1. A continuous renal replacement therapy data acquisition system, comprising: the system comprises at least one continuous kidney replacement therapy device, a communication module connected with each continuous kidney replacement therapy device and a server connected with the communication module;

the continuous renal replacement therapy equipment is used for monitoring various purification parameters of a target user in the blood purification process and generating monitoring information based on the purification parameters;

the communication module is configured to acquire the monitoring information of the continuous renal replacement therapy device, determine a transmission protocol corresponding to the continuous renal replacement therapy device, and send the monitoring information corresponding to the target user to the server according to the transmission protocol;

the server is used for receiving the monitoring information sent by each communication module so as to obtain the purification parameters of the target user based on the monitoring information.

2. The system of claim 1, further comprising:

and the display module is in communication connection with the server and is used for acquiring the monitoring information corresponding to the target user and displaying the purification parameters contained in the monitoring information.

3. The system of claim 2, further comprising:

and the data conversion module is connected with the server and used for receiving the monitoring information of each continuous renal replacement therapy device sent by the server, converting the purification parameters contained in the monitoring information according to a preset format requirement, and sending the converted purification parameters to the display module.

4. The system of claim 3, wherein the data conversion module comprises a meter unit conversion unit and a name conversion unit; wherein the content of the first and second substances,

the measurement unit conversion unit is connected with the server and used for receiving the monitoring information of each continuous renal replacement therapy device sent by the server and converting the purification parameters contained in the monitoring information according to a preset measurement unit;

the name conversion unit is connected with the measurement unit conversion unit and used for determining the parameter name of the purification parameter after the measurement unit conversion is completed, determining the standard name corresponding to the parameter name based on a preset name comparison table, changing the parameter name of the purification parameter into the standard name, and sending the purification parameter after the measurement unit conversion and the name change to the display module.

5. The system of claim 2, wherein the display module comprises:

and the early warning unit is used for detecting whether each item of purification parameter meets the preset early warning condition of the corresponding item, and if the purification parameter meeting the preset early warning condition exists, performing early warning prompt on the purification parameter.

6. The system of claim 2, further comprising:

the identification generation module is connected with each continuous kidney replacement therapy device and used for setting a device identification of each continuous kidney replacement therapy device and sending the device identification to each continuous kidney replacement therapy device;

the continuous kidney replacement therapy device comprises a generation unit connected with the identifier generation module and used for generating the monitoring information based on the received device identifiers, the purification parameters and the user information of the users corresponding to the continuous kidney replacement therapy devices.

7. The system of claim 6, further comprising:

and the query module is connected with the server and used for determining the target purification parameters of the target user based on the user information contained in the query request when receiving the query request for querying the purification parameters of the target user, and sending the target purification parameters of the target user to the display module for displaying.

8. The system of claim 1, further comprising:

the continuous renal replacement therapy data application module is connected with the server and used for acquiring the purification parameters stored in the server for inputting operation when a purification parameter inputting request is received;

the continuous renal replacement therapy data application module comprises an electronic medical record unit, a medical order entry unit and a medical image management unit.

9. The system of claim 1, wherein the communication module comprises a WIFI communication module.

10. A continuous kidney replacement therapy data acquisition method is characterized by being applied to at least one continuous kidney replacement therapy device, a communication module connected with each continuous kidney replacement therapy device and a server connected with the communication module;

monitoring various purification parameters of a target user in the blood purification process through at least two continuous renal replacement therapy devices, and generating monitoring information based on the purification parameters;

acquiring the monitoring information of the continuous renal replacement therapy equipment through the communication module, determining a transmission protocol corresponding to the continuous renal replacement therapy equipment, and sending the monitoring information corresponding to the target user to the server according to the transmission protocol;

receiving, by the server, the monitoring information sent by each of the communication modules, so as to obtain the purification parameters of the target user based on the monitoring information.

Background

Continuous Renal Replacement Therapy (CRRT) is a blood purification treatment technique that continuously and slowly removes water and solutes by extracorporeal blood purification, providing an extremely important homeostatic balance for the treatment of critically ill patients.

In order to ensure the stability of various indexes of electrolyte, acid-base stability and the like of a patient in CRRT treatment, various indexes of the patient need to be detected in time through CRRT equipment. In the prior art, various indexes and purification parameters of a patient are monitored through CRRT equipment, medical staff need to manually check and record data obtained by monitoring on each CRRT equipment, so that the current index information and purification parameters of the patient are obtained.

However, the index information of the patient is acquired by adopting the prior art, each medical worker cannot check a plurality of CRRT devices at the same time, and when a plurality of patients need to monitor the index information, a large amount of medical workers are needed to monitor, a large amount of manpower resources are consumed, and unnecessary resource waste is caused.

Disclosure of Invention

The embodiment of the invention provides a system and a method for acquiring continuous renal replacement therapy data, which are used for realizing that the purification conditions of all target users can be known by looking up the purification parameters acquired from a server, avoiding unnecessary resource waste and improving the monitoring efficiency.

In a first aspect, an embodiment of the present invention provides a continuous renal replacement therapy data acquisition system, which may include:

the system comprises at least one continuous kidney replacement therapy device, a communication module connected with each continuous kidney replacement therapy device and a server connected with the communication module;

the continuous renal replacement therapy equipment is used for monitoring various purification parameters of a target user in the blood purification process and generating monitoring information based on the purification parameters;

the communication module is configured to acquire the monitoring information of the continuous renal replacement therapy device, determine a transmission protocol corresponding to the continuous renal replacement therapy device, and send the monitoring information corresponding to the target user to the server according to the transmission protocol;

the server is used for receiving the monitoring information sent by each communication module so as to obtain the purification parameters of the target user based on the monitoring information.

In a second aspect, an embodiment of the present invention further provides a continuous renal replacement therapy data acquisition method, which is applied to at least one continuous renal replacement therapy device, a communication module connected to each continuous renal replacement therapy device, and a server connected to the communication module;

monitoring various purification parameters of a target user in the blood purification process through at least two continuous renal replacement therapy devices, and generating monitoring information based on the purification parameters;

acquiring the monitoring information of the continuous renal replacement therapy equipment through the communication module, determining a transmission protocol corresponding to the continuous renal replacement therapy equipment, and sending the monitoring information corresponding to the target user to the server according to the transmission protocol;

receiving, by the server, the monitoring information sent by each of the communication modules, so as to obtain the purification parameters of the target user based on the monitoring information.

The embodiment of the invention provides a continuous kidney replacement therapy data acquisition system, which comprises: the system comprises at least one continuous kidney replacement therapy device, a communication module connected with each continuous kidney replacement therapy device and a server connected with the communication module; the continuous renal replacement therapy equipment is used for monitoring various purification parameters of a target user in the blood purification process and generating monitoring information based on the purification parameters; the communication module is used for acquiring monitoring information of the continuous kidney replacement therapy equipment, determining a transmission protocol corresponding to the continuous kidney replacement therapy equipment, and sending the monitoring information corresponding to a target user to the server according to the transmission protocol; and the server is used for receiving the monitoring information sent by each communication module so as to obtain the purification parameters of the target user based on the monitoring information. Therefore, the server can acquire various purification parameters of the target users monitored in each continuous renal replacement therapy device, medical workers can know the purification conditions of all the target users only by looking up the purification parameters acquired on the server, unnecessary resource waste is avoided, and the monitoring efficiency is improved.

In addition, the method for acquiring the continuous renal replacement therapy data provided by the invention corresponds to the method and has the same beneficial effects.

Drawings

In order to illustrate the embodiments of the present invention more clearly, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings can be obtained by those skilled in the art without inventive effort.

Fig. 1 is a block diagram of a continuous renal replacement therapy data acquisition system according to an embodiment of the present invention;

FIG. 2 is a block diagram of another continuous renal replacement therapy data acquisition system provided in accordance with an embodiment of the present invention;

fig. 3 is a structural diagram of a CRRT data acquisition system in an application scenario according to an embodiment of the present invention;

fig. 4 is a structural diagram of a data acquisition device in an application scenario according to an embodiment of the present invention;

fig. 5 is a flowchart of a method for continuous renal replacement therapy data acquisition according to an embodiment of the present invention;

fig. 6 is a flowchart of a CRRT data acquisition method in an application scenario according to an embodiment of the present invention.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

The core of the invention is to provide a system and a method for acquiring continuous renal replacement therapy data, so that the purification conditions of all target users can be known by looking up the purification parameters acquired from the server, unnecessary resource waste is avoided, and the monitoring efficiency is improved.

In order that those skilled in the art will better understand the disclosure, the invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Example one

Fig. 1 is a block diagram of a continuous renal replacement therapy data acquisition system according to an embodiment of the present invention; as shown in fig. 1, a system for acquiring continuous renal replacement therapy data according to an embodiment of the present invention includes: at least one continuous kidney replacement therapy device 10, a communication module 11 connected to each continuous kidney replacement therapy device 10, and a server 12 connected to the communication module 11;

the continuous renal replacement therapy device 10 is used for monitoring various purification parameters of a target user in a blood purification process, and generating monitoring information based on the purification parameters.

Specifically, the purging parameters may include blood flow velocity, substitution fluid rate, purging time, and the like. Based on the purification parameters obtained by monitoring, monitoring information corresponding to the target user can be generated. The monitoring information may include personal information of the target user, decontamination parameters, the name and model of the continuous renal replacement therapy device 10 to which the target user corresponds, and the like.

The communication module 11 is configured to acquire monitoring information of the continuous renal replacement therapy device 10, determine a transmission protocol corresponding to the continuous renal replacement therapy device 10, and send the monitoring information corresponding to the target user to the server 12 according to the transmission protocol.

In the present embodiment, the continuous renal replacement therapy devices 10 are connected to the communication module 11 for acquiring monitoring information generated by each continuous renal replacement therapy device 10. Optionally, the communication module 11 includes a WIFI (wireless communication technology) communication module, a bluetooth communication module, or a wired communication module.

Specifically, the communication module 11 acquires monitoring information by connecting to a communication port in the continuous renal replacement therapy device 10. And sending the acquired monitoring information to the server 12 according to the requirement of the transmission protocol corresponding to the continuous renal replacement therapy device 10. Illustratively, the transport protocol includes at least one of a controller area network bus protocol and a serial peripheral interface protocol.

And the server 12 is used for receiving the monitoring information sent by each communication module 11 so as to obtain the purification parameters of the target user based on the monitoring information.

Alternatively, the server 12 may receive the monitoring information sent by each communication module 11, and then receive the monitoring information generated by each continuous renal replacement therapy device 10 connected to the communication module 11. And analyzing each piece of monitoring information to acquire personal information, purification parameters, the name and model of the continuous renal replacement therapy equipment 10 corresponding to the target user, and the like of the target user, which are included in each piece of monitoring information.

The embodiment of the invention provides a continuous kidney replacement therapy data acquisition system, which comprises: the system comprises at least one continuous kidney replacement therapy device, a communication module connected with each continuous kidney replacement therapy device and a server connected with the communication module; the continuous renal replacement therapy equipment is used for monitoring various purification parameters of a target user in the blood purification process and generating monitoring information based on the purification parameters; the communication module is used for acquiring monitoring information of the continuous kidney replacement therapy equipment, determining a transmission protocol corresponding to the continuous kidney replacement therapy equipment, and sending the monitoring information corresponding to a target user to the server according to the transmission protocol; and the server is used for receiving the monitoring information sent by each communication module so as to obtain the purification parameters of the target user based on the monitoring information. Therefore, the server can acquire various purification parameters of the target users monitored in each continuous renal replacement therapy device, medical workers can know the purification conditions of all the target users only by looking up the purification parameters acquired on the server, unnecessary resource waste is avoided, and the monitoring efficiency is improved.

Example two

Fig. 2 is a block diagram of another continuous renal replacement therapy data acquisition system according to an embodiment of the present invention. The present embodiment is optimized based on the above technical solutions. The same or corresponding terms as those in the above embodiments are not explained in detail herein.

As shown in fig. 2, a system for acquiring continuous renal replacement therapy data according to an embodiment of the present invention further includes:

and the display module 13 is in communication connection with the server 12, and is configured to acquire monitoring information corresponding to the target user and display the purification parameters included in the monitoring information.

Optionally, the display module 13 is communicatively connected to the server 12. After the server 12 acquires the monitoring information monitored by each continuous renal replacement therapy device 10, each monitoring information is sent to the display module 13, and the display module 13 can display the content in the monitoring information in an interface display mode or a voice broadcast mode. Specifically, the display module 13 displays the purification parameters included in the monitoring information on the interface.

Further, the personal information of the target user corresponding to the decontamination parameters and the names and models of the continuous renal replacement therapy devices 10 included in the monitoring information are displayed on the interface. The medical staff can know all the continuous renal replacement therapy devices 10 or the purification parameters monitored by the specified continuous renal replacement therapy devices 10 at the same time by viewing the contents displayed on the interface, and each continuous renal replacement therapy device 10 does not need to be viewed, so that unnecessary resource waste is reduced.

As shown in fig. 2, a system for acquiring continuous renal replacement therapy data according to an embodiment of the present invention further includes:

and the data conversion module 14 is connected to the server 12, and is configured to receive the monitoring information of each continuous renal replacement therapy apparatus 10 sent by the server 12, convert the purification parameters included in the monitoring information according to a preset format requirement, and send the converted purification parameters to the display module 13.

In specific implementation, the models and manufacturers of the continuous renal replacement therapy devices 10 are various, so that the monitored purification parameters have different metering formats and names, and in order to enable medical staff to look up the purification parameters more intuitively and simply, the purification parameters monitored by the continuous renal replacement therapy devices 10 can be displayed in the display module 13 after being subjected to unified format.

Optionally, the data conversion module 14 may be connected to the server 12, receive the monitoring information of each continuous renal replacement therapy apparatus 10 sent by the server 12, and convert the purification parameters included in the monitoring information according to a uniform preset format requirement. Specifically, the preset format requirements may include a measurement unit requirement and a name requirement, and format conversion is performed on both the measurement unit and the name of the purification parameter.

Further, the data conversion module 14 includes a measurement unit conversion unit 140 and a name conversion unit 141; wherein the content of the first and second substances,

the measurement unit conversion unit 140 is connected to the server 12, and is configured to receive the monitoring information of each continuous renal replacement therapy apparatus 10 sent by the server 12, and convert the purification parameters included in the monitoring information according to a preset measurement unit.

Specifically, the decontamination parameters may include blood flow velocity, displacement fluid rate, and decontamination time. For blood flow rate, the preset metric may be "cm/sec"; the preset unit of measure for the displacement fluid rate may be "cm/sec"; the preset unit of measure of the purge time may be seconds. The measurement unit conversion unit 140 converts the measurement units of the parameters such as the blood flow velocity, the replacement fluid rate, and the purification time included in the received monitoring information into predetermined measurement units, so that the same type of purification parameters monitored by different continuous renal replacement therapy devices 10 are converted into parameters having a uniform measurement unit.

The name conversion unit 141 is connected to the measurement unit conversion unit 140, and is configured to determine a parameter name of the purification parameter after the measurement unit conversion is completed, determine a standard name corresponding to the parameter name based on a preset name comparison table, change the parameter name of the purification parameter into the standard name, and send the purification parameter after the measurement unit conversion and the name change to the display module 13.

In a specific implementation, different successive renal replacement therapy devices 10 are named differently, and different names may be given to the same type of decontamination parameters, so that the decontamination parameters monitored by the successive renal replacement therapy devices 10 need to be named in a unified manner for the convenience of medical staff to view. For example, the names of the blood flow rate, which is a purification parameter, in the different continuous renal replacement therapy apparatuses 10 may be "blood flow rate of the patient" and "blood flow rate", and the name conversion unit 141 may unify the different names into "blood flow rate".

Specifically, the name conversion unit 141 determines the parameter name of the purge parameter converted by the measurement unit, and stores a preset name lookup table in advance. The preset name comparison table comprises names of the parameters and corresponding standard names. Based on the preset name comparison table, the parameter name of the purification parameter is changed into the standard name, so that the unification of the names of the obtained purification parameters is completed, and the purification parameters subjected to the conversion of the metering units and the change of the names are sent to the display module 13.

Optionally, the display module 13 includes:

and the early warning unit 130 is configured to detect whether each item of purification parameter meets a preset early warning condition of the corresponding item, and perform early warning prompt on the purification parameter if the purification parameter meeting the preset early warning condition exists.

Specifically, medical personnel need to observe whether each purification parameter is in normal level, and need carry out timely adjustment when purification parameter appears unusually. Therefore, for the convenience of observation of medical personnel, the preset early warning condition can be preset, and the early warning prompt is carried out on the purification parameters reaching the preset early warning condition. Illustratively, the preset early warning condition is that when the purification parameter is larger than the corresponding preset value, the early warning prompt is performed on the purification parameter. The early warning prompting mode comprises a marking display prompting mode, a voice prompting mode and the like.

As shown in fig. 2, a system for acquiring continuous renal replacement therapy data according to an embodiment of the present invention further includes:

the identifier generating module 15 is connected to each of the continuous renal replacement therapy devices 10, and is configured to set an device identifier of each of the continuous renal replacement therapy devices 10 and send the device identifier to each of the continuous renal replacement therapy devices 10;

the continuous renal replacement therapy device 10 includes a generating unit 100 connected to the identifier generating module 15, and configured to generate monitoring information based on the received device identifiers, the purification parameters, and the user information of the users corresponding to the continuous renal replacement therapy devices 10.

Specifically, the device identifier generated by the identifier generation module 15 may be a reference number composed of at least one of numbers, letters, or symbols. The device identification identifies the unique continuous renal replacement therapy device 10. And correspondingly determining corresponding purification parameters in the monitoring information and user information of the user through the equipment identification.

As shown in fig. 2, a system for acquiring continuous renal replacement therapy data according to an embodiment of the present invention further includes:

and the query module 16 is connected to the server 12, and is configured to, when receiving a query request for querying the purification parameters of the target user, determine the target purification parameters of the target user based on user information included in the query request, and send the target purification parameters of the target user to the display module 13 for display.

Specifically, when a medical staff needs to check the purification parameters of a certain user, an inquiry request can be generated through the input device and sent to the inquiry module 16, and the inquiry module 16 determines the target purification parameters of the target user based on the user information contained in the received inquiry request of the purification parameters. Illustratively, the user information includes the name, number, identification of the target user's corresponding continuous renal replacement therapy device 10, and the like. And sending the inquired target purification parameters to the display module 13 for displaying for medical staff.

As shown in fig. 2, a system for acquiring continuous renal replacement therapy data according to an embodiment of the present invention further includes:

the continuous renal replacement therapy data application module 17 is connected with the server 12 and is used for acquiring the purification parameters stored in the server 12 for inputting operation when a purification parameter inputting request is received; the continuous renal replacement therapy data application module 17 includes an electronic medical record unit 170, an order entry unit 171, and a medical image management unit 172.

Specifically, the purification parameters of the user monitored by the continuous renal replacement therapy device 10 may also be used in applications such as an electronic medical record, a medical order record, and medical image management of the user, and in order to reduce the workload of medical care personnel without manual input, the continuous renal replacement therapy data application module 17 may obtain the purification parameters stored in the server 12 when receiving a purification parameter entry request input by an external input device, and enter the purification parameters into a corresponding application.

The system for acquiring the continuous renal replacement therapy data further comprises a display module, a data conversion module, an identification generation module, an inquiry module and a continuous renal replacement therapy data application module, wherein the display module is used for converting the purification parameters into a standard uniform format and displaying the standard uniform format through the display module, so that medical staff can conveniently check the standard uniform format; and generating a corresponding unique identifier for each device so as to distinguish each device. According to the embodiment of the invention, the specified purification parameters can be inquired through the inquiry module, and the purification parameters are automatically input into the specified application, so that the working convenience of medical staff is improved.

EXAMPLE III

The above detailed description is made on the corresponding embodiment of the continuous renal replacement therapy data acquisition system, and specific application scenarios are given below in order to further make the technical solution of the method clear to those skilled in the art.

Fig. 3 is a structural diagram of a CRRT data acquisition system in an application scenario according to an embodiment of the present invention; as shown in fig. 3, the CRRT data acquisition system includes N CRRT devices, where N is a positive integer. Each CRRT device corresponds to a data acquisition device which is a communication module used for acquiring monitoring information of the CRRT device. And each data acquisition device sends the acquired monitoring information to the data conversion and storage unit for storing the purification parameters in the monitoring information, converting each purification parameter according to the format requirement set in the data setting unit, and sending the purification parameters obtained after conversion to the data display unit. External systems such as a user-related inspection information system, a medical image management system, an electronic medical record system, a computerized doctor order entry system and the like are connected with the data display unit and used for acquiring the purification parameters to complete parameter entry.

Specifically, the data setting unit is used for setting the brand and model of the CRRT equipment, and the collected purification parameters and the corresponding metering units in each equipment type. The data setting unit is also used for setting the names and the measurement units of the unified purification parameters. For example, the blood flow rate originally defined by the brand a CRRT device is "patient blood flow rate" in units of "cm/sec", the parameter is defined by the brand B CRRT device as "blood flow rate" in units of "mm/sec", the data setting unit may collectively set the name of the parameter monitored by each CRRT device as "blood flow rate" and the unit of measurement as "mm/sec" according to the standard name and unit of measurement conversion table, and the standard name and unit of measurement conversion table is shown in table 1. Further, the conversion relationship between the measurement units can also be set in table 1.

TABLE 1

The data setting unit is also used for setting the number of the data acquisition device corresponding to each CRRT device and the number of the user in the purification process based on a preset number table, and the number table is shown in table 2.

TABLE 2

Brand	Model of the device	Data acquisition device numbering	User number
				Baite Jinbao	A	001	0001
Brown's wine	B	002	0002
				Feren Yous	C	003	0003

Fig. 4 is a structural diagram of a data acquisition device in an application scenario according to an embodiment of the present invention; as shown in fig. 4, the data acquisition device is connected to a port of the CRRT device, and includes a wired network port, a controller local area network bus protocol unit, a serial peripheral interface protocol unit, an ARM protocol conversion unit, and a wireless communication technology chip. The data acquisition device is used for being connected with a port of the CRRT equipment, and transmitting acquired purification parameters to a designated server through the wireless communication technology chip by controlling a conversion protocol through the ARM chip, namely a data conversion and storage unit. And adding the acquired purification parameters to the serial numbers of the corresponding data acquisition devices for distinguishing.

The data conversion and storage unit is used for performing name and unit conversion on the cleaning parameters, and converting the cleaning parameters into uniform names and metering units as shown in table 1. And storing the converted purification parameters and the user number into a data conversion and storage unit.

The data display unit is a display device and is used for acquiring the biochemical indexes and the corresponding purification parameters of the user stored in the required external system according to the user number, displaying the biochemical indexes and the purification parameters on a screen for medical care personnel to analyze immediately, and therefore the medical care personnel can immediately know the purification parameters of all users without manual inspection.

Example four

Fig. 5 is a flowchart of a method for continuous renal replacement therapy data acquisition according to an embodiment of the present invention; this is done. As shown in fig. 5, the method is applied to at least one continuous renal replacement therapy device, a communication module connected to each continuous renal replacement therapy device, and a server connected to the communication module; the method specifically comprises the following steps:

s101, monitoring various purification parameters of a target user in a blood purification process through at least two continuous renal replacement therapy devices, and generating monitoring information based on the purification parameters;

s102, acquiring monitoring information of continuous renal replacement therapy equipment through a communication module, determining a transmission protocol corresponding to the continuous renal replacement therapy equipment, and sending the monitoring information corresponding to a target user to a server according to the transmission protocol;

s103, receiving the monitoring information sent by each communication module through the server so as to obtain the purification parameters of the target user based on the monitoring information.

On the basis of any optional implementation scheme of the embodiment of the invention, the method further comprises the following steps:

and acquiring monitoring information corresponding to the target user through a display module, and displaying the purification parameters contained in the monitoring information.

On the basis of any optional implementation scheme of the embodiment of the invention, the method further comprises the following steps:

the monitoring information of each continuous renal replacement therapy device sent by the server is received through the data conversion module, the purification parameters contained in the monitoring information are converted according to the preset format requirements, and the converted purification parameters are sent to the display module.

On the basis of any optional implementation scheme of the embodiment of the invention, the method comprises the following steps:

receiving monitoring information of each continuous renal replacement therapy device sent by a server through a metering unit conversion unit, and converting purification parameters contained in the monitoring information according to a preset metering unit;

the method comprises the steps of determining the parameter name of a purification parameter after conversion of a metering unit is completed through a name conversion unit, determining a standard name corresponding to the parameter name based on a preset name comparison table, changing the parameter name of the purification parameter into the standard name, and sending the purification parameter after conversion of the metering unit and change of the name to a display module.

On the basis of any optional implementation scheme of the embodiment of the invention, the method comprises the following steps:

whether each purification parameter meets the preset early warning condition of the corresponding item or not is detected through the early warning unit, and if the purification parameter meeting the preset early warning condition exists, early warning prompt is carried out on the purification parameter.

On the basis of any optional implementation of the embodiment of the invention, the method further comprises the following steps:

setting the equipment identifier of each continuous renal replacement therapy equipment through an identifier generation module, and sending the equipment identifier to each continuous renal replacement therapy equipment;

the continuous renal replacement therapy device comprises a generation unit, and monitoring information is generated through the generation unit based on the received device identification, the purification parameter and the user information of the user corresponding to the continuous renal replacement therapy device.

On the basis of any optional implementation scheme of the embodiment of the invention, the method further comprises the following steps:

when receiving an inquiry request for inquiring the purification parameters of a target user through an inquiry module, determining the target purification parameters of the target user based on user information contained in the inquiry request, and sending the target purification parameters of the target user to a display module for displaying.

On the basis of any optional implementation scheme of the embodiment of the invention, the method further comprises the following steps:

when a purification parameter entry request is received through the continuous kidney substitution therapy data application module, the purification parameters stored in the server are obtained for entry operation;

the continuous renal replacement therapy data application module comprises an electronic medical record unit, a medical advice recording unit and a medical image management unit.

On the basis of any optional implementation scheme of the embodiment of the invention, the communication module comprises a WIFI communication module.

The method for acquiring the continuous renal replacement therapy data provided by the embodiment of the invention has the corresponding functional modules and beneficial effects of the system for acquiring the continuous renal replacement therapy data.

EXAMPLE five

Fig. 6 is a flowchart of a CRRT data acquisition method in an application scenario according to an embodiment of the present invention, as shown in fig. 6.

Optionally, a standard name and a measurement unit conversion table corresponding to each purification parameter may be set, and whether a user table in the purification process is empty is judged, if yes, it indicates that there is no user currently performing purification operation by using CRRT equipment; if not, then indicate that there is a user to perform a decontamination operation, then the decontamination parameters may be monitored by the data acquisition device.

Furthermore, each monitored purification parameter is converted based on a set standard name and a measurement unit conversion table. And acquiring user information such as the number and name of each user and the used CRRT equipment number, and correspondingly storing the acquired purification parameters based on the user information. And judging whether each purification data needs to be displayed, if so, displaying the purification parameters of the user on a display interface, finding out the purification parameters meeting the early warning condition, and generating corresponding early warning information for prompting. When the purification process of each user is finished, the user table in the purification process is empty.

The method provided by the embodiment of the invention avoids the situation that the purification parameters of each user can be known only by manual inspection at any time, can timely and efficiently know the purification condition of the user, improves the working efficiency of medical personnel, and saves time.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present invention and the technical principles employed. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail by the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present invention, and the scope of the present invention is determined by the scope of the appended claims.