阅读说明：本技术 中央控制式多患者透析治疗系统及其用途 (Central control type multi-patient dialysis treatment system and application thereof ) 是由 左淇 于 2018-07-20 设计创作，主要内容包括：本文所公开的中央控制式多患者透析治疗系统(1)包括：透析液制备单元(2),其配置成能够基于处方制备透析液并控制用于进行中的透析治疗的透析液供给；一个或多个透析液模块(3),其配置成能够将透析液供给到透析器(4)并控制超滤过程；以及一个或多个患者模块(5),其配置成能够控制通过透析器(4)的体外血液流动以进行透析治疗,其中,所述透析液制备单元(2)、所述透析液模块(3)和所述患者模块(5)配置成适于组装成适合于一个或多个患者(6)的集成式透析治疗系统。本文还公开了所述中央控制式多患者透析治疗系统(1)用于一个或多个患者的透析治疗的用途。对于中央控制式多患者透析治疗系统,与传统的中心式透析基础设施相比,除了节省成本以外,还具有很高的空间利用效率。此外,中央控制式多患者透析治疗系统可靠且易于布置。(The centrally controlled multi-patient dialysis treatment system (1) disclosed herein comprises: a dialysate preparation unit (2) configured to be able to prepare dialysate based on a prescription and to control a supply of dialysate for an ongoing dialysis treatment; one or more dialysate modules (3) configured to be able to supply dialysate to the dialyzer (4) and to control the ultrafiltration process; and one or more patient modules (5) configured to enable control of extracorporeal blood flow through a dialyzer (4) for performing a dialysis treatment, wherein the dialysate preparation unit (2), the dialysate module (3) and the patient modules (5) are configured to be adapted to be assembled into an integrated dialysis treatment system suitable for one or more patients (6). Also disclosed herein is the use of the centrally controlled multi-patient dialysis treatment system (1) for dialysis treatment of one or more patients. Compared with the traditional central dialysis infrastructure, the central control type multi-patient dialysis treatment system has the advantages of saving cost and having high space utilization efficiency. Furthermore, the centrally controlled multi-patient dialysis treatment system is reliable and easy to arrange.)

1. A centrally controlled multi-patient dialysis treatment system (1) comprising:

a dialysate preparation unit (2) configured to be able to prepare dialysate based on a prescription and to control a supply of dialysate for an ongoing dialysis treatment;

one or more dialysate modules (3) configured to be able to supply dialysate to the dialyzer (4) and to control the ultrafiltration process; and

one or more patient modules (5) configured to be able to control an extracorporeal blood flow through a dialyzer (4) for performing a dialysis treatment,

wherein the dialysate preparation unit (2), the dialysate module (3) and the patient module (5) are configured to be adapted to be assembled into an integrated dialysis treatment system suitable for one or more patients (6).

2. The centrally controlled multi-patient dialysis treatment system (1) according to claim 1, wherein the dialysate preparation unit (2) is in fluid connection with the dialysate module (3), the dialysate preparation unit (2) comprising any one or more of:

a heating module configured to heat the dialysate to about 35 degrees Celsius;

a degassing module (21) configured to enable removal of air from the treated water;

a concentrate preparation module (22) configured to be able to prepare a liquid concentrate from a concentrate in powder form in at least one concentrate cartridge (23);

a proportioning unit (24) configured to be able to mix the concentrate with the treated water in a prescribed mixing ratio as required; and

an endotoxin retention filter (25) disposed before a dialysate distribution loop (7) of a centrally controlled multi-patient dialysis treatment system (1) and configured to enable enhanced hygiene control.

3. The centrally controlled multi-patient dialysis therapy system (1) according to claim 2, wherein the heating module further comprises any one or more of:

a heat exchanger (201) configured to be able to exchange heat from the spent dialysis fluid in the drain line (202) to the treated water;

a pre-heater (203) configured to heat the treated water to about 35 degrees celsius before the treated water enters the degassing module (21); and

a flow heater (204) mounted at an end of the dialysate distribution loop (7) and configured to maintain dialysate at about 35 degrees Celsius.

4. The centrally controlled multi-patient dialysis treatment system (1) according to claim 1, wherein the dialysate modules (3) are in fluid communication with a dialysate distribution loop (7) of the centrally controlled multi-patient dialysis treatment system (1) for distributing dialysate to the respective patient modules (5), the dialysate modules (3) comprising any one or more of:

a dialysis temperature control module (31) configured to control a temperature of the dialysate; and

a balance system (32) configured to enable control of ultrafiltration in dialysis treatment with an ultrafiltration pump (33), the balance system (32) further configured to enable control of ultrafiltration volume in dialysis treatment.

5. The centrally controlled multi-patient dialysis treatment system (1) according to claim 4,

the flow path for extracorporeal blood flow comprises a dialyzer (4) and a tube set; and/or

The dialysis temperature control module (31) further comprises a dialysate heater disposed before the balancing system (32) and configured to be able to heat dialysate to a prescribed treatment temperature and/or configured for heat disinfection.

6. Centrally controlled multi-patient dialysis treatment system (1) according to any of the claims 1-4,

the dialyzer (4) can be attached to the dialysate module (3) or the patient module (5), preferably by inserting the inlet and outlet ports of the dialyzer into respective receivers or dialysate lines.

7. Centrally controlled multi-patient dialysis treatment system (1) according to any of the claims 1-6,

the dialysate preparation unit (2) is configured as a central station to monitor and/or control dialysate preparation parameters of the centrally controlled multi-patient dialysis treatment system (1) and/or treatment states of those patient modules connected in the centrally controlled multi-patient dialysis treatment system.

8. Centrally controlled multi-patient dialysis treatment system (1) according to any of the claims 1-7,

the dialysate preparation unit (2) is configured in a cabinet-shaped manner.

9. The centrally controlled multi-patient dialysis treatment system (1) according to any of claims 1-8, wherein the dialysate module (3) further comprises:

a backflow preventer (34) for preventing backflow contamination towards a dialysate distribution loop (7) of a centrally controlled multi-patient dialysis treatment system (1).

10. The centrally controlled multi-patient dialysis treatment system (1) according to claim 4, wherein the dialysate module (3) further comprises:

a pressure regulator (35) for maintaining a stable loading pressure for loading fresh dialysate into the balancing system (32) such that the hydraulic design can be simplified with the driving force generated by said stable loading pressure at the loading side of the balancing system in the dialysate module.

11. The centrally controlled multi-patient dialysis treatment system (1) according to claim 4,

the dialysate module (3) is detachably connected to the dialysate distribution loop (7) by means of a connector.

12. The centrally controlled multi-patient dialysis treatment system (1) according to any of claims 1-11, wherein the patient module (5) further comprises:

a user interface (52), preferably a touch screen, for controlling/setting the respective dialysis treatment.

13. Centrally controlled multi-patient dialysis treatment system (1) according to any of the claims 1-12,

the patient module (5) is configured as a compact device; and/or

The patient module (5) is configured to be adapted to be held on a retractable wall mounting structure or a movable support.

14. Centrally controlled multi-patient dialysis treatment system (1) according to any of the claims 1-13,

the dialysate module (3) and the corresponding patient module (5) can be integrated into a bedside machine (9).

15. The centrally controlled multi-patient dialysis therapy system (1) according to any one of claims 1-14, wherein the centrally controlled dialysis therapy system (1) further comprises:

a water treatment unit (8) configured to be able to supply treated water to the dialysate preparation unit (2).

16. Centrally controlled multi-patient dialysis treatment system (1) according to any of the claims 1-15,

the water treatment unit (8) can be integrated with a centrally controlled multi-patient dialysis treatment system (1), preferably with a dialysate preparation unit (2).

17. The centrally controlled multi-patient dialysis treatment system (1) according to any of claims 1-16, wherein the centrally controlled multi-patient dialysis treatment system (1) further comprises:

an additional loop (10) configured to be able to supply treated water to the dialysate module (3) to enable the dialysate module (3) to be flushed and/or sterilized separately.

18. Use of the centrally controlled multi-patient dialysis treatment system (1) according to any of the preceding claims for dialysis treatment of one or more patients.

Technical Field

The present invention relates to a centrally controlled multi-patient dialysis treatment system and to the use of the centrally controlled multi-patient dialysis treatment system for dialysis treatment of one or more patients.

Background

In particular, in recent years, the number of patients with end-stage renal disease (ESRD) is increasing. Hemodialysis, an effective treatment for the disease, is a process for removing toxic substances and metabolites that would normally be removed by the kidneys and helping to regulate fluid and electrolyte balance. Hemodialysis is typically performed by a dialysis machine using dialysate.

However, due to various factors, only a relatively small percentage of ESRD patients may receive dialysis treatment. Treatment costs are of critical importance to the yet undeveloped market where patients receive standard hemodialysis treatments. Safety and efficiency are also critical. Lower-grade hospitals in emerging markets are likely to place a great demand for hemodialysis within the next decade. In these hospitals, acid and base concentrates are usually prepared manually in adjacent rooms and then transported manually to each dialysis machine. The process is labor intensive and the quality of the dialysate may be affected.

As a more efficient and safer solution, Central Dialysis fluid supply systems (CDDS) are currently widely used for preparing and distributing dialysate to a plurality of bedside Dialysis machines, for example, about 30-40 Dialysis machines. The system simplifies the maintenance and supervision involved by combining the dialysate management of multiple patients, the preparation of cleaning and disinfecting solutions, and the supply of these solutions to each bedside dialysis machine. Such systems have been in use for many years. It is generally more cost effective for a larger number of patients, for example 20 or more patients. However, a malfunction may affect all patients and there is a constant risk of contamination due to the long dialysis tubing.

Furthermore, some components of the system are typically installed in an isolated equipment room at a distance from the treatment area, and the bedside dialysis machines used in the system are typically standard hemodialysis machines, with only the dialysate mixing device removed, so that the footprint of the bedside dialysis machine is unchanged. However, more space is required between the plants to accommodate the acid and base dynamic mixing devices and the central dialysate preparation unit. In addition, each bedside dialysis machine is connected to a dialysate line of approximately 2 meters, so that in addition to the main Endotoxin-retaining Filter (ETRF), each dialysis machine requires a small ETRF for sanitary control.

In addition, lower level hospitals are small in size, limited in capacity and infrastructure, but costly, time consuming and space consuming to plan and set up new systems. Existing systems are not well suited for delivering low cost therapeutic solutions. Accordingly, there is a need for an improved system that overcomes at least one of the above problems.

Disclosure of Invention

In view of the problems of the prior art, it is an object of the present invention to provide a centrally controlled multi-patient dialysis treatment system and the use of the centrally controlled multi-patient dialysis treatment system for dialysis treatment of one or more patients.

To achieve this object, according to a first aspect, there is provided a centrally controlled multi-patient dialysis treatment system comprising: a dialysate preparation unit configured to be capable of preparing dialysate based on a prescription and controlling a supply of dialysate for an ongoing dialysis treatment; one or more dialysate modules configured to be able to supply dialysate to a dialyzer and to control an ultrafiltration process; and one or more patient modules configured to enable control of extracorporeal blood flow through a dialyzer for dialysis treatment, wherein the dialysate preparation unit, the dialysate module, and the patient modules are configured to be adapted to be assembled into an integrated dialysis treatment system suitable for one or more patients.

According to an optional embodiment of the invention, the dialysate preparation unit is in fluid connection with the dialysate module, the dialysate preparation unit comprising any one or more of: a heating module configured to heat the dialysate to about 35 degrees Celsius; a degassing module configured to remove air from the treated water; a concentrate preparation module configured to enable preparation of a liquid concentrate from a concentrate in powder form in at least one concentrate cartridge; a proportioning unit configured to be able to mix the concentrate with the treated water at a prescribed mixing ratio as required; and an endotoxin-retaining filter disposed before a dialysate distribution loop of the centrally-controlled multi-patient dialysis treatment system and configured to enable enhanced hygiene control.

According to an alternative embodiment of the invention, the heating module further comprises any one or more of: a heat exchanger configured to be able to exchange heat from the spent dialysate in the drain line to the treated water; a pre-heater configured to heat the treated water to about 35 degrees celsius before the treated water enters the degassing module; and a flow heater mounted at an end of the dialysate distribution loop and configured to maintain dialysate at about 35 degrees celsius.

According to an optional embodiment of the invention, the dialysate modules are in fluid communication with a dialysate distribution loop of the centrally controlled multi-patient dialysis treatment system for distributing dialysate to respective patient modules, the dialysate modules comprising any one or more of: a dialysis temperature control module configured to control a temperature of the dialysate; and a balancing system configured to enable control of ultrafiltration in the dialysis treatment using the ultrafiltration pump, the balancing system further configured to enable control of ultrafiltration volume in the dialysis treatment.

According to an alternative embodiment of the invention, the flow path for extracorporeal blood flow comprises a dialyzer and a tube set; and/or the dialysis temperature control module further comprises a dialysate heater disposed prior to the equilibration system and configured to heat dialysate to a prescribed treatment temperature and/or configured for thermal disinfection.

According to an alternative embodiment of the invention, the dialyzer can be attached to the dialysate module or patient module, preferably by inserting the inlet and outlet ports of the dialyzer into the respective receivers or dialysate lines.

According to an alternative embodiment of the invention, the dialysate preparation unit is configured as a central station to monitor and/or control dialysate preparation parameters of the centrally controlled multi-patient dialysis treatment system and/or treatment status of those patient modules connected in the centrally controlled multi-patient dialysis treatment system.

According to an alternative embodiment of the invention, the dialysate preparation unit is configured in a cabinet-shaped form.

According to an alternative embodiment of the invention, the dialysate module further comprises: a backflow preventer for preventing backflow contamination of a dialysate distribution loop towards a centrally controlled multi-patient dialysis treatment system.

According to an alternative embodiment of the invention, the dialysate module further comprises: a pressure regulator for maintaining a stable loading pressure for loading fresh dialysate into the balancing system, such that the hydraulic design can be simplified with the driving force generated by said stable loading pressure at the loading side of the balancing system in the dialysate module.

According to an alternative embodiment of the invention, the dialysate module is detachably connected to the dialysate distribution loop by means of a connector.

According to an optional embodiment of the invention, the patient module further comprises a user interface, preferably a touch screen, for controlling/setting the respective dialysis treatment.

According to an alternative embodiment of the invention, the patient module is configured as a compact device; and/or the patient module is configured to be adapted to be retained on a retractable wall mounting structure or a movable support.

According to an alternative embodiment of the invention, the dialysate module and the corresponding patient module can be integrated into a bedside machine.

According to an alternative embodiment of the invention, the centrally controlled dialysis treatment system further comprises: a water treatment unit configured to be able to supply treated water to the dialysate preparation unit.

According to an alternative embodiment of the invention, the water treatment unit can be integrated with a centrally controlled multi-patient dialysis treatment system, preferably with a dialysate preparation unit.

According to an alternative embodiment of the invention, the centrally controlled multi-patient dialysis treatment system further comprises: an additional loop configured to be able to supply treated water to the dialysate module to enable the dialysate module to be separately flushed and/or sterilized.

According to another aspect, there is provided a use of the centrally controlled multi-patient dialysis treatment system for dialysis treatment of one or more patients.

Compared with the traditional central dialysis infrastructure, the central control type multi-patient dialysis treatment system has the advantages of saving cost and having high space utilization efficiency. Furthermore, the centrally controlled multi-patient dialysis treatment system is reliable and easy to arrange.

Drawings

The invention and its advantages will be further understood by reading the following detailed description of some preferred exemplary embodiments, with reference to the attached drawings, in which:

fig. 1 schematically shows a centrally controlled multi-patient dialysis treatment system according to an exemplary embodiment of the present invention in a schematic view.

Figure 2 shows an exemplary embodiment of a patient module with a dialyzer attached thereto.

Fig. 3 schematically shows in a schematic diagram a centrally controlled multi-patient dialysis treatment system according to another exemplary embodiment of the invention, which is similar to fig. 1, but with a dialyzer attached in the dialysate module.

Fig. 4 schematically shows in a schematic diagram a centrally controlled multi-patient dialysis treatment system according to yet another exemplary embodiment of the invention, which is similar to fig. 1 and 3, but the dialysate modules and the respective patient modules are integrated into a compact bedside machine.

Fig. 5 schematically shows in a schematic diagram only a part of a centrally controlled multi-patient dialysis treatment system according to another exemplary embodiment of the present invention.

Fig. 6 shows an exemplary practical embodiment of a centrally controlled multi-patient dialysis treatment system.

Detailed Description

In the following some exemplary embodiments of the invention will be described in more detail with reference to the drawings in order to better understand the basic idea of the invention.

Fig. 1 schematically shows a centrally controlled multi-patient dialysis treatment system according to an exemplary embodiment of the present invention in a schematic view.

As shown in fig. 1, the centrally controlled multi-patient dialysis treatment system 1 mainly includes: a dialysate preparation unit 2 configured to be able to prepare dialysate based on the prescription and control supply of dialysate for ongoing dialysis treatment; one or more dialysate modules 3 configured to be able to supply dialysate to the dialyzer 4 and to control the ultrafiltration process; and one or more patient modules 5 configured to be able to control the extracorporeal blood flow through the dialyzer 4 for performing a dialysis treatment, wherein the dialysate preparation unit 2, the dialysate module 3 and the patient modules 5 are configured to be adapted to be assembled into an integrated dialysis treatment system suitable for one or more patients 6.

The integrated dialysis treatment system as a single device can be arranged in a separate space, e.g. directly in the treatment area, and therefore space utilization is high, which allows even to be arranged in a bus to serve a small group of patients in remote areas. Furthermore, integrated dialysis treatment systems can be quickly installed to meet the rapidly growing market demand, and multiple such systems can be independently installed to meet higher treatment capacity requirements. Furthermore, the integrated dialysis treatment system can be operated and/or maintained as simply as a single machine.

The dialysate preparation unit 2 is preferably in fluid connection with the dialysate module 3 via a dialysate distribution loop 7 for supplying dialysate to the dialysate module 3.

According to an exemplary embodiment of the invention, the dialysate preparation unit 2 may comprise any one or more of the following: a heating module configured to heat the dialysate to a predetermined temperature, for example, about 35 degrees celsius; a degassing module 21 configured to be able to remove air from the treated water; a concentrate preparation module 22 configured to be able to prepare a liquid concentrate from the concentrate in powder form in at least one concentrate cartridge 23; a proportioning unit 24 configured to be able to mix the concentrate with the treated water in a prescribed mixing ratio as required; and an ETRF 25 disposed before the dialysate distribution loop 7 and configured to enable enhanced hygiene control. Preferably, the dialysate preparation unit 2 comprises all the components described above.

According to an exemplary embodiment of the invention, the heating module further comprises any one or more of: a heat exchanger 201 configured to be able to exchange heat from the spent dialysate in the drain line 202 to the treated water (the drain line 202 is shown in dashed lines in fig. 1); a pre-heater 203 configured to heat the treated water to a predetermined temperature, such as about 35 degrees celsius, before the treated water enters the degassing module 21; and a flow heater 204 mounted at an end of the dialysate distribution loop 7 and configured to maintain dialysate in the dialysate distribution loop 7 at a predetermined temperature, for example, about 35 degrees celsius. Preferably, the heating module comprises all the components described above.

The heat exchanger 201 allows waste heat to be recovered from the spent dialysate, thereby improving the energy efficiency of the overall system.

The pre-heater 203 is disposed downstream of the heat exchanger 201 such that the pre-heater 203 can be controlled based on the temperature of the treated water after being heated by the heat exchanger 201. In addition, pre-heater 203 is disposed upstream of degasser module 21 to facilitate controlling the temperature of the treated water to more efficiently remove air from the treated water.

As can also be seen in fig. 1, the water flows through the degassing module 21 and then into the proportioning unit 24. The concentrate preparation module 22 is fluidly connected to the proportioning unit 24 to provide the prepared liquid concentrate to the proportioning unit 24.

As mentioned above, the liquid concentrate is prepared from at least one dry powder cartridge, so that the labor and space required for handling and storage can be saved.

In an alternative embodiment, the concentrate may be provided in liquid form directly from a concentrate container or Central supply System (CDS). In the case of this embodiment, the concentrate preparation module 22 may be omitted.

According to an exemplary embodiment of the invention, the amount of dialysate to be produced by the proportioning unit 24 may be based on signal feedback from the respective patient module 5.

According to an exemplary embodiment of the invention, a flow pump 26 may be provided in the dialysate distribution loop 7 to generate a high-speed circulating flow and a holding pressure for loading fresh dialysate into the dialysate module 3. The holding pressure makes it possible to dispense with a drive in the dialysate module 3 for driving the flow of fresh dialysate.

The dialysate distribution circuit 7 can be custom installed either on site or pre-installed in pre-fabricated boxes, making the installation process simple and fast.

As further shown in fig. 1, a sterilant tank 27 is fluidly connected to the proportioning unit 24 such that chemical sterilant stored in the sterilant tank 27 may be supplied to the proportioning unit 24 as needed for system sterilization.

According to an exemplary embodiment of the present invention, the dialysate preparation unit 2 is configured as a central station to monitor and/or control dialysate preparation parameters of the centrally controlled multi-patient dialysis treatment system 1 and/or treatment states of those patient modules connected in the centrally controlled multi-patient dialysis treatment system 1. The central station comprises a central monitoring display by means of which not only the dialysate preparation unit 2 can be controlled, but also all treatments in progress can be monitored.

According to an exemplary embodiment of the invention, the dialysate preparation unit 2 is constructed in a cabinet-shaped form (which is shown in fig. 6 below).

According to an exemplary embodiment of the invention, the dialysate module 3 is in fluid communication with a dialysate distribution loop 7 for distributing dialysate to the respective patient module 5, wherein the dialysate module 3 may comprise any one or more of the following: a dialysis temperature control module 31 configured to control a dialysate temperature of a dialysate flow, and a balancing system 32 configured to control ultrafiltration in a dialysis treatment using an Ultrafiltration (UF) pump 33, the ultrafiltration pump further configured to control an ultrafiltration volume in the dialysis treatment. Preferably, the dialysate module 3 comprises all the components described above.

According to an exemplary embodiment of the present invention, the dialysis temperature control module 31 further comprises a dialysate heater arranged before the equilibration system 32 and configured to be able to heat the dialysate to a prescribed treatment temperature and/or configured for heat disinfection, in particular independently of heat disinfection by reverse osmosis water through a separate treated water loop.

According to an exemplary embodiment of the present invention, the dialysate module 3 further comprises a backflow preventer 34 for preventing backflow contamination towards the dialysate distribution loop 7. Preferably, a backflow preventer 34 is provided in the dialysate input flow path of the dialysate module 3.

According to an exemplary embodiment of the present invention, the backflow preventer 34 is in fluid communication with the dialysate distribution loop with reliable backflow isolation measures.

According to an exemplary embodiment of the invention, the dialysate module 3 further comprises a pressure regulator 35 for maintaining a desired stable loading pressure in the input path towards the balancing system. Preferably, a pressure regulator 35 is provided downstream of the backflow preventer 34. Such a solution makes it possible to dispense with a flow pump for loading fresh dialysis fluid into the balancing chamber of the balancing system 32, so that a simplified design is possible.

According to an exemplary embodiment of the present invention, the dialysate module 3 is detachably connected to the dialysate distribution loop 7 by means of connectors, which will further simplify the installation and maintenance process.

In dialysis treatment, blood of the patient 6 flows between the dialyzer 4 and the patient 6 via the tube set. The flow path for extracorporeal blood flow thus comprises the dialyzer 4 and the tube set.

According to an exemplary embodiment of the invention, as shown in fig. 1, the patient module 5 comprises an extracorporeal circuit 51. In the present embodiment, the dialyzer 4 is attached to the patient module 5. The dialysate ports of the dialyzer 4 are connected to the dialysate module via a pair of dialysate lines. Fig. 2 shows such an exemplary embodiment.

As further shown in fig. 2, the patient module 5 further comprises a user interface 52, preferably a touch screen, for controlling/setting the respective dialysis treatment.

According to an exemplary embodiment of the present invention, the touch screen is implemented with a graphical user interface to more easily control/set the respective dialysis treatment.

According to an exemplary embodiment of the invention, the patient module 5 is configured as a compact device. The compact apparatus may be configured to be adapted to be retained on a retractable wall mounting structure or a movable bracket. Such a design allows it to be closer to the patient 6, thereby reducing the blood line length.

According to an exemplary embodiment of the invention, the patient module 5 has a built-in battery backup to prevent power loss.

The patient module 5 is not in contact with the dialysis fluid, except for the dialyzer 4, so no disinfection is required and only hygienic wiping is sufficient between two uses.

To enhance the hygiene control, the dialysate distribution loop 7 and the connections to the dialysate module 3 should be as short as possible. Thus, the dialysate preparation unit 2 is maintained with the ability to service and operate multiple dialysis machines. A typical length of the dialysate distribution loop 7 with the ability to treat 8 patients is about 15 meters. The ETRF 25 is used in parallel with high-throughput dialysis treatment. A defective dialysate module 3 can be easily exchanged for another module to minimize downtime. If the centrally controlled multi-patient dialysis treatment system 1 has been operated for a long time with little or no consumption of dialysis fluid, the dialysis fluid in the hydraulic path will be renewed in a predetermined manner.

According to an exemplary embodiment of the present invention, as shown in fig. 1, the centrally controlled multi-patient dialysis treatment system 1 further comprises a water treatment unit 8 configured to be able to supply treated water to the dialysate preparation unit 2.

According to an exemplary embodiment of the present invention, the water treatment unit 8 may be integrated with the centrally controlled multi-patient dialysis treatment system 1, preferably with the dialysate preparation unit 2.

Fig. 3 schematically shows in a schematic diagram a centrally controlled multi-patient dialysis treatment system according to another exemplary embodiment of the invention, which is similar to fig. 1, but the dialyzer 4 is preferably attached to the dialysate module 3 by inserting the inlet and outlet ports of the dialyzer into respective receiver or dialysate lines.

This design eliminates the dialysate lines connected to the dialyzer 4, which not only improves the efficiency of operation, but further improves the hygiene control. As the volume of fluid decreases and heat loss decreases, the temperature control and heat disinfection process may be more efficient.

Fig. 4 schematically shows in a schematic diagram a centrally controlled multi-patient dialysis treatment system according to yet another exemplary embodiment of the present invention, which is similar to fig. 1 and 3, but the dialysate modules and the respective patient modules are integrated into a compact bedside machine 9.

Fig. 5 schematically shows in a schematic diagram only a part of a centrally controlled multi-patient dialysis treatment system according to another exemplary embodiment of the present invention. As shown in fig. 5, the centrally controlled multi-patient dialysis treatment system 1 further comprises an additional loop 10 configured to be able to supply treated water to the dialysate module 3 such that the dialysate module 3 can be flushed and/or sterilized separately. Preferably, the additional loop 10 extends parallel to the dialysate distribution loop 7.

Furthermore, the dialysate module 3 can draw in chemical disinfectant via a disinfectant port or a built-in refillable disinfectant cartridge. An internal heater may be provided to heat the fluid in the hydraulic path to a temperature required for the sterilization process.

According to an exemplary embodiment of the present invention, the centrally controlled multi-patient dialysis treatment system 1 may be configured as shown in fig. 6. As shown in fig. 6, the centrally controlled multi-patient dialysis treatment system 1 is an all-in-one dialysis treatment system from a reverse osmosis filter to a bedside treatment device. The system can treat multiple patients via connected therapy modules. By integrating some of the core functional hydraulic components of the dialysis machine into the central unit, a compact therapeutic module can be realized at low cost. In addition to cost savings, it also has a high space utilization efficiency compared to a traditional central dialysis infrastructure. Furthermore, the centrally controlled multi-patient dialysis treatment system 1 is reliable and easy to arrange.

While certain embodiments have been described, these embodiments have been presented by way of example only, and are not intended to limit the scope of the invention. The appended claims and their equivalents are intended to cover all such modifications, alterations, and changes as fall within the true scope and spirit of the invention.