Drug – bio-affecting and body treating compositions – Designated organic active ingredient containing – Peptide containing doai
Reexamination Certificate
1998-10-30
2001-08-21
Gitomer, Ralph (Department: 1623)
Drug, bio-affecting and body treating compositions
Designated organic active ingredient containing
Peptide containing doai
C514S023000, C514S053000, C514S054000, C424S676000
Reexamination Certificate
active
06277815
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates to a solution for peritoneal dialysis or for infusion.
BACKGROUND INFORMATION
A peritoneal dialysis solution generally contains three functional constituents. First, it contains electrolytes, which in this case are calcium. sodium and magnesium salts which, as a rule, are used in chloride form. A buffer is provided as the second functional constituent. The best tolerated buffer system consists of bicarbonate that is at equilibrium with carbonate in the alkaline region and with CO
2
, in the acid region. Substances that buffer at a pH of approximately 7, that is, at a physiological pH, could also be used as buffers. Substances which can easily be metabolized to bicarbonate inside the body. such as lactates, pyrovates or similar substances, are preferred. The third functional constituent consists of an osmotic substance. Here, glucose is frequently used, which at a relatively low concentration has a high osmolarity and is well tolerated. One reason for the frequent use of glucose is its favorable price compared to other substances that might be used as the osmotic substance.
WO 96/01118 discloses, for example, a solution for peritoneal dialysis or infusion, bicarbonate is used in physiological quantities of 20-30 mEq/l together with a weak acid in a quantity of 10-20 mEq/l. When such a peritoneal dialysis solution is used. it is necessary that the bicarbonate contained and the calcium contained be stored separately, as storing them together very easily leads to an insoluble calcium carbonate precipitation. In the acid region, this, precipitation can be avoided, as the bicarbonate continues to be at equilibrium with the carbon acid, and so with CO
2
, so that less carbonate is present. However, this has the disadvantage that a relatively high CO
2
partial pressure is created. This high CO
2
partial pressure in turn requires a bag film with an effective CO
2
banier so that especially adapted bags with a relevant CO
2
barrier layer can be used.
In EP 0 076 355 A the bicarbonate has, for example, been replaced by lactate as the buffer to avoid problems in the handling of a solution containing bicarbonate. However, the use of lactate causes another problem during heat sterilization, as lactate and the glucose that is also present in the solution react to form acetaldehyde. Acetaldehyde, however, damages the peritoneal walls.
Furthermore, heat sterilization also causes glucose to be caramelized, isomerized or broken down into products which can continue to react irreversibly with proteins inside the body. This and other problems led in EP 0 076 355 A to the replacement of glucose, for example, by glucose polymers (such as icodextrine), peptides or proteins such as albumin. This glucose replacement, however. leads to a considerable price increase of the product. In addition, physiological reactions, such as immune reactions, were observed with the use of these substitutes. Finally, similar problems to those of glucose could also be observed with glucose polymers during heat sterilization so that different ways had to be found to avoid the glucose breakdown.
In this respect WO 93/09820 teaches on the one hand separate storage for a corresponding system and, on the other hand, short but high-temperature heating for the purpose of sterilization. In the case of separate storage. glucose is largely stored in a separate container to avoid reactions with other constituents such as lactate. According to this teaching, the glucose solution can be heated briefly and at very high temperature while the solution together with the other constituents can be subjected to the usual sterilization conditions without problems.
Another way of solving the problems described with regard to EP 0 076 355 A is described in WO 91/08008 where sterilization can be performed at very low pH values of below 3. This again leads to the problem that at these low pl I values a weak acid, such as lactic acid or its salt. the lactate, is not sufficient as a weak base for buffering to achieve a physiological pH of around 7.2 to 7.4 in a final solution.
SUMMARY OF THE INVENTION
An object of the present invention is to provide a solution for peritoneal dialysis or infusion which, on the one hand, ensures good storability and easy and safe handling and, on the other hand, good biocompatibility.
The present invention provides a solution for peritoneal dialysis or infusion comprising two single solutions which, after heat sterilization, can be brought together and dispensed. The first single solution contains calcium ions, additional electrolytic salts and glucose in an osmotically effective concentration and the second single solution contains bicarbonate and the salt of a weak acid with pKa<5. The present invention is characterized in that the first single solution is acidified with a physiologically compatible acid to a pH of below 3.2 and the second single solution has a bicarbonate content which does not exceed 10 mmol/l.
Here, a buffer from lactate and bicarbonate is provided in accordance with the present invention. Due to the bicarbonate proportion, a physiological pH of around 7.2 to 7.4 can be achieved in the final solution. It is essential that the bicarbonate content is below 10 mmol/l, since, surprisingly, as a result the CO
2
pressure inside the storage bag is so low that the barrier of a normal polyolefin film or of a normal PVC film is sufficient to keep the bicarbonate concentration constant. The difficult handling problems of the solution. which usually contains bicarbonate, and/or the requirements of a CO
2
barrier film can thus be avoided. To keep the bicarbonate content that low the main buffer comprises a salt of a physiologically weak acid, preferably lactate, whose buffer capacity is merely supported by the bicarbonate in this combined buffer. While lactate and bicarbonate can be stored in a bag chamber, glucose and the electrolytes—and together with the electrolytes the calcium ion—can be acidified and sterilized in a second chamber to a pH of below 3.2. After sterilization the contents of both chambers can be combined, mixed and dispensed to the patient.
The solution in accordance with the present invention has a compatible pH and fewer glucose breakdown products. Thus, it achieves high biocompatibility. It is particularly advantageous that, with the solution in accordance with the present invention, the pain of administration can also be avoided for dialysis patients due to a reduction of the glucose breakdown.
In accordance with a particularly advantageous embodiment the first single solution, which comprises calcium ions, additional electrolytic salts and the glucose, has a pH of 2.8 to 3.2, preferably a pH of 3. Due to the acidification of this single solution which contains the glucose, a clear reduction of the glucose breakdown is achieved during sterilization. The second single solution, which contains bicarbonate and the salt of a weak acid, should have a pH of 8 to 8.5. When mixing, the single solutions at a ratio of about 1 to 1 (by weight), a pH of 7.2 to 7.4 is achieved for the final solution.
In addition to calcium ions and glucose, the first single solution may also contain sodium ions, magnesium ions, H
+
excess ions and chloride ions as additional electrolytes. The second single solution may contain hydrogen carbonate ions in addition to sodium ions and lactate ions, for example pyruvate ions, &agr;-keto glutarate ions etc.
The physiologically compatible acid of hydrochloric acid for acidification to a pH of below 3.2 is also advantageous.
A particularly compatible separation of the solution into the two single solutions is achieved as follows:
First Single Solution:
Sodium [mmol/l]
180 to 200, preferable 193
Calcium [mmol/l]
2 to 4, preferably 2.5 to 3.5
Magnesium [mmol/l]
0.8 to 1.2, preferably 1.0
H + excess ions [mmol/l]
0.9 to 1.1, preferably 1.0
Chloride [mmol/l]
197 to 210, preferably 203
Glucose [mmol/l]
100 to 500, preferably 166.5, 252 or 473
Sec
Fresenius Medical Care Deutschland GmbH
Gitomer Ralph
Kenyon & Kenyon
Khare D
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