DE19654746A1 - Dialysis solution - Google Patents

Abstract

A new Ca- and Mg-free dialysis solution contains citrate as anticoagulant and has a sodium hydrogen carbonate content which does not exceed 32 mmoles/l. During dialysis, part of the dialysis solution is added to the blood before it enters the dialysis cell. A device in which the tube coming from the patient and the tube for supplying dialysis solution to the dialysis cell are united enables implementing the process.

Description

The invention relates to a new dialysis solution for use in hemodia filtration treatment and relates in particular to a calcium-free citrate-containing Dialysis solution, which is also used as a substitute solution after sterile filtration, Concentrates for their preparation and a device for their use. The The invention further relates to a new method using the dialysis solution.

Hemodialysis treatment poses the need for anticoagulation remains a critical problem. The anticoagulants used so far Substances such as unfractionated heparin, low molecular weight heparin or also Recently synthetic hirudin basically shows in its application Influences on the coagulation situation of the human organism. The Despite numerous efforts, there is still a risk of bleeding from all of these procedures not yet solved satisfactorily.

For local anticoagulation in the extracorporeal circulation is according to a ver publication by Pinnick et al. (New England Journal of Medicine 308 (1983), 258-263) Trisodium citrate used. The use of this method is experimental, however the technical requirements for routine use have not yet been met are. The method has proven to be advantageous in that no influences on the patient's general coagulation situation, but could change due to the lack of appropriately prepared solutions as a routine procedure.

DE-OS 41 14 908.4 describes a dialysis solution, the main advantage of it is that the blood from a citrate-containing diffusion over the membrane of the filter Dialysis solution Citrations are supplied. However, a disadvantage of this method is that that the anticoagulation begins in the dialysis filter itself and the tube section between the blood sampling needle (so-called "arterial needle") and entry into the Filter has no anticoagulation. This approach also has the Disadvantage that partially for effective anticoagulation in the extracorporeal system undesirably high citrate concentrations are required.

The present invention is therefore based on the object, the above to resolve the disadvantages of the previous methods described.

This problem is solved with a dialysis solution that has a reduced content Has bicarbonate and the blood before entering the dialysis filter unit is added.  

According to one embodiment, the invention relates to a dialysis solution for use in dialysis treatment with artificial kidneys, which are essentially calcium and is magnesium-free and contains citrate and sodium ions, the amount of Hydrogen carbonate in the solution does not exceed 32 mmol / l.

According to a further embodiment, a method for extracorporeal Treatment of a blood sample delivered, in which the blood sample before reaching the Dialysis filter, the dialysis solution according to the invention in physiologically acceptable amounts is added.

According to yet another embodiment, the present invention relates to a pre direction for performing the method in which the supply lines for blood and dialysis solution are connected to the dialysis cell in such a way that the dialysis solution is in the blood is fed before reaching the dialysis cell.

The attached figure shows a schematic representation of the operation of the inventive method. Blood is fed to the dialysis filter ( 2 ) via line ( 1 ) and, after treatment in the filter ( 4 ), returns to the starting point via line ( 3 ). The current flow of the blood is regulated by a pump device ( 5 ). The dialysis solution ( 13 ) according to the invention reaches the dialysis filter ( 2 ) via the supply line ( 6 ) and out of the filter again via the outgoing line ( 7 ). Part of the dialysis solution is removed from the supply line ( 6 ) by means of line ( 8 ) and added to line ( 1 ) upstream of the filter unit ( 2 ). The amount of dialysis solution removed can be regulated by a pump device ( 9 ). Ca and Mg ions are added to the blood flowing back to the starting point via line ( 10 ), the flow rate of which can be regulated by a pump device ( 12 ).

The amount of citrate in the solution according to the invention is between about 1-15 mmol / l, preferably between about 5 to 13 mmol / l. Most preferred the amount of citrate ions is 6 mmol / l.

The amount of sodium ions is generally between 130 and 165 mmol / l, where an amount of 133-145 mmol / l is preferred. The amount of sodium ions that most suitable has been found to be 138 mmol / l.  

The amount of hydrogen carbonate contained in the dialysis solution according to the invention may according to the invention do not exceed 32 mmol, since otherwise with a metabolic Alkalosis is to be expected.

The pH of the solution to be used is usually in the physiological range, a weakly acidic range in the range of 4.8-7.5 has proven to be expedient Has. A range of 6.5-7.1 is preferred, and a pH of 6.8 is most preferred.

The pH of the solutions can be determined by the person skilled in the art on the basis of his general specialist knowledge and set accordingly, taking into account the respective patient data. To adjust the pH, it has proven useful trisodium tricitrate and Combine citric acid accordingly, so that for example at a concentration of 5 mmol / l trisodium citrate 1 mmol / l citric acid is added.

The osmolarity of the dilution used is not particularly limited with the measure gift that it is physiologically compatible. The osmolarity is preferably in the range of approx. 260 mOsm / l-330 mOsm / l, and can be checked by the attending doctor if necessary the needs of each patient are matched. The preferred osmolarity lies between 280-300 mOsm / l. The osmolarity is preferred by glucose set, but other means known in the art, such as wise amino acids can be used. Glucose is particularly suitable as it is good is metabolically degradable and is also inexpensive. It can also have an effect on the respective patient can be determined simply by measuring blood sugar.

The dialysis solution according to the invention can also be present as a concentrate in order to to facilitate transportation, for example, and can be used directly on the device if required appropriate solution can be diluted.

The dilution chosen in each case can be used for the one to be treated Patients desired concentration, the pH value, as well as the respective osmolarity of the Application solution can be set directly on the device.

It has now been shown that the tendency of the blood to clot due to hemoconcentration in the filter and due to the large surface of the filter, on the one hand, by floating of the blood before reaching the filter unit and at the same time by supplying increasing ones Citrate quantities in the filter can be successfully met. In addition, it shows that a increased convective mass transfer in the filter takes place, which surprisingly, in  Compared to conventional hemodialysis, an improved cleaning effect for results in larger molecules.

Smaller quantities of citrate can also be used. This is especially true in patients an advantage in which citrate metabolism is disturbed due to liver disease, so that their metabolic capacity of citrate by choosing extremely low citrate quantities in the dialysis solution must not be exceeded.

The small amounts of citrate also lead to that in a dialysis patient disturbed acid-base balance is not adversely affected. Through the station wagon nation of citrate with the specified small amounts of hydrogen carbonate rather an advantageous buffering of the disturbed acid-base balance of the Blood of a dialysis patient causes.

The solution according to the invention has also made it possible, in Dialysis solution to completely refrain from using acetate, which is used in the Hydrogen carbonate dialysis had to be used in a concentration of 3 mmol / l. In the process according to the invention, acetic acid can be replaced by citric acid be in the patient's circulation without the problems associated with acetate the adverse effect on the patient's circulatory stability.

All filters known in the prior art can be used as filters for dialysis and the most appropriate filter for the respective application can be taken into account patient data can be selected.

The invention will now be explained in more detail below.

Part of the citrate, calcium and magnesium free solution with reduced Sodium bicarbonate content is extracted from the dialysis circuit by a pump and, if necessary after sterile filtration, supplied to the blood before reaching the filter. A preferred mixing ratio is achieved in that the blood flow is approximately five times is higher than the flow of the citrate-containing solution supplied (with a blood flow of 250 ml / min, 50 ml / min solution containing citrate is therefore pumped into the blood). For A commercially available Fresenius device can be used to carry out the process Medical Care (MTS 4008 Mono) can be used with some modifications. In the Pumps existing in the device are changed by changing the control software used that the solutions according to the invention are supplied by means of pumps can.  

According to the current state of dialysis technology, it is by definition one Hemodiafiltration with on-line production of a sterile, calcium and magnesium free, citrate-containing dialysis solution used as a substitution solution in predilution technology becomes. Because of the calcium and magnesium-free dialysis solution to achieve a balanced salt balance via a pump a calcium and magnesium chloride mixture be given directly over the connecting needle leading back to the patient. A basic description of the method can be found in DE-OS 41 14 908, the is hereby incorporated by reference.

The ratio of the citrate ion concentration lies in the dialysis solution according to the invention and the sodium ion concentration preferably between 1: 160 and 1: 9 (= 15: 130).

Usually the dialysis centers are not supplied with the dialysis solution, but Kon concentrates for use on patients in the dialysis machine with reverse osmosis be diluted with water. According to a preferred embodiment of the invention 2 concentrates are used, one as the so-called basic concentrate Cation sodium and the two anions bicarbonate and trivalent citrate as contain soluble salts. The ion concentration ratio between citrate and sodium lies as listed above. The second concentrate (individual concentrate) in addition to sodium chloride optionally contains potassium chloride in a variable amount, as well as 1 mmol / l citric acid and optionally 2 g / l glucose monohydrate to make up the Raise osmolarity.

The basic concentrate contains the essential components of the Lö according to the invention solution and the individual concentrate enables adaptation to different intakes conditions with increased / decreased potassium values of the respective patient.

An exemplary basic concentrate or individual concentrate contains the following components:

Basic concentrate:
Sodium hydrogen carbonate: 28.04 g,
Tri-sodium citrate × 2 H ₂ O: 23.16 g
Sodium chloride: 74.51 g
Water: 956 ml.

Individual concentrate:
Sodium chloride: 131.49 g
Potassium chloride: 22.37 g
Citric acid monohydrate: 23.64 g
Glucose monohydrate: 330.0 g
Aqua ad inj .: 708 ml

Dilution pH (1 + 149): 3.35
Dilution osmolarity (1 + 149): 45.85 mOsmol / l.

When using a calcium- and magnesium-free dialysis solution, a concentration of 4 mmol / l citrate in the blood is generally sufficient for effective clotting to achieve inhibition. For this reason, the final dialysis bath, 6 mmol of the anion citrate added, 5 mmol / l originating from trisodium citrate (basic con concentrate) and 1 mmol / l from citric acid (individual concentrate). The citric acid replaced the acetic acid typically added in bicarbonate dialysis.

The basic concentrate for citrate dialysis, sodium hydrogen carbonate and trina trium citrate contains, is diluted for use in the machine, preferably in Ver Ratio 1:15. The second individual cone described containing glucose and citric acid concentrate is diluted 1: 150 for use. This dilution ge shoots in the machine, then the diluted concentrates are put together performed and represent the dialysis solution shown in claim 1.

The mode of operation of the method according to the invention will now be described with reference to the drawing explains in more detail.

The dialysis solution ( 13 ) prepared from basic and individual concentrate is pumped into the dialysis filter at a flow rate of 500 ml / min in counterflow to the blood. Before reaching the dialysis filter, typically 40 to 50 ml / min are branched off from the dialysis solution ( 13 ) by means of a further pump ( 9 ), which are fed to the so-called arterial blood tube after sterile filtration via a further filter (not shown). The blood flow is typically 200 to 250 ml / min, so that a citrate concentration of 1.2 mmol / l in the blood flowing into the filter unit is achieved at the given setting in a ratio of about 5: 1. In the further course, the citrate content of the blood increases by diffusion from the citrate-containing dialysis solution to approximately 4 mmol / l, with which the blood ultimately leaves the filter. This concentration and the lack of calcium and magnesium in the dialysis bath completely prevent blood clotting in the filter and the tube sections behind it. To compensate for the loss of calcium and magnesium in the dialysis filter, a calcium / magnesium solution in the bypass is added via the lying venous needle. The flow rate for this solution is about 100 ml / hour and is caused by the pump ( 12 ). By adding calcium to the venous blood, coagulation is immediately normalized again.

By means of a program control, it can be achieved that only all pumps can work simultaneously, d. H. with the blood pump running, both ready-mixed Dialysate provided as well as substitution solution can be pumped into the blood tube. It is also possible that calcium / magnesium chloride solution is simultaneously in the venous Needle is promoted. If one pump stops, the other pumps must also be deactivated. The ratio of blood flow to substitute solution flow is more typical point to a predetermined value, preferably 5: 1, fixed, and the liquid The current balancing chamber system of the machine automa table reached. With a typical treatment duration of 4 to 5 hours you still need to additional 400 to 500 ml ultrafiltration due to the calcium and magnesium chloride supply be taken into account.

Claims (12)

1. Dialysis solution for dialysis treatment with artificial kidneys, which is essentially free of calcium and magnesium and contains between about 1-15 mmol / l citrate and 130-165 mmol / l sodium ions, characterized in that the amount of hydrogen carbonate is 0-32 mmol / l is. 2. Dialysis solution according to claim 1, characterized in that the dialysis solution contains a maximum of about 0.2 mmol / l calcium. 3. Dialysis solution according to claim 1 or 2, characterized in that the Dialysis solution contains about 6 mmol / l citrate. 4. Dialysis solution according to one of the preceding claims, characterized characterized in that the amount of hydrogen carbonate ions is 20 mmol / l. 5. Concentrate for the preparation of a dialysis solution according to one of the preceding Claims, characterized in that the ratio of the citrate content to sodium proportion between about 1: 160 and 1: 9. 6. Process for the extracorporeal purification of blood, characterized in that a dialysis solution according to one of the preceding claims before the blood Reaching the dialysis membrane is added. 7. The method according to claim 7, characterized in that the amount of the blood fed dialysis solution is 20-100 ml dialysis solution / 200 ml blood / min. 8. The method according to claim 8, characterized in that the amount of the blood supplied dialysis solution is 40 ml dialysis solution / 200 ml blood / min. 9. Device for dialysis treatment with artificial kidneys with a dialysis cell, a delivery pump for patient blood and a delivery pump for dialysis solution, supply lines for blood and dialysis solution to the dialysis cell and discharge the lines for blood and dialysis solution, characterized by the dialysis solution, that the supply lines for blood and dialysis solution to the dialysis cell so are connected that the dialysis solution the blood before reaching the dialysis cell is fed.   10. The device according to claim 8, characterized in that on the line for Blood return after the dialysis cell, a metering pump is arranged, the Feeds the patient's blood with Ca and Mg ions from a reservoir. 11. The device according to one of claims 9 and 10, characterized in that the supply or discharge lines of the dialysis cell feed or dosing pumps have that are connected so that they can only work at the same time. 12. Device according to one of claims 9 to 11, which additionally a standstill contains alarm.