JP5452548B2 - Blood purification system - Google Patents

Description

  The present invention provides blood comprising a plurality of blood purification means to which a blood purification device for performing blood purification treatment on a patient is attached, and supply means capable of supplying dialysate or dialysate stock solution to each of the blood purification means. It relates to a purification system.

  In general, a blood purification system has a dialysate supply device installed in a machine room at a medical site such as a hospital, and a dialysis monitoring device installed in a dialysis room (treatment room), which is a separate place. The dialysate supply device and the monitoring device for dialysis are connected by a pipe. The dialysis fluid supply device is a device that supplies purified water to produce a predetermined concentration of dialysis fluid, while the dialysis monitoring device corresponds to the number of blood purifiers (dialyzers) for dialysis treatment for patients. A plurality of dialysate prepared by a dialysate supply device are introduced through a pipe and supplied to a blood purifier.

  That is, the dialysis fluid supply device installed in the machine room is distributed to a plurality of dialysis monitoring devices installed in the dialysis chamber, and the dialysis fluid is sent, and the dialysis fluid is supplied to the dialyzer in each. It is. The blood purification system that distributes the dialysate prepared in the machine room to each monitoring device for dialysis is usually referred to as “central system for dialysis treatment”, while each blood purifier (ie, dialysis treatment patient's Those that can produce a dialysate in each case) are usually referred to as “personal dialysers”.

  However, conventionally, the dialysate supply device and each monitoring device for dialysis are electrically connected to each other from the dialysate supply device (supply means) during the dialysis treatment process, the pipe washing process, or the disinfection process. A device that transmits an electrical signal (process signal) to each dialysis monitoring device (blood purification means) has been proposed (for example, see Patent Document 1). Thus, when each dialysis monitoring device receives a predetermined electrical signal (process signal), an operation (such as driving a pump or opening / closing a solenoid valve) according to the signal is performed.

JP 2004-16412 A

However, the conventional blood purification system has the following problems.
That is, in a medical field such as a hospital, a large number of monitoring devices for dialysis (blood purification means) are usually installed so that the maximum number of patients expected can be accepted. In the conventional blood purification system, an electrical signal is transmitted from the dialysate supply device (supply means) to each monitoring device for dialysis to perform uniform operation. Therefore, there is a problem that it is difficult to cause the monitoring device or the dialysate supply device to operate according to the operation status of the monitoring device. This problem is the same when the blood purification means is a personal dialyzer.

  The present invention has been made in view of such circumstances, and it is an object of the present invention to provide a blood purification system capable of operating the blood purification means or the supply means in accordance with the operating status of the blood purification means.

The invention according to claim 1 is a plurality of blood purification means to which a blood purification device for performing blood purification treatment on a patient is attached, and dialysate, dialysate undiluted solution, clean water or disinfectant solution is added to each of the blood purification means. supply means capable of supplying the blood purification system provided with the input and capable of storing management means the patient treatment schedule, the treatment schedule, the blood purification means each is information relating to the operating conditions of the blood purification means Of blood purification treatment, the treatment start time and end time, or treatment time, and the treatment schedule can be transmitted from the management means to the blood purification means or supply means. It said blood purification means or supplying means based on the schedule is configured such that the can operate to determine individually, and, the blood purification means It is possible to individually determine the presence or absence of operation from the transmitted treatment schedule, and it is possible to maintain the power-on state or shut off the power supply according to the determined presence or absence of operation, or to operate from the transmitted treatment schedule. The presence or absence and the degree of operation are individually determined, and the cleaning or disinfection time can be changed according to the determined presence or absence of operation and the degree of operation, and the supply means starts treatment from the transmitted treatment schedule The time is determined, and the dialysate stock solution or dialysate preparation start time can be changed according to the determined treatment start time .

According to a second aspect of the invention, in claim 1 Symbol placement of blood purification system, said supply means includes a dialysate supplying device capable of producing a dialysate of a predetermined concentration using clean water and dialysate concentrate In addition, the blood purification means includes a monitoring device that supplies the dialysate supplied from the dialysate supply device to the blood purifier.

According to a third aspect of the invention, in claim 1 Symbol placement of blood purification system, the supply means may consists a water treatment device capable of producing a clean water, the blood purification means, said water treatment apparatus A dialysis solution having a predetermined concentration is prepared using the clean water supplied from and supplied to the blood purifier.

Invention of claim 4, in claim 1 Symbol placement of blood purification system, said supply means, a predetermined concentration using clean water which may be water processor manufactured, and the clean water that is produced by the water treatment device The blood purification means prepares a dialysate of a predetermined concentration using the dialysate stock solution and clean water supplied from the dissolver and the water treatment device. And a personal dialyzer that supplies the blood purifier.

The invention according to claim 5 is the blood purification system according to any one of claims 1 to 4 , characterized in that the management means and the supply means or the blood purification means are capable of bidirectional communication. And

According to the first aspect of the present invention, the treatment schedule can be transmitted from the management means to the blood purification means or the supply means, and the blood purification means or the supply means are individually determined based on the treatment schedule and operated. Therefore, the operation of the blood purification means or the supply means can be performed according to the operating status of the blood purification means.

Furthermore, the treatment schedule, whether or frequency of blood purification treatment of each blood purification means which is information relating to the operating conditions of the blood purification means, the treatment start time and end time, since the treatment time or during et al, more accurately blood purification The blood purification means or the supply means can be operated according to the operation status of the means.

In addition , a treatment schedule is transmitted from the management means to the blood purification means, and the blood purification means can be turned on / off of the blood purification means according to the transmitted treatment schedule. Power consumption can be suppressed, and running costs can be reduced.

Further , the treatment schedule is transmitted from the management means to the blood purification means, and the blood purification means can change the cleaning or disinfection time according to the transmitted treatment schedule. Consumption can be suppressed and running cost can be reduced.

Furthermore , the treatment schedule is transmitted from the management means to the supply means, and the supply means can change the production start time of the dialysate stock solution or dialysate according to the transmitted treatment schedule. A dialysate stock solution or dialysate can be prepared immediately before the start of treatment, and the composition of the dialysate stock solution or dialysate can be stabilized.

According to the invention of claim 2 , the supply means has a dialysate supply device capable of producing a predetermined concentration of dialysate using clean water and dialysate stock solution, and the blood purification means includes the dialysate Since it consists of a monitoring device that supplies the dialysate supplied from the supply device to the blood purifier, it can be applied to a central system.

According to the invention of claim 3 , the supply means has a water treatment device capable of producing clean water, and the blood purification means uses a clean water supplied from the water treatment device to dialyze with a predetermined concentration. Since it consists of a personal dialysis device that produces a liquid and supplies it to a blood purifier, it can be applied to a blood purification system having the personal dialysis device.

According to the invention of claim 4 , the supply means includes a water treatment apparatus capable of producing clean water, and a dissolution apparatus capable of producing a dialysate stock solution having a predetermined concentration using the clean water produced by the water treatment apparatus. The blood purification means is a personal dialysis apparatus for preparing a dialysate having a predetermined concentration using the dialysate stock solution and clean water supplied from the dissolution apparatus and the water treatment apparatus and supplying the dialysate to the blood purifier. Therefore, it can be applied to a blood purification system having the personal dialysis device.

According to the invention of claim 5 , since the management means and the supply means or the blood purification means can communicate bidirectionally, various information can be communicated between the management means and the supply means or the blood purification means. More appropriate and safer blood purification treatment can be performed.

1 is an overall schematic diagram showing a blood purification system according to an embodiment of the present invention. Schematic diagram showing the configuration of the monitoring device in the blood purification system Overall schematic view showing a blood purification system according to another embodiment of the present invention. Overall schematic view showing a blood purification system according to another embodiment of the present invention.

Hereinafter, embodiments of the present invention will be specifically described with reference to the drawings.
The blood purification system according to the present embodiment is for preparing a dialysate having a predetermined concentration from a dialysate stock solution and supplying the dialysate to a plurality of dialysis monitoring devices, as shown in FIG. A plurality of monitoring devices 1 installed in a dialysis room A (treatment room) in a medical site such as a hospital, and a dialysate supply device 2 installed in a machine room B which is a place different from the dialysis room A in the medical site; It is mainly composed of a dissolving device 3 and a water treatment device 4 and a central monitoring system P installed in a management room or the like for office work management.

  The monitoring device 1 (blood purification means) is provided with a dialyzer 5 (blood purifier) for performing blood purification treatment (hemodialysis treatment) on the patient, and the dialyzate supplied from the dialysate supply device 2 is used as the dialyzer 5. A plurality of dialysis rooms A are installed. The monitoring device 1 is provided with a touch panel 1a capable of giving instructions and predetermined display of hemodialysis treatment and other control contents (washing or disinfection).

  More specifically, each of the plurality of monitoring devices 1 installed in the dialysis chamber A has a pipe L1 extending from the dialysate supply device 2 as shown in FIG. A pipe L2 connected to the means is provided, and a duplex pump 12 is arranged across the pipes L1 and L2. Among these, the pipe L1 in the monitoring device 1 has a flow rate detection sensor 7 for detecting the flow rate of the liquid flowing through the pipe L1, a hydraulic pressure detection sensor 8 for detecting the supply pressure of the liquid, and the electrical conductivity of the liquid ( A conductivity detection sensor 9 for detecting (concentration) is provided.

  Further, a dialysate introduction line L4 communicated with the pipe L1 and a dialysate discharge line L5 communicated with the pipe L2 are extended from the duplex pump 12, and the distal end of the dialysate introduction line L4 via the coupler C is extended. Can be connected to the dialysate inlet 5a of the dialyzer 5, and the tip of the dialysate discharge line L5 can be connected to the dialysate outlet 5b of the dialyzer 5 via the coupler C. In this way, each monitoring device 1 is provided with a dialyzer 5 corresponding to the patient, and the dialyzer 5 is connected to a blood circuit 6 for circulating the patient's blood extracorporeally. .

  The pump chamber of the dual pump 12 is separated by a single plunger (not shown) into a liquid feeding side pump chamber connected to the pipe L1 and a discharge side pump chamber connected to the pipe L2. By reciprocating, the dialysate or the washing solution sent to the liquid feeding side pump chamber is supplied to the dialyzer 5 and the dialysate in the dialyzer 5 is sucked into the discharge side pump chamber. Furthermore, a pipe L3 that connects the pipe L2 and the dialysate discharge line L5 while bypassing the duplex pump 12 is formed in the monitoring device 1, and a water removal pump 13 is disposed in the middle of the pipe L3. ing. By driving the water removal pump 13, it is possible to remove water from the blood of the patient flowing through the dialyzer 5.

  Instead of the dual pump 12, a so-called chamber type may be used, and sensors such as the flow rate detection sensor 7, the fluid pressure detection sensor 8, or the conductivity detection sensor 9 may be arranged arbitrarily. You may make it add well or another general purpose thing. Furthermore, in the present embodiment, the sensors are arranged in the pipe L1, but may be arranged in another pipe (for example, the pipe L2). For example, sensors such as the flow rate detection sensor 7, the fluid pressure detection sensor 8, or the conductivity detection sensor 9 may be provided on either or both of the pipe L1 and the pipe L2.

  The water treatment device 4 is provided with a module (purification filter) having a filter membrane or the like inside, for purifying raw water to obtain clean water (RO water), and is a dissolving device via a pipe L8. 3 is configured to be able to supply clean water to the dissolving device 3 and to be connected to the dialysate supply device 2 via pipes L6 and L7 so as to be able to supply clean water to the dialysate supply device 2. ing. The clean water obtained by the water treatment device 4 is used when preparing the dialysate in the dialysate supply device 2 or as wash water for cleaning the dialysate supply device 2 and the piping of the monitoring device 1. Is also used. The water treatment device 4 may be connected to a personal dialysis device (not shown), a dissolution device that dissolves a powdered dialysis drug, or the like, and clean water may be supplied thereto.

  Further, the water treatment apparatus 4 is provided with a touch panel 4a capable of giving instructions and predetermined display of control contents related to water treatment, and an interface unit 16 electrically connected to a LAN cable β described later and the control. Part 17 is provided. When the interface unit 16 receives predetermined information from the dialysate supply device 2 or the central monitoring system P (management means), a predetermined operation (preparation of clean water, etc.) by the control unit 17 is performed based on the information. To be done.

  For example, a predetermined amount of the dialysis powder drug is introduced into the dissolution apparatus 3, and the dialysis powder drug and clean water supplied from the water treatment device 4 are mixed (mixed) to obtain a dialysis solution having a predetermined concentration. This is for preparing a stock solution. The dissolving device 3 is provided with a touch panel 3a capable of performing an instruction and predetermined display of control contents relating to the preparation of the dialysate stock solution, and an interface unit 18 electrically connected to a LAN cable β described later and the control. Part 19 is provided. When the interface unit 18 receives predetermined information from the dialysate supply device 2 or the central monitoring system P (management means), the control unit 19 performs a predetermined operation (preparation of dialysate stock solution, etc.) based on the information. Is to be done. The dissolving device 3 is connected to the dialysate supply device 2 via a pipe L6, and is configured to be able to supply the prepared dialysate stock solution to the dialysate supply device 2.

  Thus, the dialysate supply device 2, the dissolution device 3, the water treatment device 4, and the central monitoring system P (management means) are connected by a LAN (local area network: local communication network), and bidirectional information Communication is possible. Such a LAN is not limited to the one using the LAN cable β (wired) as in the present embodiment, but may be one that can communicate bidirectional information wirelessly (wireless LAN). In addition, it is good also as what can transmit an electrical signal (process signal) unilaterally with respect to the melt | dissolution apparatus 3 and the water treatment apparatus 4 from the dialysate supply apparatus 2 instead of the said LAN.

  The dialysate supply device 2 (supply means) can prepare a dialysate having a predetermined concentration using the clean water obtained by the water treatment device 4 and the dialysate stock solution prepared by the dissolution device 3, and the monitoring device 1 ( The dialysis solution prepared for each of the blood purification means) can be supplied. That is, the dialysate supply device 2 is connected to each of the plurality of monitoring devices 1 via the piping L1, and desired monitoring fluid 1 such as dialysate, washing water, and disinfecting solution is connected to each of the monitoring devices 1 via the piping L1. The liquid can be supplied. In addition, the dialysate supply device 2 is provided with a touch panel 2a capable of giving an instruction and a predetermined display of control contents related to dialysate supply, cleaning, or disinfection.

  The central monitoring system P (management means) includes a computer having input means (for example, a keyboard) capable of inputting a patient treatment schedule and storage means (for example, memory) capable of storing the inputted treatment schedule. It consists of The treatment schedule input and stored in the central monitoring system P includes the presence or frequency of hemodialysis treatment (blood purification treatment) for each monitoring device 1 (blood purification means), treatment start time and end time, treatment time, etc. It consists of information related to the operating status of the monitoring device 1.

  More specifically, the central monitoring system P allows the operator to input and store reservation contents for the blood purification treatment, reservation changes (treatment start time and end time), treatment time required for the patient, and the like. The appointment management system is also used, and a treatment schedule for a predetermined day can be set based on the stored information. And blood purification treatment is performed smoothly by operating the monitoring apparatus 1 based on the treatment schedule set in this way.

  Here, in the blood purification system according to the present embodiment, the central monitoring system P and each monitoring device 1 (blood purification means) and dialysate supply device 2 (supply means) are connected to each other via a LAN (local area network: on-site communication). Network), and bidirectional communication of information is possible. That is, the central monitoring system P and the respective monitoring devices 1, the central monitoring system P and the dialysate supply device 2, and the respective monitoring devices 1 and the dialysate supply device 2 are connected by the LAN cable α, and the information Communication is possible with each other.

  In the present embodiment, the central monitoring system P, the dissolution apparatus 3 and the water treatment apparatus 4 are connected via a LAN (local area network: local area communication network), and bidirectional information communication is possible. Has been. That is, the central monitoring system P is connected to the monitoring device 1 and the dialysate supply device 2 via the LAN cable α, and also connected to the dissolving device 3 and the water treatment device 4 via the LAN cable β. Thus, information can be communicated with each other.

  Thereby, in this blood purification system, it is supposed that a treatment schedule can be transmitted from the central monitoring system P to the monitoring device 1 or the dialysate supply device 2, and based on the treatment schedule, the monitoring device 1 or the dialysate supply device 2 is operable. Moreover, in this embodiment, since it is comprised so that the treatment schedule can be transmitted to each of the some monitoring apparatus 1 from the central monitoring system P, each monitoring apparatus 1 can be operated according to the said treatment schedule. It is configured as follows.

  That is, the central monitoring system P, the dialysate supply device 2, and each of the monitoring devices 1 are connected to each other via a LAN cable α, and the dialysate supply device 2 is connected to the LAN cable α. An interface unit 14 and a control unit 15 for communicating with the central monitoring system P and the monitoring device 1 are arranged via the LAN cable α, respectively. An interface unit 10 and a control unit 11 (see FIG. 2) for communicating with the dialysate supply device 2 are arranged. Such a LAN is not limited to the one using the LAN cable α (wired) as in the present embodiment, but may be one that can communicate bidirectional information wirelessly (wireless LAN).

  In the dialysate supply device 2, when the interface unit 14 receives predetermined information from the central monitoring system P or the monitoring device 1, a predetermined operation (production of dialysate, etc.) by the control unit 15 based on the information. In addition, predetermined information can be transmitted to the central monitoring system P and the monitoring device 1 via the interface unit 14. In the monitoring device 1, when the interface unit 10 receives predetermined information from the central monitoring system P or the dialysate supply device 2, the control unit 11 performs predetermined operations (priming, blood before treatment) based on the information. Dialysis treatment, blood return, washing / disinfection, etc.) are performed, and predetermined information can be transmitted to the central monitoring system P and the dialysate supply device 2 via the interface unit 10.

  In particular, in the present embodiment, a treatment schedule (strictly, information including a treatment schedule) held by the central monitoring system P can be transmitted from the central monitoring system P to each monitoring device 1 or dialysate supply device 2. Each of the monitoring devices 1 or the dialysate supply device 2 is configured to operate based on the treatment schedule transmitted from the central monitoring system P. A specific configuration will be described below.

  In the present embodiment, a treatment schedule is transmitted from the central monitoring system P to the monitoring device 1, and the monitoring device 1 switches on / off the power of the monitoring device 1 according to the transmitted treatment schedule. It is possible. That is, referring to the treatment schedule, it is possible to determine which one of the monitoring devices 1 is active and what is not, so whether each monitoring device 1 is operated based on the treatment schedule in the control means 11 or not. When operating, the power supply is kept on and the normal treatment process is performed. If not, the power supply is turned off and the power supply is automatically shut off. is there.

  In this case, a treatment schedule is transmitted from the central monitoring system P to the monitoring device 1, and the monitoring device 1 determines the operation status according to the transmitted treatment schedule and turns on / off the power of the monitoring device 1. Since it can be switched off, power consumption can be suppressed and running costs can be reduced. In addition, according to the present embodiment, each monitoring device 1 determines the operating status and automatically turns on / off the power, so that the worker manually turns on / off the power according to the operating status. Compared with this, workability can be greatly improved.

  In the present embodiment, a treatment schedule is transmitted from the central monitoring system P to the monitoring device 1, and the monitoring device 1 can change the cleaning or disinfection time according to the transmitted treatment schedule. Yes. That is, by referring to the treatment schedule, it is possible to determine which of the monitoring devices 1 are active or not, and the degree of operation, so that each monitoring device 1 is operated by the control means 11 based on the treatment schedule. When the situation is determined and the operation is performed or the operation is performed frequently, the cleaning or disinfection time is set long, and when the operation is not performed or the operation is small, the cleaning or disinfection time can be set short.

  In this case, the treatment schedule is transmitted from the central monitoring system P to the monitoring device 1, and the monitoring device 1 can change the cleaning or disinfection time by determining the operation status according to the transmitted treatment schedule. Therefore, consumption of washing water or disinfectant can be suppressed, and running cost can be reduced. Further, according to the present embodiment, each monitoring device 1 determines the operation status and automatically sets the cleaning or disinfection time, so that the worker manually sets the cleaning or disinfection time according to the operation status. Compared with this, workability can be greatly improved.

  Further, in the present embodiment, a treatment schedule is transmitted from the central monitoring system P to the dialysate supply device 2, and the dialysate supply device 2 starts producing a dialysate stock solution according to the transmitted treatment schedule. The time can be changed. That is, referring to the treatment schedule, the treatment start time (operation start time) by the monitoring device 1 can be determined, so that the dialysate supply device 2 determines the operation start time based on the treatment schedule in the control means 15. The dissolution apparatus 3 and the water treatment apparatus 4 can be instructed to prepare a dialysate stock solution immediately before that time.

  In this case, the treatment schedule is transmitted from the central monitoring system P to the dialysate supply device 2, and the dialysate supply device 2 determines the operation start time according to the transmitted treatment schedule and determines the dialysate stock solution. Since the preparation start time can be changed, the dialysate stock solution can be prepared immediately before the start of dialysis treatment, and the composition of the dialysate stock solution can be stabilized. That is, if the dialysate stock solution is prepared immediately before the start of dialysis treatment, the time until the treatment starts after the dialysate stock solution is prepared can be shortened, and the composition of the dialysate stock solution can be reduced. It is possible to suppress the change.

  In addition, the dialysate supply apparatus 2 is good also as what can discriminate | determine an operation start time according to the treatment schedule transmitted from the central monitoring system P, and can change the preparation start time of a dialysate. Even in this case, the dialysate can be prepared immediately before the start of dialysis treatment, and the composition of the dialysate can be stabilized. That is, if the dialysate is prepared immediately before the start of dialysis treatment, the time until the treatment is started after the dialysate is prepared can be shortened, and the composition of the dialysate changes. It can be suppressed.

  According to the above embodiment, the treatment schedule can be transmitted from the central monitoring system P to the monitoring device 1 or the dialysate supply device 2, and the monitoring device 1 or the dialysate supply device 2 operates based on the treatment schedule. Therefore, the monitoring device 1 or the dialysate supply device 2 can be operated in accordance with the operating status of the monitoring device 1. In particular, in the present embodiment, since each monitoring device 1 or dialysate supply device 2 performs an operation by individually determining based on the transmitted treatment schedule, safety can be further improved. it can.

  Moreover, since the treatment schedule includes information related to the operation status of the blood purification means, such as the presence / absence or frequency of blood purification treatment for each monitoring device 1, treatment start time and end time, treatment time, and the like, the monitoring device 1 is more accurate. The operation of the monitoring device 1 or the dialysate supply device 2 can be performed in accordance with the operation status of. In addition to the treatment schedule held by the central monitoring system P, other information held by the central monitoring system P may be transmitted to the monitoring device 1 or the dialysate supply device 2.

  Furthermore, according to the present embodiment, the supply means includes the dialysate supply apparatus 2 capable of producing a predetermined concentration of dialysate using clean water and dialysate stock solution, and the blood purification means includes the dialysate supply apparatus. Since it consists of the monitoring apparatus 1 which supplies the dialysate supplied from 2 to the dialyzer 5 (blood purifier), it can be applied to a central system. Further, since the central monitoring system P and the monitoring device 1 or the dialysate supply device 2 can communicate bidirectionally, various information can be exchanged between the central monitoring system P, the monitoring device 1 and the dialysate supply device 2. Can be communicated, and more appropriate and safe blood purification treatment can be performed.

  The blood purification system according to the present embodiment has been described above. However, the present invention is not limited to this, and for example, instead of the central system as described above, as shown in FIG. The blood purification device has a water treatment device 4 capable of producing clean water, and the blood purification means prepares a dialysate having a predetermined concentration using the clean water supplied from the water treatment device 4, and dialyzer 5 (blood purification) You may apply to what consists of the personal dialysis machine 20 supplied to a container. In this case, the personal dialysis machine 20 includes a tank T1 that stores a dialysate stock solution or a disinfectant solution, and is connected to the water treatment device 4 by a pipe L9 and is supplied with clean water sent from the water treatment device 4. The dialysate stock solution in the tank T1 can be used to prepare a dialysate having a predetermined concentration or a diluted disinfectant solution.

  That is, in the embodiment shown in FIG. 1, the supply means is configured by the dialysate supply device 2 (including the dissolving device 3 and the water treatment device 4) capable of supplying dialysate to each of the monitoring devices 1. However, the blood purification means may have a dialyzer 5 (blood purifier) and may be a blood purification system including a personal dialyzer 20 capable of producing dialysate from the dialysate stock solution in the tank T1.

  Further, for example, instead of the central system as described above, as shown in FIG. 4, the supply means supplies the water treatment device 4 capable of producing clean water and the clean water produced by the water treatment device 4. The blood purifying means has a predetermined concentration using the dialysate stock solution and clean water supplied from the dissolution device 3 and the water treatment device 4. You may apply to what consists of the personal dialyzer 21 which produces the dialysate of a density | concentration and supplies to the dialyzer 5 (blood purifier). In this case, the personal dialysis apparatus 21 includes a tank T2 that contains a disinfectant solution, and is connected to the dissolution apparatus 3 and the water treatment apparatus 4 by pipes L10 and L11, respectively. The dialysis fluid having a predetermined concentration can be produced using the dialysis fluid stock solution and the clean water fed from the above, or a diluted disinfectant solution can be produced.

  That is, in the embodiment shown in FIG. 1, the supply means is configured by the dialysate supply device 2 (including the dissolving device 3 and the water treatment device 4) capable of supplying dialysate to each of the monitoring devices 1. However, a blood purification system comprising a personal dialysis device 21 having a dialyzer 5 (blood purifier) as a blood purification means and capable of producing a dialysate from a dialysate stock solution and clean water sent from the supply means side. It's good.

  In the present embodiment, the central monitoring system P, the monitoring device 1 and the dialysate supply device 2 are connected to each other via a LAN and can communicate bidirectionally. It is sufficient that the treatment schedule can be transmitted from the central monitoring system P, and the treatment schedule may be unilaterally transmitted from the central monitoring system P to the monitoring device 1 or the dialysate supply device 2. In addition, in this embodiment, although it is set as the system which performs a hemodialysis treatment, you may make it apply to the blood purification system which performs another blood purification treatment.

Treatment schedule, whether or frequency of blood purification treatment of each said blood purification means which is information relating to the health of blood purification means, the treatment start time and end time, or together consist treatment time, blood purification means or feed means It is assumed that the treatment schedule can be transmitted from the management means to the blood purification means or the supply means can be individually operated based on the treatment schedule , and the blood purification means is transmitted. It is possible to individually determine whether or not there is an operation from the treatment schedule, and it is possible to maintain the power on state or shut off the power supply according to the determined operation or not, or whether or not to operate from the transmitted treatment schedule When it is possible to change the cleaning or disinfection time according to the determined presence / absence of operation and the degree of operation Moni, supply means, to determine the treatment start time from the transmitted treatment schedule, in undiluted dialysate or dialysate blood purification system manufacturing start time is changeable in response to the determination therapeutic start time If so, the present invention can also be applied to those to which other functions are added.

1 Monitoring device (blood purification means)
2 Dialysate supply device (supply means)
3 Dissolution device 4 Water treatment device 5 Dialyzer (blood purifier)
6 Blood circuit 7 Flow rate detection sensor 8 Fluid pressure detection sensor 9 Conductivity detection sensor 10 Interface unit 11 Control unit 12 Dual pump 13 Dewatering pump 14 Interface unit 15 Control unit 16 Interface unit 17 Control unit 18 Interface unit 19 Control unit P Center Monitoring system (management means)

Claims (5)

A plurality of blood purification means to which a blood purifier for performing blood purification treatment on a patient is attached;
Supply means capable of supplying dialysate, dialysate stock solution, clean water or disinfectant to each of the blood purification means;
A management means capable of inputting and storing the patient's treatment schedule;
In the blood purification system comprising
The treatment schedule, whether or frequency of blood purification treatment of each said blood purification means which is information relating to the operating conditions of the blood purification means, the treatment start time and end time, or together consist treatment time, the blood purification means or The treatment schedule can be transmitted from the management means to the supply means, and the blood purification means or the supply means can be individually determined and operated based on the treatment schedule , and
The blood purification means individually determines the presence or absence of operation from the transmitted treatment schedule, and it is possible to maintain the power on state or cut off the power supply according to the determined presence or absence of the operation, or to transmit It is possible to individually determine the presence or absence of operation and the degree of operation from the treatment schedule, and change the cleaning or disinfection time according to the determined presence or absence of operation and the degree of operation, and the supply means is transmitted A blood purification system characterized in that a treatment start time is discriminated from the treatment schedule and the preparation start time of the dialysate stock solution or dialysate can be changed according to the discriminated treatment start time . The supply means includes a dialysate supply apparatus capable of producing a dialysate having a predetermined concentration using clean water and a dialysate stock solution, and the blood purification means is a dialysis solution supplied from the dialysate supply apparatus. claim 1 Symbol placement blood purification system is characterized in that it consists of monitoring device for supplying liquid to the blood purifier. The supply means comprises a water treatment device capable of producing clean water, and the blood purification means produces a dialysate having a predetermined concentration using the clean water supplied from the water treatment device, claim 1 Symbol placement blood purification system is characterized in that it consists of a personal dialysis device for supplying the blood purifier. The supply means includes a water treatment device capable of producing clean water, and a dissolution device capable of producing a dialysate stock solution having a predetermined concentration using the clean water produced by the water treatment device, and the blood The purification means comprises a personal dialysis device that produces a predetermined concentration of dialysate using the dialysate stock solution and clean water supplied from the dissolution device and the water treatment device and supplies the dialysate to the blood purifier. claim 1 Symbol placement blood purification system is. The blood purification system according to any one of claims 1 to 4 , wherein the management unit and the supply unit or the blood purification unit are capable of bidirectional communication.

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