Method of dissolving/mixing of a concentrate in/with a fluid in a multi-chamber bag and a method for the production of a medical fluid, in particular a dialysis fluid, in a multi-chamber bag. Moreover, the multi-chamber bag itself is disclosed. In all embodiments, at least two different concentrates
Method of dissolving/mixing of a concentrate in/with a fluid in a multi-chamber bag and a method for the production of a medical fluid, in particular a dialysis fluid, in a multi-chamber bag. Moreover, the multi-chamber bag itself is disclosed. In all embodiments, at least two different concentrates can be included separately in powder form, liquid form or semi-liquid slurry form for dissolution in a fluid in the multi-chamber bag. In addition, the use of the multi-chamber bag in haemodialysis or peritoneal dialysis or a haemodialysis or peritoneal dialysis device, in particular as a container for a dialysis fluid in a haemodialysis or peritoneal dialysis device, is described.
대표청구항▼
1. A method of dissolving/mixing a concentrate in/with a fluid, comprising: (a) providing a concentrate in one of several chambers of a multi-chamber film bag, wherein the chambers of the multi-chamber film bag are separated from each other by a separating device;(b) introducing a fluid into one of
1. A method of dissolving/mixing a concentrate in/with a fluid, comprising: (a) providing a concentrate in one of several chambers of a multi-chamber film bag, wherein the chambers of the multi-chamber film bag are separated from each other by a separating device;(b) introducing a fluid into one of the chambers;(c) breaching of the separating device between the chambers by the introducing the fluid; and(d) dissolving/mixing the concentrate in/with the fluid, wherein the film is a flexible, extendible film,wherein a ratio of a volume capacity of the multi-chamber film bag when filled to its maximum, to the volume capacity in the state in which the multi-chamber film bag film is unextended, is ≧3/1,wherein a bottom section of the multi-chamber film bag is formed as a cone with a cone-angle of from 30° to 75°,wherein the cone is formed by the separating device, which breaches at a pre-determined pressure caused by the introduction of the fluid so that a rectangular bag is formed, andwherein the separating device is a peel seam that has a peel seam strength in the range of from 0.2 to 15 N/15 mm. 2. The method according to claim 1, wherein the concentrate is provided in a type B chamber of the multi-chamber film bag, wherein the multi-chamber film bag comprises at least one type A chamber and at least one type B chamber. 3. A method for the production of a medical fluid comprising: (a) providing a multi-chamber film bag comprising a type A chamber, a first type B chamber, and a second type B chamber,wherein the first type B chamber comprises a first concentrate that does not contribute to the electrical conductivity of the medical fluid, and the second type B chamber comprises a second concentrate that contributes to the electrical conductivity of the medical fluid, and wherein the first type B chamber and the second type B chamber are each separated from the type A chamber by separating devices;(b) introducing a fluid into the type A chamber;(c) breaching of the separating devices between the chambers by the introducing the fluid; and(d) dissolving/mixing of the concentrates in/with the fluid,wherein, by the introducing the fluid, the separating device of the first type B chamber is breached before or at the same time as the separating device of the second type B chamber is breached,wherein the film is a flexible, extendible film,wherein the ratio of a volume capacity of the multi-chamber film bag when filled to its maximum, to the volume capacity in the state in which the multi-chamber film bag film is unextended, is ≧3/1,wherein a bottom section of the multi-chamber film bag is formed as a cone with a cone-angle of from 30° to 75°,wherein the cone is formed by the separating device, which breaches at a pre-determined pressure caused by the introduction of the fluid so that a rectangular bag is formed, andwherein the separating device is a peel seam that has a peel seam strength in the range of from 0.2 to 15 N/15 mm. 4. The method according to claim 2, wherein the multi-chamber film bag comprises at least one further type B chamber that is separated from each of the other chambers of the bag by one or more further separating devices. 5. The method according to claim 4, wherein the one or more further separating devices are breached by the introducing the fluid. 6. The method according to claim 4, wherein the at least one further type B chamber contains at least one further concentrate. 7. The method according to claim 2, wherein the separating device between the at least one type A chamber and the at least one type B chamber is formed into a peel seam by welding together two opposite inner side walls in the multi-chamber film bag. 8. The method according to claim 7, wherein the at least one type B chamber comprises a first type B chamber and a second type B chamber, the separating device comprises a first separating device and a second separating device, the first separating device has a first peel seam and separates the at least one type A chamber from the first type B chamber, the second separating device has a second peel seam and separates the at least one type A chamber from the second type B chamber, and the peel seam strength of the peel seam of the first separating device is equal to or lower than the peel seam strength of the peel seam of the second separating device. 9. The method according to claim 2, wherein the at least one type B chamber is formed by an inner bag inside the type A chamber. 10. The method according to claim 9, wherein the inner bag comprises a wall and a peel seam present on the wall, and the breaching of the separating device takes place by peeling open the peel seam present on the wall of the inner bag. 11. A multi-chamber film bag comprising at least two different concentrates in different chambers defined by a separating device, wherein the film is a flexible, extendible film,wherein a ratio of a volume capacity of the multi-chamber film bag when filled to its maximum, to the volume capacity in the state in which the multi-chamber film bag film is unextended, is ≧3/1,wherein a bottom section of the multi-chamber bag is formed as a cone with a cone-angle of from 30° to 75°,wherein the cone is formed by the separating device and the separating device breaches at a pre-determined pressure caused by the introduction of the fluid so that a rectangular bag is formed, andwherein the separating device is a peel seam that has a peel seam strength in the range of from 0.2 to 15 N/15 mm. 12. The multi-chamber film bag according to claim 11, further comprising one type A chamber and at least one type B chamber, wherein one of the concentrates is present in the type A chamber and the other in the at least one type B chamber, or both concentrates are each present in the at least one type B chamber. 13. The multi-chamber film bag according to claim 11, wherein the different chambers comprise one type A chamber, a first type B chamber, and a second type B chamber, the at least two different concentrates comprise a first concentrate and a second concentrate, the first type B chamber comprises the first concentrate, the first concentrate is not able to contribute to the electrical conductivity of a fluid, the first concentrate is dissolved, the second type B chamber comprises the second concentrate, the second concentrate is able to contribute to the electrical conductivity of a fluid, and the second concentrate is dissolved. 14. The multi-chamber film bag according to claim 11, wherein the peel seam is formed by welding together two opposite inner side walls of the multi-chamber film bag. 15. The multi-chamber film bag according to claim 12, wherein the at least one type B chamber is formed by an inner bag inside the type A chamber. 16. A method of keeping dialysis fluid in a haemodialysis or peritoneal dialysis device, comprising providing the multi-chamber film bag according to claim 11 as a container. 17. The method of claim 1, wherein the peel seam strength is in the range of from 0.5 to 8 N/15 mm. 18. The method of claim 3, wherein the peel seam strength is in the range of from 0.5 to 8 N/15 mm. 19. The multi-chamber film bag of claim 11, wherein the peel seam strength is in the range of from 0.5 to 8 N/15 mm.
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이 특허에 인용된 특허 (6)
Vantard Georges (Gournay sur Marne FRX), Artificial kidney with automatic regulation of the pressure of the dialyslate as a function of withdrawal of ultrafiltra.
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