CN110354328B

CN110354328B - Peritoneal dialysis monitoring system

Info

Publication number: CN110354328B
Application number: CN201910713661.1A
Authority: CN
Inventors: 董丽娜
Original assignee: Peking University Shenzhen Hospital
Current assignee: Peking University Shenzhen Hospital
Priority date: 2019-08-02
Filing date: 2019-08-02
Publication date: 2021-07-30
Anticipated expiration: 2039-08-02
Also published as: CN110354328A

Abstract

The invention discloses a peritoneal dialysis monitoring system; the intelligent hand-held terminal is arranged at a nurse end and used for outputting an alarm when the peritoneal dialysis solution inflow amount flowing into the body of a patient monitored by the monitoring device A reaches a preset value or when the peritoneal dialysis solution outflow amount flowing out of the body of the patient monitored by the monitoring device B reaches a preset value and is constant for more than 2 minutes; the effect is as follows: when the peritoneal dialysis income liquid measure of drainage to patient's abdominal cavity reaches the default, medical personnel can export the warning promptly at the handheld terminal of intelligence in hand, reach the default or when invariable more than 2 minutes invariable when drawing forth the peritoneal dialysis income liquid measure outside patient's abdominal cavity, medical personnel also can export the warning at the handheld terminal of intelligence in hand, make the homoenergetic remind medical personnel in the very first time in time to go patient's department and do dialysis nursing on next step, make and save medical personnel and do the idle work, and can improve medical personnel work efficiency greatly and alleviate its fatigue.

Description

Peritoneal dialysis monitoring system

Technical Field

The invention relates to the technical field of peritoneal dialysis, in particular to a peritoneal dialysis monitoring system.

Background

Peritoneal Dialysis (PD) is a form of treatment for uremia patients, which is based on the principle of draining a new peritoneal dialysis solution to the abdominal cavity of a patient, allowing the dialysis solution to stay in the abdominal cavity of the patient for a period of time, and then draining the peritoneal dialysis solution drained to the abdominal cavity of the patient through the effects of permeation and dispersion, thereby achieving the effects of removing toxins in the body of the patient and correcting electrolytic acid hydrolysis balance.

The peritoneal dialysis modes which are most commonly used clinically at present are two modes of CAPD and IPD.

The liquid inflow amount is 1.5-2L each time, exchange is carried out 3-5 times every day, the retention time of the dialysate in the abdominal cavity of the patient is 4-6 hours in the daytime and 8-12 hours at night, and the continuous operation is the CAPD mode.

The liquid is added for 1-1.5L each time, the liquid is left for 0.5-1 hour, 8-10 cycles are carried out every day, and the IPD mode is obtained by the circulation.

Regardless of the mode, in the middle of clinical work every day, as nurses have few staff and work is busy, the patients cannot wait for the end of drainage all the time, so that the nurses constantly return to the patients to judge whether drainage is finished or not, and thus, the nurses can do a lot of useless work, so that manpower is wasted, and sometimes, when the drainage of the peritoneal dialysis liquid is finished, the nurses cannot find the new dialysate in the first time and fill the peritoneal cavity of the patients with the new dialysate in time, so that the drainage time is too long, the risk of adsorption of the omentum is increased, and the problems of unsmooth peritoneal dialysis drainage or drainage tube blockage and the like are easily caused;

moreover, for the IPD mode, the whole bag of dialysate is not filled every time, and the nurse has to wait for the completion of filling the dialysate at the patient, so that the nursing manpower resources are occupied, the amount of the dialysate filled can only be observed by naked eyes, so that the inaccuracy of the amount of the dialysate filled is inevitably caused, and if the nurse is distracted by other patients or other concerns, the amount of the dialysate filled is extremely easy to be too much, thereby causing adverse events.

Therefore, the existing problems remain to be solved.

Disclosure of Invention

The present invention is directed to a peritoneal dialysis monitoring system that overcomes the above-mentioned deficiencies of the prior art.

The technical scheme adopted by the invention for solving the problems in the prior art is as follows: a peritoneal dialysis monitoring system comprises a plurality of monitoring devices A used for correspondingly monitoring the peritoneal dialysis solution inflow amount flowing into different patient bodies, a plurality of monitoring devices B used for correspondingly monitoring the peritoneal dialysis solution outflow amount flowing out of different patient bodies, a cloud server and an intelligent handheld terminal which is arranged at a nurse end and used for outputting an alarm when the peritoneal dialysis solution inflow amount flowing into the patient body and monitored by any one of the monitoring devices A reaches a preset value or when the peritoneal dialysis solution outflow amount flowing out of the patient body and monitored by any one of the monitoring devices B reaches a preset value and is constant for more than 2 minutes;

the intelligent handheld terminal is in signal connection with the cloud server through a wireless network; the cloud server is in signal connection with the plurality of monitoring devices A and the plurality of monitoring devices B through a wireless network.

The above technical solution is further described as follows:

preferably, each monitoring device A comprises a peritoneal dialysis solution weighing device which is arranged at the peritoneal dialysis solution inlet end of a peritoneal dialysis machine used by a peritoneal dialysis patient and is used for weighing a peritoneal dialysis solution bag in real time, and a peritoneal dialysis solution inlet pipe clamp which can be automatically loosened/clamped and is clamped outside the peritoneal dialysis solution inlet pipeline; the peritoneal dialysis solution weighing device and the peritoneal dialysis solution inlet pipe clamp are respectively in signal connection with the cloud server through a wireless network;

when the peritoneal dialysis inflow amount flowing into the body of the peritoneal dialysis patient measured by the peritoneal dialysis solution weighing device reaches a preset value, a feedback signal A is generated, the feedback signal A is transmitted to the intelligent handheld terminal through the cloud server, the intelligent handheld terminal outputs an alarm signal A according to the feedback signal A, and the cloud server controls the peritoneal dialysis solution inflow pipe clamp to automatically clamp the peritoneal dialysis solution inflow pipeline so as to cut off the peritoneal dialysis solution flowing into the body of the peritoneal dialysis patient.

Preferably, the peritoneal dialysis solution weighing device is provided with a processing module A, a weighing module A for weighing the dialysis solution in the peritoneal dialysis solution bag, a display screen A for displaying the residual amount of the dialysis solution in the peritoneal dialysis solution bag, a wireless module A for connecting the cloud server and a power supply module A for supplying power to the processing module A;

the weighing module A, the display screen A, the wireless module A and the power supply module A are respectively connected with the processing module A.

Preferably, each monitoring device B comprises a peritoneal waste liquid weighing device which is arranged at the peritoneal dialysis liquid outlet end of a peritoneal dialysis machine used by a peritoneal dialysis patient and is used for weighing the peritoneal waste liquid bag in real time, and a peritoneal waste liquid outlet pipe clamp which can be automatically loosened/clamped and is clamped outside the peritoneal dialysis liquid outlet pipeline; the peritoneal waste liquid weighing device and the peritoneal waste liquid outlet pipe clamp are respectively in signal connection with the cloud server through a wireless network;

when the peritoneal dialysis solution amount flowing out of the body of the peritoneal dialysis patient measured by the peritoneal waste solution weighing device reaches a preset value or is constant for more than 2 minutes, a feedback signal B is generated, the feedback signal B is transmitted to the intelligent handheld terminal through the cloud server, the intelligent handheld terminal outputs an alarm signal B according to the feedback signal B, and the cloud server controls the peritoneal waste solution outlet pipe clamp to automatically clamp the peritoneal dialysis solution pipeline so as to cut off the peritoneal waste solution flowing out of the body of the peritoneal dialysis patient.

Preferably, the peritoneal waste liquid weighing device is provided with a processing module B, a weighing module B for weighing waste liquid in the peritoneal waste liquid bag, a display screen B for displaying the amount of the waste liquid in the peritoneal waste liquid bag, a wireless module B for connecting the cloud server and a power supply module B for supplying power to the processing module B;

the weighing module B, the display screen B, the wireless module B and the power supply module B are respectively connected with the processing module B.

Preferably, the wrist band also comprises a plurality of wrist bands which are worn on the wrists of different patients; the wrist belts are provided with two-dimensional codes A containing the current hospitalization information of the corresponding patients;

the peritoneal dialysis machines are respectively provided with a two-dimensional code B containing the current hospitalization information of the corresponding patient; the peritoneal dialysis solution weighing devices are respectively provided with a two-dimensional code C containing the current hospitalization information of the corresponding patient; the peritoneal waste liquid weighing devices are respectively provided with a two-dimensional code D containing the current hospitalization information of the corresponding patient;

the intelligent handheld terminal is provided with a main control module, a data storage module connected with the main control module and a two-dimensional code scanning module connected with the main control module;

the intelligent handheld terminal associates the wrist strap, the peritoneal dialysis machine, the peritoneal dialysis solution weighing machine and the peritoneal waste solution weighing machine used by the same patient through the two-dimensional code scanning module scanning the two-dimensional code A, the two-dimensional code B, the two-dimensional code C and the two-dimensional code D, and stores the associated comprehensive information in the data storage module.

Preferably, the intelligent handheld terminal is further provided with a display module for displaying the peritoneal dialysis solution inflow amount flowing into the body of the peritoneal dialysis patient and the peritoneal dialysis solution outflow amount flowing out of the body of the peritoneal dialysis patient; the display module is connected with the main control module.

Preferably, the current hospitalization information of the patient at least comprises the name, the sex, the ward number and the sickbed number of the patient.

Preferably, the current hospitalization information of the patient further comprises the identification number of the patient and the floor number of the department.

Preferably, the system further comprises a printer used for printing daily peritoneal dialysis information of different patients; the printer is in signal connection with the cloud server.

The invention has the beneficial effects that:

firstly, when the peritoneal dialysis monitoring system provided by the invention is implemented specifically, on one hand, when the peritoneal dialysis inflow amount drained to the abdominal cavity of a patient reaches a preset value, the intelligent handheld terminal held by a medical worker can output an alarm, so that the medical worker can be reminded to go to the patient in time for next dialysis nursing at the first time, such as stopping continuous drainage of the dialysate, the medical worker can be saved from repeatedly turning back to the patient for examination, and the medical worker needs to stay at the patient side for waiting for next dialysis nursing when the dialysate is detected to be drained, the medical worker can be saved from doing useless work, especially under the condition that the medical worker is few and the work is busy, the work efficiency of the medical worker can be greatly improved and the fatigue of the medical worker can be relieved, on the other hand, when the peritoneal dialysis outflow amount led out of the abdominal cavity of the patient reaches the preset value or is constant for more than 2 minutes, the intelligent handheld terminal held by the hand of the medical care personnel can also output an alarm, so that the medical care personnel can be reminded to go to the patient in time for next dialysis care at the first time, if the drainage is really finished, separation is selected when the drainage is finished, the overlong drainage time is not caused, the risk of omentum absorption is further increased, when the peritoneal dialysis solution is determined to be compressed to cause the peritoneal dialysis solution amount to be constant for more than 2 minutes, the medical care personnel can conveniently pull the corresponding peritoneal dialysis solution pipeline to continue drainage for the patient, the problems of unsmooth peritoneal dialysis long-time drainage or long-time blockage of the peritoneal dialysis solution pipeline and the like are avoided, the trouble that the medical care personnel repeatedly return to the patient for examination is also avoided, and the medical care personnel need to stay at the patient to wait for next dialysis care when the drainage of the waste liquid is about to be finished is detected, the medical staff is saved from doing useless work, the working efficiency of the medical staff can be greatly improved and the fatigue of the medical staff can be relieved particularly under the conditions that the medical staff is few and the work is busy, and meanwhile, the invention is applicable to both a CAPD mode and an IPD mode, so that the use reliability and the use safety are good, and the medical staff can be effectively popularized.

Secondly, in the technical scheme, on one hand, when the peritoneal dialysis solution inflow amount flowing into the body of the peritoneal dialysis patient measured by the peritoneal dialysis solution weighing device reaches a preset value, a feedback signal A is generated and transmitted to the intelligent handheld terminal through the cloud server, the intelligent handheld terminal can output an alarm signal A according to the feedback signal A and control the peritoneal dialysis solution inflow pipe clamp to automatically clamp the peritoneal dialysis solution inflow pipeline through the cloud server so as to intercept the peritoneal dialysis solution flowing into the body of the peritoneal dialysis patient, therefore, the trouble that medical staff drives the patient to carry out manual interception is omitted, the peritoneal dialysis solution inflow amount is accurate, too much or too little drainage cannot be caused, and in the process, even if the medical staff distracts attention on other patients or other attention points, on the other hand, when the peritoneal dialysis solution amount flowing out of the peritoneal dialysis patient body measured by the peritoneal dialysis solution weighing device reaches a preset value or is constant for more than 2 minutes, a feedback signal B is generated and transmitted to the intelligent handheld terminal through the cloud server, the intelligent handheld terminal outputs an alarm signal B according to the feedback signal B, and controls the peritoneal dialysis solution outlet pipe clamp to automatically clamp the peritoneal dialysis solution pipeline through the cloud server so as to intercept the peritoneal dialysis solution flowing out of the peritoneal dialysis patient body, therefore, the trouble that medical personnel drive the patient body to intercept manually can be eliminated, the peritoneal dialysis solution amount is accurate, too much or too little lead out can not be caused, and the peritoneal dialysis solution amount of the patient is displayed in real time through the display screen A on the peritoneal dialysis solution weighing device, the peritoneal dialysis solution amount of the patient is displayed in real time through the display screen B on the peritoneal waste solution weighing device, so that the medical personnel can conveniently observe and confirm the peritoneal dialysis solution amount, the use reliability is better, and further, the use effect of the peritoneal dialysis solution weighing device can reach the best.

Drawings

FIG. 1 is a topology diagram of a peritoneal dialysis monitoring system of the present invention;

FIG. 2 is a topological view of a peritoneal dialysis monitoring system according to an embodiment of the present invention in use with a single patient;

a block schematic diagram of the peritoneal dialysis monitoring system of the present invention;

FIG. 3 is an overall frame view of the peritoneal dialysis solution scale according to an embodiment of the present invention;

FIG. 4 is an overall frame view of the peritoneal waste scale in an embodiment of the invention;

the implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Reference numerals:

a peritoneal dialysis monitoring system 1000;

monitoring device a 10;

a peritoneal dialysis solution scale 101; a processing module A1011; a weighing module A1012; a display screen a 1013; wireless module a 1014; a power supply module A1015; a two-dimensional code C1016; a peritoneal dialysis solution access tube clamp 102;

monitoring device B20;

a peritoneal waste fluid weighing machine 201; processing module B2011; a weighing module B2012; display screen B2013; a wireless module B2014; a power supply module B2015; the two-dimensional code D2016; a peritoneal waste effluent outlet tube clamp 202;

a cloud server 30;

an intelligent handheld terminal 40;

a main control module 401; a data storage module 402; a two-dimensional code scanning module 403; a display module 404;

a peritoneal dialysis machine 50;

a two-dimensional code B501;

a peritoneal dialysis solution bag 60;

a peritoneal waste solution bag 70;

a wrist band 80;

a two-dimensional code A801;

a printer 90.

Detailed Description

The technical solutions of the present invention will be described in detail below with reference to the accompanying drawings and specific embodiments so that the inventive spirit of the present invention can be more clearly and intuitively understood.

Shown in conjunction with fig. 1, 2, 3 and 4;

the invention provides a peritoneal dialysis monitoring system 1000, which comprises a plurality of monitoring devices A10 used for correspondingly monitoring the peritoneal dialysis solution inflow amount flowing into different patient bodies, a plurality of monitoring devices B20 used for correspondingly monitoring the peritoneal dialysis solution outflow amount flowing out of different patient bodies, a cloud server 30 and an intelligent handheld terminal 40 which is arranged at a nurse end and used for outputting an alarm when the peritoneal dialysis solution inflow amount flowing into the patient body and monitored by any one of the monitoring devices A10 reaches a preset value or the peritoneal dialysis solution outflow amount flowing out of the patient body and monitored by any one of the monitoring devices B20 reaches a preset value and is constant for more than 2 minutes;

the intelligent handheld terminal 40 is in signal connection with the cloud server 30 through a wireless network; the cloud server 30 is in signal connection with the plurality of monitoring devices a10 and the plurality of monitoring devices B20 through a wireless network.

Thus, based on the above, it is clear that the present invention, when embodied, is primarily intended for use as a patient peritoneal dialysis monitoring system 1000.

On the one hand, when the peritoneal dialysis income liquid volume of drainage to patient's abdominal cavity reaches the default, hold in medical personnel's hand intelligent handheld terminal 40 can export the warning promptly, make and to remind medical personnel in the very first time to go patient's department in time and do dialysis nursing on next step, continue the drainage etc. like stopping the dialysate, make and save medical personnel and turn back the other inspection of patient's body repeatedly, and need stay in the trouble of waiting for doing next step's dialysis nursing on patient's body side always when checking up the dialysate and will drain promptly, make and save medical personnel and do the idle work, especially under the less and busy condition of work of medical personnel, more can improve medical personnel work efficiency greatly and alleviate its fatigue.

On the other hand, when the peritoneal dialysis solution volume led out of the abdominal cavity of the patient reaches a preset value or is constant for more than 2 minutes, the intelligent handheld terminal 40 held by the medical staff can also output an alarm, so that the medical staff can be reminded to go to the patient in time for next dialysis nursing in the first time, if the drainage is determined to be really finished, the separation is selected when the drainage is determined to be finished, so that the drainage time is not too long, the risk of absorption of the omentum is increased, when the peritoneal dialysis solution volume is determined to be constant for more than 2 minutes due to the fact that the peritoneal dialysis solution pipeline is pressed, the medical staff can conveniently pull the corresponding peritoneal dialysis solution pipeline to continue the drainage of the patient, the problems that the peritoneal dialysis solution is not smooth for a long time in drainage or the peritoneal dialysis solution pipeline is blocked for a long time and the like are avoided, and the medical staff can avoid the repeated turning back to the side of the patient for examination, and need stay in the trouble of waiting to do next step dialysis nursing by patient's side always when checking that the waste liquid is about to drain off for save medical personnel and do useless work, especially under the condition that medical personnel are few and work is busy, also can improve medical personnel work efficiency greatly and alleviate its fatigue.

Meanwhile, the invention can be applied no matter in a CAPD mode or an IPD mode, so that the use reliability and the use safety are good, and the invention can be effectively popularized.

Further, in a preferred embodiment, each monitoring device a10 includes a peritoneal dialysis solution weighing device 101 disposed at the peritoneal dialysis solution inlet end of the peritoneal dialysis machine 50 used by the peritoneal dialysis patient for weighing the peritoneal dialysis solution bag 60 in real time and an automatically releasable/clampable peritoneal dialysis solution inlet tube clamp 102 clamped outside the peritoneal dialysis solution inlet line; the peritoneal dialysis solution weighing device 101 and the peritoneal dialysis solution inlet pipe clamp 102 are respectively in signal connection with the cloud server 30 through a wireless network;

when the peritoneal dialysis inflow amount flowing into the body of the peritoneal dialysis patient measured by the peritoneal dialysis solution weighing device 101 reaches a preset value, a feedback signal A is generated and transmitted to the intelligent handheld terminal 40 through the cloud server 30, the intelligent handheld terminal 40 outputs an alarm signal A according to the feedback signal A, and the cloud server 30 controls the peritoneal dialysis solution inflow pipe clamp 102 to automatically clamp a peritoneal dialysis inflow pipeline so as to cut off the peritoneal dialysis solution flowing into the body of the peritoneal dialysis patient.

From this, then make and save medical personnel and catch up with the trouble of carrying out manual damming by patient's side, and make peritoneal dialysis liquid inflow amount accurate for can not lead to the drainage too much or too little, and at this in-process, even if medical personnel disperse the attention on other patients on one's body or other points of concern, also be difficult for causing because of going into the emergence that the liquid amount is too much and lead to adverse event.

In addition, in the present technical solution, the peritoneal dialysis solution weighing apparatus 101 includes a processing module a1011, a weighing module a1012 for weighing the dialysis solution in the peritoneal dialysis solution bag 60, a display screen a1013 for displaying the remaining amount of the dialysis solution in the peritoneal dialysis solution bag 60, a wireless module a1014 for connecting to the cloud server 30, and a power supply module a1015 for supplying power to the processing module a 1011;

the weighing module a1012, the display screen a1013, the wireless module a1014 and the power supply module a1015 are respectively connected to the processing module a 1011.

Therefore, the peritoneal dialysis solution volume of the patient can be displayed in real time through the display screen A1013 on the peritoneal dialysis solution weighing device 101, so that the medical staff can conveniently observe and confirm the peritoneal dialysis solution volume, and the use reliability is better.

Furthermore, in the present technical solution, each of the monitoring devices B20 includes a peritoneal waste solution weight meter 201 disposed at the peritoneal dialysis solution end of the peritoneal dialysis machine 50 used by the peritoneal dialysis patient for weighing the peritoneal waste solution bag 70 in real time, and an automatically releasable/clampable peritoneal waste solution outlet tube clamp 202 clamped outside the peritoneal dialysis solution outlet tube; the peritoneal waste liquid weighing device 201 and the peritoneal waste liquid outlet pipe clamp 202 are respectively in signal connection with the cloud server 30 through a wireless network;

when the amount of peritoneal dialysis solution flowing out of the body of the peritoneal dialysis patient measured by the peritoneal waste solution weighing device 201 reaches a preset value or is constant for more than 2 minutes, a feedback signal B is generated and transmitted to the intelligent handheld terminal 40 through the cloud server 30, the intelligent handheld terminal 40 outputs an alarm signal B according to the feedback signal B, and the cloud server 30 controls the peritoneal waste solution outlet pipe clamp 202 to automatically clamp a peritoneal dialysis solution pipeline, so that the peritoneal waste solution flowing out of the body of the peritoneal dialysis patient is intercepted.

From this, then also can save medical personnel and catch up with the patient side and carry out the trouble that manual damps, and make the peritoneum permeate the precipitation solution volume accurate, make can not lead to drawing too much or too little.

In addition, in the present technical solution, the peritoneal waste liquid weighing apparatus 201 includes a processing module B2011, a weighing module B2012 for weighing the waste liquid in the peritoneal waste liquid bag 70, a display screen B2013 for displaying the amount of the waste liquid in the peritoneal waste liquid bag 70, a wireless module B2014 for connecting the cloud server 30, and a power supply module B2015 for supplying power to the processing module B2011;

wherein, weighing module B2012, display screen B2013, wireless module B2014 and power module B2015 links to each other with processing module B2011 respectively.

Therefore, the peritoneal dialysis solution volume of the patient can be displayed in real time through the display screen B2013 on the peritoneal waste solution weighing device 201, so that the medical personnel can conveniently observe and confirm the peritoneal dialysis solution volume, and the use reliability is better.

Preferably, the present invention further comprises a plurality of wrist bands 80 corresponding to the wrist of the patient; a plurality of wristbands 80 are provided with two-dimensional codes A801 containing the current hospitalization information of the corresponding patients;

the peritoneal dialysis machines 50 are respectively provided with a two-dimensional code B501 containing the current hospitalization information of the corresponding patient; the peritoneal dialysis solution weighing devices 101 are all provided with a two-dimensional code C1016 containing the current hospitalization information of the corresponding patient; a plurality of peritoneal waste liquid weighing devices 201 are provided with a two-dimensional code D2016 containing the current hospitalization information of the corresponding patient;

the intelligent handheld terminal 40 is provided with a main control module 401, a data storage module 402 connected with the main control module 401, and a two-dimensional code scanning module 403 connected with the main control module 401;

the smart handheld terminal 40 scans the two-dimensional code a801, the two-dimensional code B501, the two-dimensional code C1016 and the two-dimensional code D2016 through the two-dimensional code scanning module 403 to associate the wrist band 80, the peritoneal dialysis machine 50, the peritoneal dialysis solution weighing machine 101 and the peritoneal waste solution weighing machine 201 used by the same patient, and stores the associated comprehensive information in the data storage module 402.

Therefore, for different patients, after the information on the corresponding two-dimensional code A801, the information on the two-dimensional code B501, the information on the two-dimensional code C1016 and the information on the two-dimensional code D2016 are associated, different patients have different IP addresses, so that medical staff can know the peritoneal dialysis conditions of different patients by holding one intelligent handheld terminal 40 conveniently, and can perform corresponding peritoneal dialysis subsequent nursing operation on the corresponding patient according to different alarms conveniently, and the system and the method have the advantages of higher use reliability and higher use flexibility.

On the basis, it can be understood that the intelligent handheld terminal 40 can be provided with a plurality of intelligent handheld terminals, so that different medical workers can use the intelligent handheld terminal correspondingly, and when the intelligent handheld terminal 40 is held to scan the two-dimensional codes, different patients can be managed correspondingly.

Further, in the implementation, the intelligent handheld terminal 40 further has a display module 404 for displaying the peritoneal dialysis solution inflow amount flowing into the body of the peritoneal dialysis patient and displaying the peritoneal dialysis solution outflow amount flowing out of the body of the peritoneal dialysis patient; the display module 404 is connected to the main control module 401.

Therefore, medical staff can remotely know the peritoneal dialysis solution inflow amount and the peritoneal dialysis solution outflow amount of different patients by contrasting the display module 404 of the intelligent handheld terminal 40 on hands of the medical staff, so that the contrast examination is facilitated.

In addition, in this embodiment, the current hospitalization information of the patient at least includes the name, sex, hospital room number and hospital bed number of the patient, so that the medical staff is not easy to be confused or mistaken.

When necessary, the current hospitalization information of the patient can also comprise the identification number of the patient and the floor number of the department hospitalization, so that the associated patient information is more detailed and accurate without errors.

Meanwhile, in the technical scheme, the invention also comprises a printer 90 for printing the information of the peritoneal dialysis of different patients every day; the printer 90 is in signal connection with the cloud server 30.

Here, it is understood that, for different patients, data of each peritoneal dialysis, such as each dialysis start time, each dialysis end time, each dialysis amount, etc., are stored in the cloud server 30, and then daily peritoneal dialysis information of different patients can be printed by the corresponding printer 90, so as to facilitate filing and archiving for subsequent examination and checking, and the like.

Other embodiments, etc., will not be described herein.

In conclusion, the system constructed by the invention has the advantages of simple integral frame, easy implementation, easy operation, strong practicability, strong specificity, small occupied area and flexible operation, can be suitable for being used in community clinics, hospital outpatient treatment rooms, inpatient wards and the like, and has wide application places.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. A peritoneal dialysis monitoring system is characterized by comprising a plurality of monitoring devices A used for correspondingly monitoring the peritoneal dialysis solution inflow amount flowing into different patient bodies, a plurality of monitoring devices B used for correspondingly monitoring the peritoneal dialysis solution outflow amount flowing out of different patient bodies, a cloud server and an intelligent handheld terminal which is arranged at a nurse end and used for outputting an alarm when the peritoneal dialysis solution inflow amount flowing into the patient body and monitored by any one of the monitoring devices A reaches a preset value or the peritoneal dialysis solution outflow amount flowing out of the patient body and monitored by any one of the monitoring devices B reaches a preset value and is constant for more than 2 minutes;

the intelligent handheld terminal is in signal connection with the cloud server through a wireless network; the cloud server is in signal connection with the plurality of monitoring devices A and the plurality of monitoring devices B through a wireless network;

each monitoring device A comprises a peritoneal dialysis solution weighing device which is arranged at the peritoneal dialysis solution inlet end of a peritoneal dialysis machine used by a peritoneal dialysis patient and is used for weighing a peritoneal dialysis solution bag in real time and a peritoneal dialysis solution inlet pipe clamp which can be automatically loosened/clamped and is clamped outside a peritoneal dialysis solution inlet pipeline; the peritoneal dialysis solution weighing device and the peritoneal dialysis solution inlet pipe clamp are respectively in signal connection with the cloud server through a wireless network;

when the peritoneal dialysis solution inflow amount flowing into the body of the peritoneal dialysis patient, which is measured by the peritoneal dialysis solution weighing device, reaches a preset value, a feedback signal A is generated and transmitted to the intelligent handheld terminal through the cloud server, the intelligent handheld terminal outputs an alarm signal A according to the feedback signal A, and controls the peritoneal dialysis solution inflow pipe clamp to automatically clamp the peritoneal dialysis solution inflow pipeline through the cloud server, so that the peritoneal dialysis solution flowing into the body of the peritoneal dialysis patient is intercepted;

each monitoring device B comprises a peritoneal waste liquid weighing device which is arranged at the peritoneal dialysis liquid outlet end of a peritoneal dialysis machine used by a peritoneal dialysis patient and is used for weighing a peritoneal waste liquid bag in real time, and a peritoneal waste liquid outlet pipe clamp which can be automatically loosened/clamped and is clamped outside a peritoneal dialysis liquid outlet pipeline; the peritoneal waste liquid weighing device and the peritoneal waste liquid outlet pipe clamp are respectively in signal connection with the cloud server through a wireless network;

when the amount of peritoneal dialysis solution flowing out of the body of the peritoneal dialysis patient measured by the peritoneal waste solution weighing device reaches a preset value or is constant for more than 2 minutes, a feedback signal B is generated and transmitted to the intelligent handheld terminal through the cloud server, the intelligent handheld terminal outputs an alarm signal B according to the feedback signal B, and the cloud server controls the peritoneal waste solution outlet pipe clamp to automatically clamp the peritoneal dialysis solution pipeline so as to cut off the peritoneal waste solution flowing out of the body of the peritoneal dialysis patient;

the wrist band is also provided with a plurality of wrist bands which are correspondingly worn on the wrists of different patients; the wrist belts are provided with two-dimensional codes A containing the current hospitalization information of the corresponding patients;

2. The peritoneal dialysis monitoring system of claim 1, wherein: the peritoneal dialysis solution weighing device is provided with a processing module A, a weighing module A for weighing the dialysis solution in the peritoneal dialysis solution bag, a display screen A for displaying the residual amount of the dialysis solution in the peritoneal dialysis solution bag, a wireless module A for connecting the cloud server and a power supply module A for supplying power to the processing module A;

3. The peritoneal dialysis monitoring system of claim 1, wherein: the peritoneal waste liquid weighing device is provided with a processing module B, a weighing module B for weighing waste liquid in a peritoneal waste liquid bag, a display screen B for displaying the amount of the waste liquid in the peritoneal waste liquid bag, a wireless module B for connecting the cloud server and a power supply module B for supplying power to the processing module B;

4. The peritoneal dialysis monitoring system of claim 1, wherein: the intelligent handheld terminal is also provided with a display module for displaying the peritoneal dialysis solution inflow amount flowing into the body of the peritoneal dialysis patient and the peritoneal dialysis solution outflow amount flowing out of the body of the peritoneal dialysis patient; the display module is connected with the main control module.

5. The peritoneal dialysis monitoring system of claim 4, wherein: the current hospitalization information of the patient at least comprises the name, the sex, the ward number and the sickbed number of the patient.

6. The peritoneal dialysis monitoring system of claim 5, wherein: the current hospitalization information of the patient also comprises the identification number of the patient and the floor number of the department.

7. Peritoneal dialysis monitoring system according to any of claims 1-6, characterized in that: the system also comprises a printer used for printing daily peritoneal dialysis information of different patients; the printer is in signal connection with the cloud server.