CN116052824A

CN116052824A - Ward round method, ward round equipment and system

Info

Publication number: CN116052824A
Application number: CN202111265168.1A
Authority: CN
Inventors: 欧阳亮
Original assignee: Edan Instruments Inc
Current assignee: Edan Instruments Inc
Priority date: 2021-10-28
Filing date: 2021-10-28
Publication date: 2023-05-02

Abstract

The invention relates to the technical field of medical equipment, in particular to a ward-round method, a ward-round device and a ward-round system, wherein the ward-round method comprises the steps of displaying a main ward-round interface corresponding to a target patient, and the main ward-round interface comprises a parameter display area and a custom parameter area; acquiring first ward round data of the target patient monitored by local and target monitoring equipment, and correspondingly displaying the first ward round data in the parameter display area; acquiring second ward-round data recorded in the custom parameter area and correspondingly displaying the second ward-round data in the custom parameter area; and generating a ward round record of the target patient based on the first ward round data and the second ward round data. The first ward data can be automatically obtained through the data interaction with the target monitoring device locally, and the second ward data can be automatically obtained through the local input, and finally, complete ward round records are generated, hands of medical staff are greatly liberated, recording time is saved, and working efficiency and accuracy are improved.

Description

Ward round method, ward round equipment and system

Technical Field

The invention relates to the technical field of medical equipment, in particular to a ward round method, ward round equipment and a ward round system.

Background

The ward inspection is a system which is owned by each department and is responsible for medical staff to visit the ward regularly and hope for the patient. The purpose is to learn, analyze and discuss the condition, record the condition, and then the medical staff can decide the treatment plan and the execution condition of the examination plan according to the condition. However, at present, most departments generally take corresponding monitoring equipment to measure patients, record the patient with paper notes, record the patient condition and nursing measures in the process of talking with the patients, and return to a nurse station to record the physical sign data, the patient condition and the completion or non-completion of the nursing measures into a nursing system.

This kind of ward round not only consumes more manpower, and work efficiency is low, and is consuming time long, and medical personnel need take more things, leads to needing 2-3 medical personnel to go together to ward round sometimes, consumes the manpower, leads to the ward round work to increase, and ward round efficiency and accuracy are lower.

Disclosure of Invention

In view of the above, the embodiments of the present invention provide a ward-round method, ward-round device and system, so as to solve the problem of ward-round efficiency and accuracy.

According to a first aspect, an embodiment of the present invention provides a ward-round method, including:

Displaying a main ward-round interface corresponding to a target patient, wherein the main ward-round interface comprises a parameter display area and a user-defined parameter area;

acquiring first ward round data of the target patient monitored by local and target monitoring equipment, and correspondingly displaying the first ward round data in the parameter display area;

acquiring second ward-round data recorded in the custom parameter area and correspondingly displaying the second ward-round data in the custom parameter area;

and generating a ward round record of the target patient based on the first ward round data and the second ward round data.

According to the ward-round method provided by the embodiment of the invention, the local and target monitoring equipment is utilized to monitor the target patient to obtain the first ward-round data, the second ward-round data is input locally, the ward-round record is generated based on the first ward-round data and the second ward-round data, the first ward-round data can be automatically obtained through the data interaction between the local and the target monitoring equipment, the second ward-round data is automatically obtained through the input locally, the complete ward-round record is finally generated, the hands of medical staff are greatly liberated, the recording time is saved, and the working efficiency and the accuracy are improved.

With reference to the first aspect, in a first implementation manner of the first aspect, the acquiring second ward-round data recorded in the custom parameter area and correspondingly displaying the second ward-round data in the custom parameter area includes:

Responding to the input operation of the target parameters in the custom parameter area, and displaying a custom parameter interface corresponding to the target parameters;

and responding to the input operation of the custom parameter interface, determining the value of the target parameter and displaying the value of the target parameter in a region corresponding to the target parameter in the custom parameter region.

According to the ward-round method provided by the embodiment of the invention, the user-defined parameter area is provided so that medical staff can adaptively modify the ward-round area for each patient, namely, the parameter input template is provided, the corresponding numerical value can be input into the template in the ward-round process, so that the second ward-round data can be automatically acquired, the re-input of the data after the ward-round is finished is avoided, and the efficiency is improved.

With reference to the first implementation manner of the first aspect, in a second implementation manner of the first aspect, the custom parameter interface includes a character input area and a voice input area, and the determining, in response to an input operation to the custom parameter interface, the value of the target parameter includes:

determining a value of the target parameter in response to an input operation of the character entry area;

or alternatively, the first and second heat exchangers may be,

a value of the target parameter is determined in response to an input operation of the voice input field.

With reference to the first aspect, in a third implementation manner of the first aspect, the main ward-round interface further includes an information display area, and the generating the ward-round record of the target patient based on the first ward-round data and the second ward-round data includes:

in response to a selection operation of the information display area, displaying an information interface, wherein the information interface comprises a remark information area;

determining third ward-round data of the target patient in response to an input operation of the remark information area;

and generating a ward round record of the target patient based on the first ward round data, the second ward round data and the third ward round data.

According to the ward-round method provided by the embodiment of the invention, the information interface is called at the main ward-round interface, the condition of a medical staff inputting a target patient in the ward-round process, measures performed in the ward-round process and the like are adopted, so that a complete ward-round record is formed.

With reference to the third implementation manner of the first aspect, in a fourth implementation manner of the first aspect, the information interface further includes a basic information area and an order information area, where the basic information area is used to display basic information of the target patient, and the order information area is used to display an order of the target patient.

According to the ward-round method provided by the embodiment of the invention, the basic information and the doctor advice information are displayed on the information interface, so that medical staff can know the condition of a target patient in time, and ward-round efficiency is improved.

With reference to the first aspect, in a fifth implementation manner of the first aspect, the main ward-round interface further includes a ward-round review area, and the ward-round method further includes:

responsive to a selection operation of the ward-round review area, displaying a review interface, the review interface including a review time selection area, a ward-round list area for displaying ward-round data of at least one patient, and a functional area;

responding to the selection operation of the functional area, and displaying a setting record list interface;

determining a display item of a target record list in response to the selection operation of the setting record list interface;

and determining data of each display item in response to the selection operation of the review time selection area so as to generate a corresponding target record list.

According to the ward-round method provided by the embodiment of the invention, the ward-round review area is further provided on the main ward-round interface, so that after the ward-round is finished, the ward-round data of each patient can be automatically classified and arranged through corresponding selection on the record list interface, a corresponding target record list is formed, manual classification processing of the record list is avoided, and the working efficiency and the accuracy are improved.

With reference to the fifth implementation manner of the first aspect, in a sixth implementation manner of the first aspect, the ward-round list area has a ward-round record detail tag corresponding to each patient, and the ward-round method further includes:

and responding to the selection operation of the detail label of the ward-round record of the target patient, and displaying the ward-round record of the target patient corresponding to the selection result of the review time selection area.

According to the ward-round method provided by the embodiment of the invention, the ward-round list area is provided with the ward-round record detail label, and the complete ward-round record of each patient can be checked through the label, so that the illness state review is facilitated.

With reference to the first aspect, in a seventh implementation manner of the first aspect, the ward-round method further includes:

uploading the ward-round record to a server so that the server analyzes the ward-round record to determine an analysis result;

and receiving and displaying the analysis result sent by the server.

According to the ward round method provided by the embodiment of the invention, the ward round record is uploaded to the server in the ward round process, the real-time analysis result is obtained based on the analysis of the ward round record by the server, the analysis result is fed back to the local, the data analysis can be performed during ward round, the time of data transmission and communication is reduced, the data sharing is convenient, and the accuracy of medical staff in grasping the condition of a patient is ensured.

With reference to the first aspect, in an eighth implementation manner of the first aspect, the ward-round method further includes:

acquiring preset ward round time;

and when the preset ward round time is reached and the ward round is not performed, a ward round reminder is sent out.

According to the ward-round method provided by the embodiment of the invention, the ward-round reminding is sent out when the preset ward-round time is obtained and the ward-round is not carried out in the preset ward-round time, so that the time spent by medical staff for recording or checking the ward-round plan can be reduced, and the ward-round efficiency is improved.

According to a second aspect, an embodiment of the present invention further provides a ward-round device, including:

the memory and the processor are in communication connection with each other, the memory stores computer instructions, and the processor executes the computer instructions, so as to execute the ward round method according to the first aspect of the present invention or any one of the first aspect of the present invention.

According to a third aspect, an embodiment of the present invention further provides a ward-round system, including:

the target monitoring device is provided with a first communication module;

the ward-round equipment is provided with a second communication module which is matched with the first communication module, and is connected with the target monitoring equipment through the first communication module and the second communication module;

The ward-round device is used for acquiring first ward-round data of the target patient monitored by the local and target monitoring device and second ward-round data recorded in a user-defined parameter area of a local main ward-round interface, and generating ward-round records of the target patient based on the first ward-round data and the second ward-round data.

According to the ward-round system provided by the embodiment of the invention, the local and target monitoring equipment is utilized to monitor the target patient to obtain the first ward-round data, the second ward-round data is input locally, the ward-round record is generated based on the first ward-round data and the second ward-round data, the first ward-round data can be automatically obtained through the data interaction between the local and the target monitoring equipment, the second ward-round data is automatically obtained through the input locally, the complete ward-round record is finally generated, the hands of medical staff are greatly liberated, the recording time is saved, and the working efficiency and the accuracy are improved.

With reference to the third aspect, in a first implementation manner of the third aspect, the ward-round device includes a voice input module, where the voice input module is configured to enter the second ward-round data.

According to the ward-round system provided by the embodiment of the invention, the second ward-round data is input through the voice input module, so that the data input efficiency is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are needed in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the present invention, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

FIG. 1 is a block diagram of a ward-round system according to an embodiment of the present invention;

FIG. 2 is a block diagram of a ward-round system according to an embodiment of the present invention;

FIG. 3 is a block diagram of a ward-round system according to an embodiment of the present invention;

fig. 4 is a block diagram of a ward-round device according to an embodiment of the present invention;

FIG. 5 is a flow chart of a ward round method according to an embodiment of the invention;

FIG. 6 is a schematic diagram of a main ward interface according to an embodiment of the invention;

FIG. 7 is a flow chart of a ward round method according to an embodiment of the invention;

FIG. 8 is a schematic diagram of a custom parameter interface according to an embodiment of the present invention;

FIG. 9 is a schematic diagram of an information interface according to an embodiment of the invention;

FIG. 10 is a flow chart of a ward round method according to an embodiment of the invention;

FIG. 11 is a schematic diagram of a review interface according to an embodiment of the invention;

FIG. 12 is a schematic diagram of a setup record list interface according to an embodiment of the invention;

FIG. 13 is a schematic diagram of a ward record according to an embodiment of the invention;

fig. 14 is a flow chart of a ward round method according to an embodiment of the invention.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of 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, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

An embodiment of the present invention provides a ward-round system, as shown in fig. 1, including a target monitoring device 10 and a ward-round device 102, where the target monitoring device 10 is communicatively connected to the ward-round device 102. The target monitoring device 10 may be a blood glucose meter, a fetal heart rate meter, etc., and may be specifically set according to actual requirements. At the time of ward rounds, the healthcare worker carries the target monitoring device 10 and the ward round device 102 to ward round each patient, and records corresponding ward round data in the ward round device 102.

Specifically, the target monitoring device 10 has a first communication module and the ward device 102 has a second communication module that is adapted to the first communication module. The ward device 102 is connected to the target monitoring device through a first communication module and a second communication module. In the ward-round process, the ward-round device 102 is configured to obtain first ward-round data of the target patient detected by the local and target monitoring devices and second ward-round data recorded in a custom parameter area of the local main ward-round interface, and generate a ward-round record of the target patient based on the first ward-round data and the second ward-round data.

The ward device 102 is used as a ward monitoring device, and has a physiological parameter measuring module therein, and may be used to measure basic physiological parameters of a patient, such as blood pressure, blood oxygen, etc., in this embodiment of the present invention, the physiological parameter measuring module in the ward device 102 is defined as "local", that is, the first ward data portion is different from the physiological parameter that can be measured by the physiological parameter measuring module local to the ward device 102. During the ward round, the ward round device 102 may obtain basic information of the patient by scanning the patient's identification, may also obtain basic information of each patient from a server, and so on. After the physiological parameter measurement is performed on the patient, the ward-round device 102 stores and displays the monitored physiological parameter on a corresponding interface;

The target monitoring device 10 is a monitoring device connected with the ward device 102 in a wired or wireless manner, and is distinguished and connected with the ward device 102 due to limited physiological parameters monitored by the ward device 102: the target monitoring device 10 may monitor physiological parameters that are not monitored by the ward device 102 and upload the monitored physiological parameters to the ward device 102 in a wireless or wired manner, i.e., the first ward data is derived from the physiological parameters obtained by the ward device 102 by means of the third party target monitoring device 10. In the embodiment of the present invention, the number of the target monitoring devices 10 may be one or more, and the number of the physiological parameters that the target monitoring devices 10 may monitor may be one or more, so that those skilled in the art may configure the corresponding target monitoring devices according to different departments, which is not limited in the present invention.

Specifically, taking obstetrical ward rounds as an example, the target monitoring device 10 may be a blood glucose meter or a fetal heart rate monitor, that is, when performing ward rounds, a medical staff carries the blood glucose meter, the fetal heart rate monitor and the ward round device 102 to ward rounds on each patient, and transmits ward round data monitored by the blood glucose meter or the fetal heart rate monitor to the ward round device for recording in the ward round device 102.

Further, during the ward round, the medical staff performs the entry through the ward round device for the communication with the patient and the measures taken for the corresponding patient, and the entered data is referred to herein as second ward round data. Specifically, the method can be realized by means of voice input or text input. For example, for the ward round of the target patient, the medical staff enters the custom parameter area through the interactive interface provided by the ward round device, data corresponding to the target patient is recorded in the custom parameter area, and meanwhile, measures taken for the target patient can be recorded in the custom parameter area.

When the ward round for the target patient is completed, the ward round device may automatically generate a ward round record corresponding to the target patient based on the first ward round data and the second ward round data. The ward round record comprises basic information of the patient, ward round data, analysis conclusion and the like, and can be specifically set according to actual requirements.

According to the ward-round system provided by the embodiment, the local and target monitoring equipment is utilized to monitor the target patient to obtain the first ward-round data, the second ward-round data is input locally, the ward-round record is generated based on the first ward-round data and the second ward-round data, the first ward-round data can be automatically obtained through the data interaction between the local and the target monitoring equipment, the second ward-round data is automatically obtained through the input locally, the complete ward-round record is finally generated, the hands of medical staff are greatly liberated, the record time is saved, and the working efficiency and the accuracy are improved.

In some optional implementations of this embodiment, as shown in fig. 2, the ward device 102 is further communicatively connected to a server 101, where the server 101 is configured to receive the ward record uploaded by the ward device and send the basic information of the target patient to the ward device. Specifically, after the ward round of the target patient is finished, the ward round device 102 automatically generates a ward round record of the target patient, and the ward round device 102 uploads the ward round record to the server 101 for storage, and meanwhile, the server 101 can analyze the ward round record according to the requirement, give a next treatment suggestion, and the like. Prior to the ward round, the ward round device 102 may set a query condition to download the data of the corresponding patient in the server 101. Wherein the downloaded data includes basic information of the patient, a last ward round record of the patient, and the like.

The ward round record is uploaded to the server in the ward round process, the real-time analysis result is obtained based on the analysis of the ward round record by the server, the analysis result is fed back to the local, the data analysis can be carried out during ward round, the time of data transmission and communication is reduced, the data sharing is convenient, and the accuracy of medical staff grasping the condition of a patient is ensured.

The server may be set up corresponding to each department or may be set up in the whole hospital, and is not limited in this regard. Since the server is applied in a hospital scenario, it may also be referred to as a hospital information system.

Further optionally, the ward-round device further includes a voice input module, and during ward-round, the medical staff can perform voice input, and the ward-round device uses the voice input module to convert voice into text and record the text in the ward-round record. And the voice input module is used for inputting the second ward round data, so that the data input efficiency is improved.

The working principle of the ward-round system is described by taking ward-round of obstetrics and gynecology as an example, as shown in fig. 3, before ward-round, medical staff sets inquiry conditions in ward-round equipment based on the identification of the patient to be ward-round, and obtains data of the patient to be ward-round from the server 101 through interaction with the server 101, which may include the above-mentioned basic information, the previous ward-round record, and doctor's advice information. During the ward round, the medical staff carries the fetal heart monitor 104, the blood glucose monitor 103 and the ward round device 102 to ward round the ward round for each patient in turn. The fetal heart monitor 104 and the blood glucose monitor 103 are connected with the ward device 102 in a wireless or wired manner. In the actual ward round process, other target monitoring devices can be added in a self-defined manner according to the requirements of the puerpera to measure other physiological parameters, and the measurement is not limited herein. Specifically, the healthcare worker monitors a first physiological parameter of the target patient with the ward-round device 102, monitors a second physiological parameter of the target patient with the fetal heart monitor 104 and the blood glucose monitor 103, and collectively refers to the first physiological parameter and the second physiological parameter as first ward-round data. After the first ward-round data is acquired by the ward-round device 102, the first ward-round data may be displayed on an interface for reference by a medical staff member to give a corresponding order or measure. Simultaneously, the medical staff uses the ward-round device 102 to input second ward-round data, and the input result is displayed in the custom parameter area. After the end of the ward round for the target patient, ward round device 102 automatically generates a ward round record based on the first ward round data and the second ward round data. The ward round device may upload the ward round record to the server 101 in real time so that the server 101 performs analysis based on the data in the ward round record, determines an analysis result, and transmits the analysis result to the ward round device 102.

The ward round system provided by the embodiment can effectively solve the problems that a plurality of people are needed for ward round of medical staff, a plurality of devices are carried, the time consumption is long, and the working efficiency is low. The system can acquire information of a patient, such as basic information, medical advice and the like, from a server through a network, acquires ward-round data of the patient through communication of ward-round equipment and target monitoring equipment and monitoring of the ward-round equipment, and automatically generates ward-round records. Finally, the ward round records can be uploaded to the server to form complete ward round records, hands of medical staff are greatly liberated, the machine body record time is shortened, the working efficiency is improved, and the ward round records can be checked in the later period. The ward round record is uploaded to the server, data analysis can be performed during ward round, the time of data transmission and communication is reduced, and data sharing is facilitated.

An embodiment of the present invention further provides a ward-round device, referring to fig. 4, and fig. 4 is a schematic structural diagram of a ward-round device provided by an alternative embodiment of the present invention, as shown in fig. 4, where the ward-round device may include: at least one processor 301, such as a CPU (Central Processing Unit ), at least one communication interface 303, a memory 304, at least one communication bus 302, and a display (not shown in fig. 6). Wherein the communication bus 302 is used to enable connected communication between these components. The communication interface 303 may include a Display screen (Display) and a Keyboard (Keyboard), and the selectable communication interface 303 may further include a standard wired interface and a wireless interface. The memory 304 may be a high-speed RAM memory (Random Access Memory, volatile random access memory) or a non-volatile memory (non-volatile memory), such as at least one disk memory. The memory 304 may also optionally be at least one storage device located remotely from the aforementioned processor 301. Wherein the memory 304 stores an application program and the processor 301 invokes the program code stored in the memory 304 for performing any of the method steps described below.

The communication bus 302 may be a peripheral component interconnect standard (peripheral component interconnect, PCI) bus or an extended industry standard architecture (extended industry standard architecture, EISA) bus, among others. Communication bus 302 may be divided into an address bus, a data bus, a control bus, etc. For ease of illustration, only one thick line is shown in fig. 4, but not only one bus or one type of bus.

Wherein the memory 304 may include a volatile memory (english) such as a random-access memory (RAM); the memory may also include a nonvolatile memory (english: non-volatile memory), such as a flash memory (english: flash memory), a hard disk (english: hard disk drive, abbreviated as HDD) or a solid state disk (english: solid-state drive, abbreviated as SSD); memory 304 may also include combinations of the above types of memory.

The processor 301 may be a central processor (English: central processing unit, abbreviated: CPU), a network processor (English: network processor, abbreviated: NP) or a combination of CPU and NP.

The processor 301 may further include a hardware chip, among others. The hardware chip may be an application-specific integrated circuit (ASIC), a Programmable Logic Device (PLD), or a combination thereof (English: programmable logic device). The PLD may be a complex programmable logic device (English: complex programmable logic device, abbreviated: CPLD), a field programmable gate array (English: field-programmable gate array, abbreviated: FPGA), a general-purpose array logic (English: generic array logic, abbreviated: GAL), or any combination thereof.

Optionally, the memory 304 is also used for storing program instructions. Processor 301 may invoke program instructions to implement the ward round method as shown in any of the embodiments of the present application.

In accordance with an embodiment of the present invention, a ward-round method embodiment is provided, it being noted that the steps shown in the flowchart of the figures may be performed in a computer system, such as a set of computer-executable instructions, and, although a logical order is shown in the flowchart, in some cases, the steps shown or described may be performed in an order other than that shown or described herein.

In this embodiment, a ward-round method is provided, which may be used in the ward-round device and the like, and fig. 5 is a flowchart of the ward-round method according to an embodiment of the present invention, as shown in fig. 5, where the flowchart includes the following steps:

s11, displaying a main ward-round interface corresponding to the target patient.

The main ward round interface comprises a parameter display area and a user-defined parameter area.

The main ward interfaces are in one-to-one correspondence with the patients, and the main ward interfaces are different for different patients, and the difference is the data specifically displayed in the main ward interfaces. The medical staff ward-round equipment enters a main ward-round interface corresponding to the target patient, and the main ward-round interface comprises a parameter display area and a user-defined parameter area. The parameter display area is used for displaying physiological parameters monitored by the target monitoring equipment and the ward-round equipment, and the custom parameter area is used for displaying ward-round data recorded by medical staff based on current ward-round. Of course, the specific area division of the main ward-round interface is not limited to the above-mentioned parameter display area and the custom parameter area, and may also include other areas, and may specifically be divided according to actual requirements; and, the division of the parameters specifically displayed in the parameter display area and the custom parameter area is not limited to the above.

Taking a ward round in obstetrics and gynecology as an example, the main ward round interface corresponding to each parturient is shown in fig. 6, and includes a parameter display area 1024 and a custom parameter area 1025. Specifically, the physiological parameters displayed in the parameter display area 1024 include blood pressure, body temperature, blood oxygen, pulse rate, and fetal heart rate; the physiological parameters displayed in the custom parameters field 1025 include blood glucose, respiration rate, weight, height, BMI, and the like.

S12, acquiring first ward round data of the target patient monitored by the local and target monitoring equipment, and correspondingly displaying the first ward round data in the parameter display area.

And (5) locally, namely, ward round equipment. As described above, a physiological parameter measuring module is built into the ward-round device for measuring the blood pressure, the body temperature, etc. of the patient. The target monitoring device is used for monitoring other physiological parameters of a target patient, and the physiological parameters monitored by the target monitoring device and the target monitoring device are collectively called as first ward-round data. After the first ward-round data is acquired, the ward-round device can classify the data according to the fields in the first ward-round data and correspondingly display the data in the parameter display area.

Further, threshold values of the physiological parameters are also set in the ward-round device, and the real-time physiological parameters in the first ward-round data are compared with the corresponding physiological parameters to determine whether the real-time physiological parameters exceed the corresponding threshold values. When the real-time physiological parameter exceeds the corresponding threshold value, a highlight mark is added when the physiological parameter is displayed on the parameter display interface. For example, the font of the physiological parameter changes, or the area where the physiological parameter is located blinks, etc.

As shown in fig. 6, if the monitored real-time fetal heart rate is 130 and is higher than the corresponding threshold, the frame of the display area where the fetal heart rate is located is bolded and displayed when the real-time display is performed.

S13, acquiring second ward round data recorded in the user-defined parameter area and correspondingly displaying the second ward round data in the user-defined parameter area.

In the ward round process of the target patient, the medical staff gives corresponding measures to the target patient according to communication with the target patient or medical advice, and the measures can be recorded in the custom parameter area by the medical staff. The data entered is referred to herein as second ward data, which is correspondingly displayed in the custom parameter area after entry. It should be noted that, the second ward data recorded in the custom parameter area may be manually recorded by a medical staff, or may be automatically filled from the target monitoring device. That is, the physiological parameters monitored by the target monitoring device may be displayed not only in the parameter display area but also in the custom parameter area.

The second ward-round data can be input manually, or by voice, or by other means, and is not limited in any way, and only a medical staff is required to be ensured to input the corresponding second ward-round data in the custom parameter area.

This step will be described in detail later in detail.

S14, based on the first ward round data and the second ward round data, ward round records of the target patient are generated.

The ward-round device may directly generate the ward-round record of the target patient based on the first ward-round data and the second ward-round data, may also generate the ward-round record in combination with other ward-round data, and the like, which is not limited in any way. For the generation of the ward round record, a ward round record template is built in the ward round equipment, and after the first ward round data and the second ward round data are acquired, the fields in the ward round data are matched with the fields in the ward round record template, and the corresponding data are filled in the ward round record template, so that the ward round record of the target patient is generated.

This step will be described in detail later in detail.

According to the ward-round method provided by the embodiment, the local and target monitoring equipment is utilized to monitor the target patient to obtain the first ward-round data, the second ward-round data is input locally, the ward-round record is generated based on the first ward-round data and the second ward-round data, the first ward-round data can be automatically obtained through the data interaction between the local and the target monitoring equipment, the second ward-round data is automatically obtained through the input locally, the complete ward-round record is finally generated, the hands of medical staff are greatly liberated, the record time is saved, and the working efficiency and the accuracy are improved.

In this embodiment, a ward-round method is provided, which may be used in the ward-round device and the like, and fig. 7 is a flowchart of the ward-round method according to an embodiment of the present invention, as shown in fig. 7, where the flowchart includes the following steps:

s21, displaying a main ward-round interface corresponding to the target patient.

Please refer to the embodiment S11 shown in fig. 5 in detail, which is not described herein.

S22, acquiring first ward round data of the target patient monitored by the local and target monitoring equipment, and correspondingly displaying the first ward round data in the parameter display area.

Please refer to the embodiment S12 shown in fig. 5 in detail, which is not described herein.

S23, second ward-round data recorded in the user-defined parameter area are acquired and correspondingly displayed in the user-defined parameter area.

Specifically, the step S23 includes:

s231, responding to the input operation of the target parameters in the custom parameter area, and displaying a custom parameter interface corresponding to the target parameters.

As shown in fig. 6, a data input box is corresponding to each physiological parameter in the custom parameter area, and when the medical staff selects the data input box for data entry after a certain physiological parameter, the ward-round device responds to the operation of the medical staff and displays the custom parameter interface shown in fig. 8. As shown in FIG. 8, the custom parameter interface provides two ways of entering, one for character entry and the other for voice entry.

S232, responding to the input operation of the custom parameter interface, determining the value of the target parameter and displaying the value of the target parameter in the area corresponding to the target parameter in the custom parameter area.

The medical staff inputs the corresponding value of the target parameter in the custom parameter interface, returns to the main ward interface shown in fig. 6 after the input is completed, and displays the input value in the data input box after the target parameter. That is, corresponding to each target parameter, its corresponding value will be displayed in the area corresponding to the target parameter in the custom parameter area.

In some alternative implementations of the present embodiment, the custom parameter interface includes a character entry field and a voice entry field. Based on this, the S232 may include:

determining a value of the target parameter in response to an input operation of the character entry area; or, determining the value of the target parameter in response to an input operation of the voice input field.

Specifically, when the medical staff selects the character input box, the numeric keyboard 1026 can be utilized to input corresponding data; when medical staff selects the voice input key 1027, voice input can be carried out, and the ward-round equipment converts voice information into text information by utilizing the built-in voice input module.

S24, based on the first ward round data and the second ward round data, ward round records of the target patient are generated.

As shown in fig. 6, the main ward interface further includes an information display area 1023, and the information display area 1023 is used to display basic information of the target patient. Such as name, bed number, gender, etc. Based on this, S24 includes:

s241, an information interface is displayed in response to a selection operation of the information display area.

Wherein the information interface includes a remark information area.

The medical staff performs a selection operation in the information display area, for example, clicks the information display area, and accordingly, the ward-round device displays a corresponding information interface in response to the selection operation of the medical staff. Basic information and medical advice of the target patient are displayed in the information interface, and medical staff can know the basic condition of the target patient in time by looking up the information interface.

The specific content displayed in the information interface can be sent to the ward-round device by the server when the ward-round device makes a data request with the server. For example, the information interface may be as shown in FIG. 9.

The information interface also comprises a basic information area and an order information area, wherein the basic information area is used for displaying basic information of a target patient; the order information area is used to display orders for the target patient, such as care level, fall, pressure sores, and pain.

Basic information and doctor advice information are displayed on the information interface, so that medical staff can know the condition of a target patient in time, and ward round efficiency is improved.

S242, determining third ward round data of the target patient in response to the input operation of the remark information area.

The information interface also comprises a remark information area, medical staff inputs corresponding contents in the remark information area, and accordingly, the ward-round equipment responds to the input operation of the medical staff to determine third ward-round data of the target patient. The ward round equipment provides two input modes, namely keyboard input and voice input.

As shown in fig. 9, the remark information area is provided with an input keyboard 1029 and a label for inputting voice 1027, and the medical staff can enter the corresponding input mode by selecting the corresponding label. For example, when the input keyboard 1029 is selected, the input keyboard is displayed, and the healthcare worker performs input of the corresponding character through the input keyboard.

S243, based on the first ward round data, the second ward round data and the third ward round data, ward round records of the target patient are generated.

As described above, the first ward data is the data monitored by the target monitoring device and the ward device, the second ward data is the data input in the custom parameter area, and the third ward data is the data input in S242. Based on the three data, the ward-round device automatically generates a ward-round record corresponding to the target patient. For the automatic generation process of the ward round record, refer to the above description of S14, and will not be repeated here.

According to the ward-round method, the user-defined parameter area is provided so that medical staff can adaptively modify the ward-round parameter area for each patient, namely, a parameter input template is provided, corresponding numerical values can be input into the template in the ward-round process, and then second ward-round data can be automatically acquired, so that the re-input of the data after the ward-round is finished is avoided, and the efficiency is improved. The information interface is called in the main ward interface, and medical staff records the condition of a target patient in the ward process, measures performed in the ward process, and the like so as to form a complete ward record.

In this embodiment, a ward-round method is provided, which may be used in the ward-round device described above, as shown in fig. 2, where the main ward-round interface further includes a ward-round review area. Fig. 10 is a flowchart of a ward round method according to an embodiment of the present invention, as shown in fig. 10, the flowchart includes the following steps:

s31, displaying a main ward-round interface corresponding to the target patient.

Please refer to the description of S21 in the embodiment shown in fig. 7 in detail, which is not repeated here.

S32, acquiring first ward round data of the target patient monitored by the local and target monitoring equipment, and correspondingly displaying the first ward round data in the parameter display area.

Please refer to the description of S22 in the embodiment shown in fig. 7 in detail, which is not repeated here.

S33, acquiring second ward-round data recorded in the user-defined parameter area and correspondingly displaying the second ward-round data in the user-defined parameter area.

Please refer to the description of S23 in the embodiment shown in fig. 7 in detail, which is not repeated here.

S34, based on the first ward round data and the second ward round data, ward round records of the target patient are generated.

Please refer to the description of S24 in the embodiment shown in fig. 7 in detail, which is not repeated here.

And S35, displaying a review interface in response to the selection operation of the ward-round review area.

The review interface comprises a review time selection area, a ward-round list area and a function area, wherein the ward-round list area is used for displaying ward-round data of at least one patient.

As shown in FIG. 11, the review time selection field is used to select the time of the ward data to be reviewed, and the function field provides operational functions, such as settings, printing, and the like.

The healthcare worker enters the review interface shown in fig. 11 by selecting the ward review area 1028 at the main ward interface.

S36, responding to the selection operation of the functional area, and displaying a setting record list interface.

When a healthcare worker needs to review different types of record forms, a selection operation can be performed in the functional area, and accordingly, the ward-round device displays a setup record list interface, for example, the setup record list interface shown in fig. 12. Specifically, the setting record list interface comprises a setting mode, a record list type and a plurality of physiological parameters.

S37, in response to the selection operation of the setting record list interface, determining the display item of the target record list.

And the medical staff performs selection operation on the setting record list interface, and correspondingly, the ward-round equipment responds to the selection operation to determine the display items of the target record list. For example, as shown in fig. 12, the selected display items include blood pressure and body temperature, and the recording sheet type is a body temperature sheet.

S38, in response to the selection operation of the review time selection area, determining data of each display item to generate a corresponding target record list.

The medical staff also needs to confirm the reviewing time, namely, select the reviewing time selection area to determine the data of each display item, and correspondingly, the ward-round device determines the specific numerical value of each display item of the patient corresponding to the reviewing time based on the reviewing time, so that the corresponding target record list can be generated.

Specifically, after the setting mode is set, different recording sheets can be selected for setting, and the setting mode can be manual or automatic. Classifying according to the setting of the contents of the record list in fig. 12, if the setting mode is manual, automatically classifying the parameters selected by the medical staff into the record list types of the setting, wherein the setting is effective to the department, and multiple settings are not needed; the ward-round record stored on the device after the ward-round is finished can be printed or uploaded by medical staff, and the ward-round device can be uploaded while being stored; if the medical staff sets the mode to be automatic, the ward-round device 102 sends out the ward-round records all according to the record list items in the server, and the ward-round records are automatically filled after the parameter names are compared.

According to the ward-round method provided by the embodiment, the ward-round review area is further provided on the main ward-round interface, so that after ward-round is finished, the ward-round data of each patient can be automatically classified and sorted through corresponding selection on the record list interface, a corresponding target record list is formed, manual classification processing of the record list is avoided, and the working efficiency and accuracy are improved.

In some optional implementations of this embodiment, the ward-round list area has a ward-round record detail tag corresponding to each patient, and the ward-round method further includes: in response to a selection operation of the ward record detail tab for the target patient, a ward record of the target patient corresponding to the selection result of the review time selection field is displayed.

As shown in fig. 11, the healthcare worker enters ward record details 10212 shown in fig. 13 by selecting to view ward record detail tab 10211. The healthcare worker may print, upload, etc. the ward record details 10212.

The ward-round list area is provided with a ward-round record detail label, and the complete ward-round record of each patient can be checked through the label, so that the illness state review is facilitated.

In other optional implementations of this embodiment, the ward-round method may further include:

(1) Uploading the ward record to a server so that the server analyzes the ward record to determine an analysis result.

(2) And receiving and displaying the analysis result sent by the server.

Further optionally, the ward-round method further includes:

(1) And acquiring preset ward round time.

(2) And when the preset ward round time is reached and the ward round is not performed, a ward round reminder is sent out.

Specifically, the server sends the preset ward-round time to the corresponding ward-round equipment. The server sends the preset ward-round time to corresponding ward-round equipment according to the doctor's advice information, and if the medical staff performs ward-round in the preset ward-round time, the medical staff can cancel the preset ward-round time through the ward-round equipment; if the medical staff does not check the room at the preset ward-round time, ward-round equipment can send ward-round reminding. The method can reduce the time spent by medical staff to record or check the ward-round plan, and improve ward-round efficiency.

As a specific application example of this embodiment, as shown in fig. 14, the ward-round method includes:

step 200, medical staff sets query conditions by using ward round equipment.

Step 201, obtaining puerpera information and doctor's advice information from a hospital information system. The ward-round device 102 first acquires data such as patient information, medical advice information, and measurement plan from the hospital information system 101 according to the query conditions set by the medical staff.

Step 202, monitoring vital sign parameters of a parturient according to patient information, doctor's advice information, measurement plan and other data to obtain first ward round data.

Step 203, obtaining second ward round data uploaded by the glucometer and the fetal heart meter.

Step 204, collecting third ward round data recorded by medical staff by using a voice collecting module in ward round equipment.

It should be noted that the execution sequence of steps 203 to 204 is not limited herein.

Step 205, integrating the ward-round data to form a ward-round record, and uploading the ward-round record to the hospital information system.

After uploading to the information system, step 206, the patient measurement plan is marked as completed in the hospital information system, and if the measurement plan is not completed within a specified time, the ward-round device 102 is moved to remind the medical staff to perform ward-round.

Specifically, fig. 6 is a main ward interface of ward device 102. During ward rounds, the ward round device 102 displays the puerpera information issued by the hospital information system, ward round data obtained by monitoring of the ward round device 102, blood glucose values uploaded by the blood glucose meter and fetal heart rate uploaded by the fetal heart rate meter on a main ward round interface.

The overrun parameter can be checked in the prompt area 1022 of the main ward interface, and the corresponding display area flicker prompt is also provided in the parameter display area 1024 of the main ward interface. The medical staff can click the parameter input box of the custom parameter area 1025 of the main ward interface to input parameter values, can use the numeric keyboard 1026 to input, can click the voice input icon 1027 to input voice, and can perform data transmission by wireless (e.g. Bluetooth) or wired through wearable fetal heart Doppler.

Fig. 9 is a patient information display interface of a puerpera, and a medical staff can click an information display area 1023 of a puerpera main ward-round interface to check puerpera information, enter a puerpera condition and perform measures in ward-round process, and can click a keyboard input key 1029 to input, and can click a voice input 1027 icon to perform voice-to-text input.

Further, the healthcare worker can enter the review page through the main ward-round interface ward-round review area 1028 to view the ward-round data list, and the healthcare worker can click the setting icon 10210 to enter the setting record list content page.

The medical staff can click the ward-round record detail icon 10211 in fig. 11 to check a complete ward-round record, and the abnormal parameter values in the ward-round record detail 10212 are subjected to red marking processing to prompt the medical staff. The healthcare worker can click print or upload the ward details page 10212, upload the ward records to the hospital information system, or print out the ward records.

According to the ward-round method provided by the embodiment, the fetal heart rate monitor and the blood glucose meter are connected into ward-round equipment, so that the ward-round equipment can be used for ward-round of a puerpera. After the content of the record list is set, the ward-round equipment automatically classifies the ward-round data to generate a corresponding record list.

Although embodiments of the present invention have been described in connection with the accompanying drawings, various modifications and variations may be made by those skilled in the art without departing from the spirit and scope of the invention, and such modifications and variations fall within the scope of the invention as defined by the appended claims.

Claims

1. A ward round method, comprising:

2. The ward-round method according to claim 1, wherein the obtaining the second ward-round data recorded in the custom parameter area and correspondingly displayed in the custom parameter area includes:

3. The ward-round method of claim 2, wherein the custom parameter interface includes a character entry field and a voice entry field, the determining the value of the target parameter in response to an input operation to the custom parameter interface comprising:

or alternatively, the first and second heat exchangers may be,

4. The method of claim 1, wherein the main ward interface further comprises an information display area, and wherein generating the ward record of the target patient based on the first ward data and the second ward data comprises:

5. The ward round method of claim 4, wherein the information interface further comprises a basic information area for displaying basic information of the target patient and an order information area for displaying an order of the target patient.

6. The method of claim 1, wherein the master ward interface further comprises a ward review area, the method further comprising:

7. The ward round method of claim 6, wherein the ward round list area has ward round record detail tags for each patient, the ward round method further comprising:

8. The method of ward round as in claim 1, further comprising:

and receiving and displaying the analysis result sent by the server.

9. The method of ward round as in claim 1, further comprising:

acquiring preset ward round time;

10. A ward round apparatus, comprising:

a memory and a processor, the memory and the processor being communicatively coupled to each other, the memory having stored therein computer instructions, the processor executing the computer instructions to perform the ward round method of any of claims 1-9.

11. A ward round system, comprising:

the target monitoring device is provided with a first communication module;

12. The ward round system of claim 11, wherein the ward round device comprises a voice input module for entering the second ward round data.