• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    SYSTEM FOR CARRYING OUT BLOOD TREATMENT. The present invention relates to a system for carrying out a blood treatment, in particular a dialysis treatment, wherein the system has at least one blood treatment device, in particular a dialyzer, and at least one tank from which the treatment fluid, in particular dialysis fluid, is removed during the course of blood treatment and / or where the treatment fluid is consumed. In particular, the dialysis fluid consumed is filled during the blood treatment, in which the tank is an element of at least one mobile device that can be connected to the blood treatment device so that at least one fluid connection can be used. be established between the tank and the blood treatment device.
    公开号:BR112012023243B1
    申请号:R112012023243-6
    申请日:2011-03-14
    公开日:2020-10-13
    发明作者:Robert Pohlmeier;Michael Herrenbauer;Patricia Gömpel-Klein;Alfred Krause;Wolfgang Wehmeyer
    申请人:Fresenius Medical Care Deutschland Gmbh;
    IPC主号:
    专利说明:

    The present invention relates to a system for carrying out a blood treatment, in particular a dialysis treatment, wherein the system includes at least one blood treatment device, in particular a dialyzer.
    Dialyzers are known from the prior art, in which the dialysis fluid is not manufactured during a treatment, but where, preferably, the total amount of dialysis fluid required for a dialysis treatment is supplied in a tank before treatment. Dialyzers of this type are also called "batch type" dialyzers.
    It is furthermore known from the prior art, according to WO 2008/104357 A2, how to connect these devices to a mobile unit, in which the dialysis fluid is prepared and from which the prepared dialysis fluid is filled in the tank of the dialyzer.
    In the known system of WO 2008/104367 A2, the prepared dialysis fluid is thus transferred from the tank of the mobile unit to the tank of the dialyzer.
    It is an underlying object of the invention to further develop a system of the type initially named, so that the system is simple to handle and allows a change of treatment fluid while the patient remains connected to the system's treatment unit.
    This object is solved by a system with the characteristics of claim 1. The supply is therefore made so that the tank from which treatment fluid, particularly dialysis fluid, is removed during blood treatment is an element of at least one device. mobile that can be connected to the blood treatment device so that at least one fluid connection can be established between the tank and the blood treatment device. The supply is thus made according to the invention, that the tank from which the dialysis fluid is removed during blood treatment or dialysis treatment is an element of a mobile device, that is, of a device that can be moved by a user and connected to the blood treatment device prior to treatment, so that a fluid connection is made between the tank and the blood treatment device, so that the treatment fluid can be supplied for the blood treatment device.
    It is conceivable that the blood treatment device itself does not have any tank from which treatment fluid, in particular dialysis fluid, is removed during blood treatment and / or in which the treatment fluid consumed, in particular dialysis fluid consumed , is filled in during the blood treatment.
    In such an embodiment of the invention, however, it is not prevented, for example, that one or more containers for anticoagulants or other additives are arranged in the blood treatment device itself.
    A modality is also conceivable and is encompassed by the invention, in which a comparatively small buffer stock, for example, a container with a volume of up to 1 L, is disposed in the blood treatment device itself. This, for example, allows blood to return while no batch is connected.
    The blood treatment device itself can, therefore, be made in a comparatively simple way, since it does not have its own tank, which serves to receive dialysis fluid in this case. The advantage of this modality is the flexibility and the possibility of changing the tank.
    In a further embodiment of the invention, the system has means that are made in such a way that they establish at least one fluid connection between the tank and the blood treatment device automatically or on demand after moving the mobile device to a predetermined position within of the blood treatment device.
    It is generally conceivable that the blood treatment device automatically recognizes the presence of the mobile device and then establishes at least one fluid connection between the tank and the blood treatment device automatically or on demand by the user, and so that the fluid dialysis can be provided for the blood treatment device or its means for performing blood treatment.
    Means can be provided for establishing a fluid connection between the mobile device tank, on the one hand, and the blood treatment device, on the other hand. They may include the hoses and / or connection elements through which the treatment fluid flows after connection. The named means can be arranged inside or in the blood treatment device and / or inside or in the mobile device.
    It is generally conceivable that the blood treatment device automatically recognizes when the mobile device has been moved to a predetermined and designated end position and then automatically establishes a fluid connection and / or a data connection or at least provides the user the option to establish corresponding connections on demand.
    If this is a case of a fluid connection, it is to be done so that the risk of microbial contamination (according to the prior art) is minimized, with the fluid connection being established, for example, by the corresponding connection elements between at least one tank, on the one hand, and the blood treatment device, on the other hand.
    It is provided, in another embodiment of the invention, that the blood treatment device has a socket, preferably a cutout or a space, for receiving the mobile device. To be able to start a dialysis treatment, the mobile device is inserted into this cutout or in the space provided for it and is connected. The blood treatment can subsequently be initiated by the blood treatment device or by its means for carrying out an external blood treatment.
    It is advantageous for the safe integration of the mobile device into the blood treatment device that the mobile device is easy to maneuver and is connected, preferably locked, to the blood treatment device properly. The good maneuverability of the mobile device can be achieved, for example, by mobile device casters or by a suitable caster system. The casters or the caster system are preferably made so that a reliable directional stability of the mobile device is guaranteed, since the mobile device should preferably be pushed into the blood treatment device with directional stability.
    The caster system or casters must, at the same time, be made so that a comparatively simpler handling of the mobile device is ensured. It can have a weight in the full state on the order of magnitude of about 15 kg to 150 kg, in particular less than 120 kg and, for example, 80 kg.
    It is also predicted, in a preferred embodiment of the invention, that the casters of the mobile device project as little as possible to the side or occupy a "trail width", which is as small as possible, being projected as planes and do not move outward where possible, or move outward just a little, so that gripping the casters with the blood treatment device is avoided as much as possible. The casters or wheels of the mobile device are preferably designed according to DE 19 39 923 Al, which is referred to in this regard. Therefore, the casters or wheels comprise a rotatingly arranged axle body that has a plurality of rotating casters that project on its periphery, outside the periphery of the wheel axle body and whose axes of rotation extend in the direction of the tangents at the periphery of the wheel axle body. It is also possible for this sketch to move the mobile device easily in directions perpendicular to each other in the charged state.
    Reference is made in relation to the additional conceivable modalities of DE 19 39 923 A1 casters or wheels, which is in this respect included in the disclosure content of the present invention.
    The tank can be made as a rigid container or also as at least partially flexible bags.
    It is preferable to provide that the tank is made as a disposable article. The tank, which can be made as a bag, is replaced for each new fill in a preferred embodiment of the invention. Cleaning between fillings can therefore be dispensed with.
    It is advantageous if the mobile device is made in such a way that it mechanically supports the tank, in particular the bag. This has the advantage that the tank or bag itself must have less force than if a mechanical support by the mobile device was not present. Provision is made in a further preferred embodiment of the invention that the apparatus is gas-proof. This means that the device itself serves as a gas barrier to prevent loss of CO2. This embodiment of the invention allows the use of a comparatively cheap material from the tank (which can be made as a bag, for example) since correspondingly lesser demands must be made on its gas barrier properties.
    Provision is made in a further embodiment of the invention that the tank is made as a multi-chambered tank, particularly as a multi-chambered bag, of which at least one chamber is for receiving the treatment fluid and that at least one The chamber serves to receive the treatment fluid consumed and / or that the mobile device has the means to direct out the treatment fluid consumed at an outlet or other reception unit.
    If the tank is supplied as a multi-chamber bag, this has the advantage that the volume of the total bag is not subject to change or is only subject to insignificant changes during treatment. It is conceivable that the volume of dialysis fluid that is supplied to the treatment device is replaced by the volume of the dialysis fluid consumed and, optionally, in addition, by the ultrafiltrate.
    Another advantage comprises the recovery of internal heat: the heat from the dialysate outlets used for fresh dialysate, which results in a reduced heating requirement. If the tank or bag for used dialysate surrounds the tank or bag for fresh dialysate (bag-in-bag concept), good thermal insulation for fresh dialysate results as an additional advantage.
    As an alternative to such a procedure, it is also naturally possible to use an additional tank or bag in which the dialysis fluid consumed and, optionally, the ultrafiltrate is received. Finally, it is also possible to provide a direct outlet line through which the treatment fluid consumed and, optionally, the ultrafiltrate is taken to an outlet or other reception unit by means of mobile devices.
    It is provided in another embodiment of the invention that the system additionally has at least one filling unit by means of which the tank of the mobile device can be filled with treatment fluid.
    The filling unit may have means by which it establishes the treatment fluid from a plurality of components, preferably one or more concentrates and water.
    It is also conceivable that the filling unit also only supplies water of an appropriate quality (purity, temperature and quantity). It can be predicted in this respect that the concentrate is already present in the tank or bag.
    The filling unit may, in addition, have means for emptying the used solution.
    For this purpose, the filling unit can be connected with an RO water supply unit or have such a unit.
    As stated above, it is conceivable that the mobile device is properly connected to the blood treatment device. It should be borne in mind in this regard that rolling away from the mobile device from its station position is avoided. It is conceivable to connect or lock the mobile device to a guide element, for example, to a guide tongue of the blood treatment device, when the mobile device is in its final position. This guide element or guide tongue, furthermore, provides a good possibility for introducing the comparatively heavy filled apparatus into the blood treatment device without the mobile apparatus and the blood treatment device being able to be grasped at the introduction. Such a guide can be placed on the mobile device and / or the blood treatment device.
    To allow locking and release the mobile device with a small force of force, a ball can be provided that is fixed, for example, to the underside of the mobile device and which can engage with a cutout of the blood treatment device, for example. example, the guide tongue.
    The present invention also relates to a method for providing a blood treatment device, in particular, a dialyzer, with a treatment fluid, in particular having a dialysis fluid, which is removed from a tank during carrying out a blood treatment. The method is characterized by the fact that the tank is an element of a mobile device, which is connected to the blood treatment device for carrying out the blood treatment, so that a fluid connection is present between the tank and the device of blood treatment.
    The term "tank" must be understood in a broad sense and also includes, for example, proprietary medicinal products, such as HF solutions.
    The method may further include the step in which the consumed treatment fluid, in particular consumed dialysis fluid, is supplied to the tank or to a tank of the mobile device, or is supplied to an outlet or to another receiving unit via the mobile devices.
    It is provided, in another embodiment of the invention, that the mobile device is first moved to a filling unit, in which the mobile device tank is filled with treatment fluid, in particular with fresh dialysis fluid.
    The method can be carried out so that the treatment fluid is removed from at least one tank, and used treatment fluid is supplied to at least one tank simultaneously or displaced in time. The case is generally also covered by the invention that different tanks or bags are used which store the fresh treatment fluid, on the one hand, and receive the consumed treatment fluid, on the other hand.
    The method may further include the step of, after moving the mobile device to the blood treatment device in a predefined position, at least one fluid connection is established automatically or on demand between the tank and the blood treatment device. The same can also apply properly to a data connection that serves to transfer data from the mobile device to the blood treatment device, and / or vice versa.
    The mobile device can be moved to the filling unit and used treatment fluid, in particular used dialysis fluid, can be supplied to the tank filling unit of the mobile device. In this way, it is conceivable that the filling unit is not only used to fill the mobile device tank with treatment fluid, but also to remove the used treatment fluid from the mobile device tank. Separate fluid circuits are particularly advantageous for reasons of hygiene. A separate emptying unit can also be used.
    The present invention further relates to a blood treatment device, in particular to a dialyzer having means for carrying out a blood treatment, preferably an external blood treatment and, in particular, a dialysis treatment. The device is characterized by the fact that it does not have any tank in which a treatment fluid, in particular a dialysis fluid, needed to perform the blood treatment, is present. It is previously envisaged that the blood treatment device has at least one connection through which the blood treatment device can be connected to at least one tank in which the treatment fluid is present and through which the treatment fluid treatment can be provided for the blood treatment device during blood treatment.
    The blood treatment device can have at least one assembly in which a mobile device, preferably a mobile device according to the invention, can be received that has at least one tank.
    The present invention relates, finally, to the use of a mobile device that has at least one tank in which a treatment liquid, in particular a dialysis fluid, is located for the supply of a blood treatment device, in particular of a dialyzer, with the treatment fluid during a blood treatment carried out by the blood treatment device. The mobile device is preferably made according to one or more of the characteristics mentioned above and / or the characteristics described below.
    More details and advantages of the invention will be explained in more detail with reference to a modality in the figure. They are shown:
    Figure 1: schematic representation of a system according to the invention with a dialyzer, a mobile device and a filling unit.
    Figure 2: a schematic view of the filling of the mobile device tank by the filling unit and the coupling of the mobile device to the blood treatment device;
    Figure 3: a schematic view of the mobile device with a two-chamber bag, with the chamber being filled to receive the unconsumed dialysis fluid;
    Figure 4: a schematic view of the mobile device with a two-chamber bag, with the chamber being filled to receive the consumed dialysis fluid; and
    Figure 5: a schematic view of the filling unit with the mobile device, with the filling unit also serving as a unit for emptying the mobile device tank.
    Figure 1 shows a system for carrying out a blood treatment according to the present invention. This comprises the blood treatment device present 100 having means for treating external blood, the mobile device 200 and the filling unit 300.
    The system is preferably used for the treatment of extracorporeal blood, in particular for hemodialysis, hemodialysis at home (HHD) and for the treatment of acute renal failure. Other applications can also be peritoneal dialysis, in particular APD. The present system can be used for batch processes (iHD and EDD), as well as for continuous applications (for example, CWHD and CWH).
    The mobile device 200 has a tank, in the form of a double chamber bag 210 (or in the form of two separate bags) whose chamber is filled with fresh dialysis fluid 220, which in turn is manufactured with the help of filling unit 300 and which is filled in the double chamber bag 210. In the embodiment shown here, the dialysis liquid is thus supplied in the form of a batch.
    The case is, however, also covered by the invention that dialysis fluids, which are present, for example, in bags or other receiving containers, can be used and can be moved to the blood treatment device 100 using an apparatus mobile. This can, in particular, also be a case of HF solutions in this regard, for example.
    The dialysis fluid batch is manufactured locally by the preferred stationary filling unit 300 by diluting the concentrates with purified water, preferably with RO water. The filling unit 300 can be a small unit which can, for example, be fixed to a wall or otherwise be stationary or mobile as well. It can have a separate RO unit or it can be connected to it, or it can also contain an integrated RO unit. Additional water treatment units can also be arranged in the filling unit. They include, for example, means for providing disinfectants that are optionally used for disinfecting the components or the water used to manufacture the dialysis fluid. It is additionally advantageous that the filling unit has heating means with which water or the manufactured dialysis fluid can be heated.
    Liquid concentrates or also solid concentrates, which are then mixed with water to make the dialysis fluid, can be used to manufacture the dialysis fluid.
    Connections with minimal (reduced) risk of contamination are preferably used in the filling unit 300 to ensure that the dialysis fluid is manufactured under conditions with a low microbiological count.
    After the manufacture of dialysis fluid 220, it is filled in tank 210 or in a chamber of the double chamber bag 210 of the mobile device 200. This process is shown schematically in Figure 2 and is marked by the reference symbol A. Bag 210 is arranged on the mobile device 200 for transportation purposes. The size of the bag or tank 210 can be, for example, in the range of 15 L to 120 L, preferably in the range of 40 L to 80 L.
    The pouch 210 of the mobile device 200 can preferably be flexible and the two chambers of the double chamber pouch 210 are in communication with each other, so that increasing the volume of a chamber can result in a corresponding volume reduction from the other chamber, as will be shown in more detail below.
    After filling the tank 210 of the mobile device 200, it moves to the blood treatment device 100 (Step B), for which purpose the mobile device 200 is made with casters.
    The blood treatment device 100 can include a control unit that recognizes when the mobile device 200 has reached its predefined position (this can, for example, be the end position, or also the intermediate positions) in the blood treatment device 100 In addition, the blood treatment device 100 includes a user interface through which the operating states of the blood treatment device 100 or mobile device 200 can be displayed to the user by means of which the user can, optionally, it can feed data. In addition, the blood treatment device 100 has means for performing an extracorporeal blood treatment, in particular means for performing a dialysis treatment, such as a hose kit (integrated cassette / disposable article system), a blood pump, dialysis pump, dialysis machine with corresponding hose lines, etc.
    Once the mobile device 200 has reached its designated position on or integrated into the blood treatment device 100, a fluid connection is established automatically or on demand by the user between the tank 210 of the mobile device 200 and the treatment device blood 100. This fluid connection is made so that fresh treatment fluid 220 is supplied from part of the double chamber bag 210 to blood treatment device 100 while dialysis is being performed. Another fluid connection is made so that the used dialysis fluid 230 that originates during dialysis treatment is filled in the other chamber of the double chamber bag 210. In addition, the ultrafiltrate can be carried out into this chamber, or also to another camera. The blood treatment device comprises the treatment device present below which a receiving space 106 is arranged for receiving the mobile device.
    Figure 2 shows the process of coupling the mobile device 200 to the blood treatment device 100. The extracorporeal blood circuit according to step C, through which the patient is connected to the blood treatment device 100, is symbolized by the double arrows in Figure 3.
    The mobile device 200 can be replaced as needed during dialysis treatment or blood treatment without the patient having to be disconnected from the extracorporeal blood circuit. The mobile device 200 can be replaced by a mobile device 200 which has a tank 210 filled with fresh treatment fluid 220.
    Figure 4 shows the tank 210 of the mobile device 200 in a state where the chamber for receiving the consumed treatment fluid 230 is empty and the chamber is filled for receiving fresh dialysis fluid 220. The volume of the chamber in which the fresh dialysis fluid 220 is present decreases during blood treatment. At the same time, the volume of the chamber used to receive the consumed dialysis fluid and, optionally, ultrafiltrate, increases due to the return of the consumed dialysis fluid.
    Figure 4 shows the double chamber bag 210 of the mobile device 200 in a post-treatment state. It can be seen here that the chamber of the double chamber bag 210 which serves to receive the consumed dialysis fluid 230 and, optionally, ultrafiltrate, is now full.
    If no ultrafiltrate is removed, the volume of pouch 210 does not change, or hardly changes during the process, since the consumed dialysis fluid 230 is supplied to the same degree as fresh dialysis fluid 220 is removed.
    Other embodiments of the tank 210 are also naturally covered by the invention. The tank can be made rigid, for example. The case is also encompassed by the invention which mutually separates pouches or other containers, that is, pouches or other containers that are not in communication with each other, which are used for the unconsumed dialysis fluid 220, on the one hand, and for the dialysis fluid used 230, on the other hand.
    Once the dialysis fluid has been used, the mobile device 200 is decoupled from the blood treatment device 100 and moved to the filling unit 300. Here, the consumed dialysis fluid 230 and, optionally, ultrafiltrate, is removed from the bag 210 for pumping and then the tank or bag 210 used as a disposable article is discarded.
    The mobile device 200 can then be used with a new tank or bag 210 and is then again available for filling.
    The process of emptying the pocket 210 of the mobile device 200 by the filling unit 300 is shown in Figure 5 (step D).
    Emptying takes place, for example, by a filling unit pump 300 which, in this case, also serves as an emptying unit. It is also generally conceivable to use different units or a separate (single) pump for filling and emptying.
    The blood treatment device 100 can be made with control means so that its operation is particularly simple. Therefore, it is conceivable, for example, that it is automatically recognized when a mobile device 200 is inserted into the blood treatment device 100. A connection to the tank 210 or the bag 210 of the mobile device 200 can then occur automatically. In addition, a data connection can be made so that data from the mobile device 200 is examined by the blood treatment device 100. These data can, for example, relate to dialysis fluid 220 (quantity, composition) in bag 210.
    It is conceivable to show the successful connection to the user and for him to start dialysis treatment by activating an additional keyboard or a switch or the like.
    It can also be provided that the blood treatment device 100 indicates to the user when the dialysis treatment is finished or when the bag 210 receiving capacity for the consumed dialysis fluid 230 is exhausted.
    In this case, it can be, for example, acoustically and / or optically indicated for the user, the mobile device 200 must be disconnected from the blood treatment device 100.
    In the embodiment shown here, blood treatment device 100 has means for carrying out treatment of extracorporeal blood. The only exception is a tank for receiving fresh dialysis fluid 220. Such a tank is not provided in the blood treatment device 100, but is, as stated above, provided by a mobile device 200 that can be moved to the device blood treatment 100 to be able to start dialysis.
    The advantages of the system can be summarized as follows in a preferred embodiment of the invention:
    Batch change while the patient remains connected;
    No change of bag (5 L bags / bag of residues);
    Reduced work effort (disposal of waste with the mobile unit);
    Hygiene: closed system, reduced risk of contamination; fluid system based on disposable items (no hydraulics attached to the mobile system / treatment unit, reduced disinfection effort);
    Integrated alarm management (information transfer).
    权利要求:
    Claims (17)
    [0001]
    1. A system for carrying out a dialysis treatment, comprising: a blood treatment device (100), in particular a dialyzer (100), and a tank (210) from which the dialysis fluid (220) is removed during carrying out the blood treatment, and in which the dialysis fluid consumed (230) is filled during the blood treatment, in which the tank (210) is an element of a mobile device (200), which can be connected to the blood treatment device (100) so that a fluid connection can be established between the tank (210) and the blood treatment device (100) and the system further comprises a filling unit (300), by means of which tank (210) of the mobile device (100) can be filled with dialysis fluid (220), FEATURED by the fact that the tank (210) is configured in the form of a plurality of individual tanks, of which the first tank serves to dispense dialysis fluid (220) and a second tank serves p to receive consumed dialysis fluid (230), in which the second consumed dialysate tank surrounds the first fresh dialysate tank.
    [0002]
    2. System according to claim 1, CHARACTERIZED by the fact that the blood treatment device (100) itself does not have a tank from which dialysis fluid (220) is removed during the treatment of blood and / or in which the dialysis fluid consumed (230) is filled during the blood treatment.
    [0003]
    3. System, according to either of claims 1 or 2, CHARACTERIZED by the fact that the system has means that are configured in such a way that, after moving the mobile device (200) into the blood treatment device ( 100) in a predefined position, they establish at least one fluid connection between the tank (210) and the blood treatment device (100).
    [0004]
    System according to any one of claims 1, 2 or 3, CHARACTERIZED by the fact that the blood treatment device (100) comprises a receptacle, preferably a recess or a space, for receiving the mobile device ( 200).
    [0005]
    5. System according to any one of claims 1, 2, 3 or 4, CHARACTERIZED by the fact that the mobile device (200) has casters for the purpose of easy mobility.
    [0006]
    6. System according to any one of claims 1, 2, 3, 4 or 5, CHARACTERIZED by the fact that the tank (210) is made as a rigid container or as a bag (210), with flexible walls.
    [0007]
    System according to any one of claims 1, 2, 3, 4, 5 or 6, CHARACTERIZED by the fact that the mobile device (200) is made in such a way that it mechanically supports the tank (210), in particular the pouch (210).
    [0008]
    8. System according to any one of claims 1, 2, 3, 4, 5, 6 or 7, CHARACTERIZED by the fact that the mobile device (200) is gas-proof.
    [0009]
    System according to any one of claims 1, 2, 3, 4, 5, 6, 7 or 8, CHARACTERIZED by the fact that the mobile device (200) comprises means (200) for discharging the consumed dialysis fluid (230) in a drain or other receiving unit.
    [0010]
    System according to any one of claims 1 to 9, CHARACTERIZED by the fact that the filling unit (300) comprises means, by means of which the dialysis fluid (220) can be manufactured from a plurality of components , preferably one or more concentrates and water.
    [0011]
    11. System according to either of claims 9 or 10, CHARACTERIZED by the fact that the filling unit (300) is connected to an RO water supply unit or comprises such a unit.
    [0012]
    12. Method for driving the system, as defined in claim 1, which is for providing a blood treatment device (100), in particular a dialysis device (100), with a dialysis fluid (220), which is removed from a tank (210), during a blood treatment, CHARACTERIZED by the fact that the tank (210) is an element of a mobile device (200) which, to perform the blood treatment, is connected to the blood treatment device (100) in such a way that there is a fluid connection between the tank (210) and the blood treatment device (100) in which the mobile device (200) is moved towards the blood filling (300) first, in which or over which the tank (210) of the mobile device (200) is filled with dialysis fluid (220).
    [0013]
    13. Method according to claim 12, CHARACTERIZED by the fact that the method still comprises the step of feeding the consumed dialysis fluid (230), in particular consumed dialysis fluid (230), is fed to a tank (210 ) from the mobile device (200) or is fed to a drain or other receiving unit via the mobile device (200) or directly without the mobile device (200).
    [0014]
    14. Method according to either of claims 12 or 13, CHARACTERIZED by the fact that the method is carried out in such a way that at least one tank (210) has dialysis fluid (220) fed to it or dialysis fluid consumed (230) removed from it at the same time or at different times.
    [0015]
    15. Method according to any one of claims 12, 13 or 14, CHARACTERIZED by the fact that at least one fluid connection is established between the tank (210) and the blood treatment device (100) after the movement of the mobile device (200) towards the blood treatment device (100) in a predefined position.
    [0016]
    16. Method according to any of claims 12, 13, 14 or 15, CHARACTERIZED by the fact that, after the automatic or requested movement of the mobile device (200) towards the blood treatment device (100) in a predefined position, at least one data connection is established between the mobile device (200) and the blood treatment device (100).
    [0017]
    17. Method according to any one of claims 12, 13, 14, 15 or 16, CHARACTERIZED by the fact that the mobile device (200) is moved towards the filling unit (300) or to a separate emptying unit and the consumed treatment fluid (230), in particular the consumed dialysis fluid (230), is discharged from the tank (210) of the mobile device (200) via the filling unit (300) or by the separate emptying unit.
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    法律状态:
    2019-07-09| B06F| Objections, documents and/or translations needed after an examination request according [chapter 6.6 patent gazette]|
    2019-09-03| B06U| Preliminary requirement: requests with searches performed by other patent offices: procedure suspended [chapter 6.21 patent gazette]|
    2020-05-19| B09A| Decision: intention to grant [chapter 9.1 patent gazette]|
    2020-10-13| B16A| Patent or certificate of addition of invention granted [chapter 16.1 patent gazette]|Free format text: PRAZO DE VALIDADE: 20 (VINTE) ANOS CONTADOS A PARTIR DE 14/03/2011, OBSERVADAS AS CONDICOES LEGAIS. |
    优先权:
    申请号 | 申请日 | 专利标题
    DE102010011465.0|2010-03-15|
    DE102010011465A|DE102010011465A1|2010-03-15|2010-03-15|System for performing a blood treatment|
    PCT/EP2011/001261|WO2011113572A1|2010-03-15|2011-03-14|System for carrying out a blood treatment|
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