The present invention relates to dialysis devices comprising peristaltic pumps of linear build with piezoelectric actuators.
In present-day dialysis systems, liquid transport is normally carried out by radial peristaltic pumps which are employed to pump blood, dialysis liquid or liquids or concentrates used for its preparation, and filtrate.
Disadvantages of the radial peristaltic pumps used up to now are their installation size and weight, which contribute to the considerable space requirement and weight of conventional dialysis systems, causing these systems to often be very bulky and heavy and cumbersome to transport. In addition to that, this type of pumps produces an unpleasant noise level during operation and shows high power consumption and heat generation associated with it.
It would therefore be desirable, especially also in view of the development of systems for home dialysis or the development of portable artificial kidneys, to equip devices with alternative pump systems which do not show said disadvantages.
It has now been found that peristaltic pumps of linear build with piezoelectric actuators can advantageously replace the conventional radial peristaltic pumps in dialysis systems.
The present invention provides dialysis systems comprising peristaltic pumps of linear build with piezoelectric actuators. The dialysis systems of the invention are distinguished from state-of-the-art systems by smaller installation size and lower weight, they produce virtually no noise and show low power consumption and thus also low heat generation.
Another object of the invention is the use of peristaltic pumps of linear build with piezoelectric actuators in dialysis systems.
a and 2b show schematics of other embodiments of a dialysis system of the present invention, suitable for use in chronic dialysis or home dialysis;
a and 5b show schematics of other embodiments of a dialysis system of the present invention, suitable for use in peritoneal dialysis.
Preferred embodiments of the present invention will now be described in more detail with reference to the accompanying drawings.
Peristaltic pumps of linear build with piezoelectric actuators (hereinafter abbreviated as “piezo pumps”) which are suitable for use in the dialysis systems of the present invention are known in the art in principle. For instance, pumps as disclosed in GB-A 2 238 833 or WO 97/42412, respectively, may be used. It is also conceivable, although less preferred, to use pumps of the type disclosed in WO 2004/071684 A1, U.S. Pat. No. 4,432,699 A or DE 10 2007 019 433 A1, respectively.
a and 2b show schematics of embodiments of a dialysis system of the present invention, suitable for use in chronic dialysis or home dialysis. A piezo pump (1) is provided for pumping the patient's blood through the extracorporeal cicuit. Piezo pumps (2,3) are provided for pumping dialysate through the dialyzer and into a container (5) for spent dialysate. In this embodiment, the dialysate is prepared from water demineralized by reverse osmosis (RO water) and dialysis concentrates (12,13) which are admixed via piezo pumps (10,11). The concentrates can be admixed upstream of the first dialysate pump (2), as shown in
Piezo pump (2) is provided for pumping dialysate through the dialysate circuit, which in this embodiment also comprises means for dialysate regeneration (14) in addition to the dialyzer. Piezo pump (3) is provided for pumping spent dialysate discharged from the dialysate circuit into a container (5) for spent dialysate. In this embodiment, electrolyte solution from a source (15), e.g., a reservoir, is added to the dialysate via piezo pump (10) to adjust the electrolyte content of the dialysate. A further piezo pump (6) is provided for feeding substitution fluid from a source (7), e.g., a reservoir, to the extracorporal blood circuit, if required, e.g., when the dialysis system is operated in hemodiafiltration modus (HDF) or hemofiltration modus (HF), optionally upstream of the dialyzer (“pre-dilution mode”) or downstream of the dialyzer (“post-dilution mode”). A further piezo pump (8) is provided for feeding infusion solutions (for instance, drug solutions) from a source (9) to the extracorporeal blood circuit. A further piezo pump (16) is provided for adding coagulation-inhibiting agents like heparin from a corresponding source (17) to the blood of the patient in the extracorporeal blood circuit before it enters the the dialyzer.
a and 5b show schematics of other embodiments of a dialysis system of the present invention, suitable for use in peritoneal dialysis.
Number | Date | Country | Kind |
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10 2009 051 805.3 | Nov 2009 | DE | national |