification concentrate containing minerals such as NaCl, KCl, CaCl ₂ 2H20, MgCl ₃ 6H ₂ O, CH ₃ COONa ₃ H ₂ O, nitric acetate, and the like. It is not easy to get pathogens because of acidity. Dialysis solution B is a nutrient supply solution containing sodium chloride and sodium bicarbonate. Therefore, it is easily contaminated with bacteria.

In hemodialysis, a semipermeable filter (or dialysis machine) is often used to separate the contents of a material by the effects of different permeation rates through the membrane of the filter. Blood passes through one side of the filter and the mixed dialysis solution from the dialysis machine passes through the other side of the filter. The dialysis solution carries waste materials such as uric acid and excess water from the patient's blood. And clean blood returns to the patient.

Due to the complexity of the dialysis solution A and the different components, it is very difficult to control the composition ratio of the dialysis solution A well. If the components are made of powdered powder, the dissolution time of each substance will be different. Therefore, most of the dialysis solution A is currently packed in a drum (container) together with the concentrated solution. The dialysis solution B is packaged in the same way. So far, solution B is a kind of weakly alkaline nutrient solution that easily generates pathogens. In conventional solution B, there are more than 10,000 pathogens in 1 cc of liquid. When used openly, the solution will be in contact with air for a long time. Even then, the solution is easily contaminated with or contaminated with bacteria.

However, about 4-7.5 liters of solution A and solution B are required for dialysis per patient. All treatments for the solution are usually packaged in 1 gallon containers. The volume of the waste container is therefore very large. Besides the large space for storage, the cost of large transportation and waste disposal is also very large.

The primary object of the present invention is to provide a hemodialysis concentrate and water mixing device including a sterilized medicine bag containing a granular concentrate, which is a dialysis solution, which is used to transport the dialysis solution to the hemodialysis machine. It is directly connected to the plastic pipe. The dialysis solution therefore reduces the risk of contaminating or becoming contaminated with bacteria.

It is a further object of the present invention to reduce the cost of the apparatus and to provide a device capable of directly using the hemodialysis machine without special instruments and capable of mixing concentrate and water for hemodialysis.

It is another object of the present invention to provide a device capable of mixing concentrate and water for hemodialysis, which facilitates distribution, storage capacity, waste disposal and can be saved.

In order to achieve the above object, the present invention relates to a RO water discharge socket attached to a hemodialysis machine for supplying RO water for dissolving the granular concentrate of the medicine bag containing the granular concentrate therein. One plastic tube, a second plastic tube connecting the medicine bag to the suction tube of dialysis solution A or B in the hemodialysis machine for better dilution of the dialysis solution.

The above-mentioned granular concentrate is made by mixing powdered powder of the dialysis solution component containing RO water, wherein the homogeneous concentrate is dehydrated by lyophilization or degassing by vaporization dehydration to make a supersaturated crystal concentrate. .

The medicine bag is made of a flexible plastic material. The input conduit and the discharge conduit are arranged at one end of the medicine bag. At least one connector is installed in the input conduit to connect with the RO water discharge socket. One filter is installed in the input conduit and one connector is installed at the lower end of the filter for connection with the suction tube of dialysis solution A or B attached to the hemodialysis machine.

Various objects and advantages of the present invention will be more readily understood from the following detailed description in conjunction with the accompanying drawings.

1 is a simplified schematic diagram showing an embodiment of the present invention.

2 is a schematic representation of the process of the present invention.

Figure 3 shows a first example of the medicine bag of the present invention

4 shows a second example of the medicine bag of the present invention.

5 shows an example of another process of the present invention.

As shown in Figures 1 and 2, the present invention comprises at least a purse (1) of purified supersaturated concentrate (2) or granular supersaturated concentrate. The first plastic tube 3 connects the RO water to the medicine bag 1 to dissolve the concentrate. The second plastic tube 4 is connected to the medicine bag 1 by the suction tube 52 or 53 and through the pumps 54, 55 or the suction tube 52, 53 in the hemodialysis machine 5. A constant amount of dialysate mixed with RO water is drawn off to further dilute.

The concentrate (2) described above is made by mixing RO material in a sufficient and appropriate proportion with the powdered powder of the dialysis solution component, wherein the homogeneous concentrate is dehydrated by lyophilization to make the supersaturated crystalline concentrate (2). It is homogenized by vaporization dehydration. Concentrate 2 is made granular or purified. The concentrate 2 is first mixed and condensed so that each granule in it has the same chemical composition. Therefore, it can be added to RO water to dissolve as a saturated dialysis solution to be put into the hemodialysis machine 5 for immediate use. Since the medicine bag 1 is sterilized and sealed, the chance of contamination of the bacteria in the dialysis solution is reduced.

3 and 4, the medicine bag 1 is made of a flexible plastic material. The input conduit 11 and the discharge conduit 12 are arranged at one end of the medicine bag. One connector 13 is arranged in the input conduit 11 to connect with the RO water discharge socket 51. At least one filter 14 is installed in the discharge conduit 12 and at least one connector 15 is installed at the bottom of the filter 14, which is one of the dialysis solutions A 52 or B 53 of the hemodialysis machine. It is connected to the absorption tube. In the example of FIG. 3, two connectors 13, 13 ′ (one male end and one female receiver) are arranged at one end of the input conduit 11, and the discharge conduit 12 has two It is installed at its end with the connector (15) (15 '). The connectors 13 and 15 are generally used for intravenous injection as inclined tightening connectors.

The connectors 13 'and 15' are sockets corresponding to the RO water discharge socket 51 and the suction pipes 52 and 53 which are connected to the hemodialysis machine 5 to increase the value of the present invention. In the example of FIG. 5, the base material of the dialysis solution A includes at least two medicine bags 1 having different components of the dialysis solution A. The throttle pump 56 or valve (not shown) is arranged connected to the lower end of the conduit 12 of the medicine bag 1 to regulate the amount of drug flow so that the exact amount of the mixture is pumped by the hemodialysis machine. (5) can be sent and obtained.

By the above structure, the concentrate 2 in the medicine bag 1 in the example of FIG. 3 is granular or tablet supersaturated crystal. Compared to conventional dialysis solution packaged in a barrel, the volume of the drug is only 30% of the prior art compared to the hemodialysis cycle per patient. Thus, the present invention is easy to store and supply. In addition, since the medicine bag 1 has a tube connector 13 and 15, the present hemodialysis machine 5 can be used without adding any device. The supersaturated concentrate 2 can be dissolved in a saturated solution because RO is added. After dissolution, RO water can be drawn into the hemodialysis machine (5) through the suction tube (RO ratio vs. dialysis solution A, B is 34: 1: 1.5).

The inlet conduit 11 in the medicine bag 1 is directly connected to the RO water discharge socket 51, so that the concentrate 2 is dissolved (FIGS. 3 and 4). On the contrary, the discharge conduit 12 is connected to the suction pipes 52 and 53 of the hemodialysis machine 5, so that the dissolved saturated dialysis solution is filtered to remove the uncrystallized concentrate 2 and bacteria. 14) and flows into suction tubes 52 and 53 attached to the hemodialysis machine 5 for use.

In view of the foregoing, it is apparent that the present invention is easy to assemble and convenient to use. The medicine bag 1 is connected in parallel with the hemodialysis machine 5. In that sense, the delivery process of the dialysis solution is a closed system, and the solution is immediately taken up by the hemodialysis machine (5). Thus, the time for which the concentrate 2 is in water is very short and the opportunity for the solution to come in contact with water is also reduced. Therefore, the risk of bacterial contamination is eliminated and the quality and hygiene of hemodialysis can be maintained. For example, in the present invention only 60 pathogens were found per 100 g dialysis solution (B) in the test. There are still more than 10,000 bacteria per B cc dialysis solution in conventional packaging. Furthermore, the volume of the medicine bag (1) is packaged in conventional drums because the medicine bag (1) is made of flexible plastic or rubber and the concentrate (2) in it is dried and packed in a diaperate per patient. Much smaller than the prepared solution. The present invention thus saves on transportation costs and the size of storage. Moreover, the volume of the waste medicine bag 1 can be compressed to a minimum, and the amount of waste and disposal cost are reduced.

Although the invention has been described in selected embodiments, it should be understood that the invention is not limited to the details set forth herein. Many alternatives and modifications have been presented in the foregoing description, and others will occur to those skilled in the art. All such substitutions and changes are included within the scope of the invention as defined in the appended claims.

The present invention relates to a mixing device of concentrate and water for hemodialysis. In particular, the present invention relates to a device directly used for mixing hemodialysis solution A or solution B to be sent to a hemodialysis machine, which is not only convenient to use, but also reduces the packing volume and weight of a drug bag, Reduces the risk of bacterial contamination and compresses medicine bags, which significantly reduces waste storage space and waste disposal costs.

Claims (3)

At least one medicine bag with a supersaturated crystal concentrate; A plastic tube installed between the RO water discharge socket of the hemodialysis machine and the medicine bag to dissolve the concentrate and supply RO water to the medicine bag to produce saturated dialysis solution A or B; Wherein the pumps in the hemodialysis machine are made of a plastic conduit which connects the medicine bag to the suction tube of the dialysis solution A or B which sucks a certain amount of the dialysis solution into the hemodialysis machine and mixes it with RO water so as to be further diluted. Mixture of concentrate and water for hemodialysis. The method of claim 1, The concentrate is made by mixing a powder of each component of the dialysis solution with RO water so as to form a homogeneous concentrate and then dried to become supersaturated crystals of the concentrate. Mixing device. The method of claim 1, The medicine bag is made of soft plastic material; An input conduit having at least one connector for connecting to the RO water discharge socket is disposed on the medicine bag; A device for concentrating concentrate and water for hemodialysis, characterized in that the dialysis machine has at least one connector at a lower end for connecting to a discharge conduit having at least one filter and the suction tube of dialysis solution A or B.