CN117153314A - Medical patient receiving information synchronization system and application method thereof - Google Patents

Abstract

The application relates to a doctor-patient diagnosis information synchronization system and an application method thereof, which can synchronously synchronize diagnosis information to an inspection center server and an HIS diagnosis system after the diagnosis information of a patient is processed through a background management system, and can synchronously synchronize the inspection data to a terminal for the patient to check and to the HIS diagnosis system for a doctor to check by using the background management system after the inspection data of the patient is generated by subsequent inspection.

Description

Medical patient receiving information synchronization system and application method thereof

Technical Field

The disclosure relates to the technical field of medical systems, in particular to a doctor-patient diagnosis information synchronization method, an application system thereof and electronic equipment.

Background

The HIS system, namely a hospital information system (Hospital Information System), can comprehensively manage the people stream, the logistics and the financial stream of the hospital and departments to which the hospital belongs, collect, store, process, extract, transmit and summarize the data generated in each stage of medical activity, process and form various information, thereby providing a comprehensive automatic management and information system of various services for the integral operation of the hospital.

On the medical examination item of the physical examination of the patient, the patient needs to go to the examination center for examination after the patient is subjected to the diagnosis treatment in the diagnosis receiving system of the HIS system, and needs to wait for a period of time after the examination, return again and use the examination mark such as an identity card or a diagnosis card and the like to go to the report printing part of the examination center for printing the examination list of the blood pressure, the height, the weight or other examination items. If the patient is aged or the patient is uncomfortable, inconvenient, or the test center cannot be kept for a long time due to diseases (to go to other departments for examination), the subsequent patient needs to return to the test center again, which definitely brings a large diagnosis burden to the patient.

In addition, if the doctor needs to know the examination information of the patient, he needs to log in the background and retrieve the information of the patient from the background management system. In the process of taking a doctor's diagnosis, it takes a certain time to take the doctor to wait for the doctor to retrieve the inspection information from the database of the background management system according to the patient's diagnosis information such as the diagnosis ID, so that the waiting time of the doctor's diagnosis and the patient's diagnosis is increased, the hospital's diagnosis resource is consumed, and the diagnosis efficiency is reduced.

Moreover, the background system processes the patient diagnosis information, basically has a single logic management flow, such as processing and calling management of the diagnosis information, and can only call from one system to another system, so that the processing logic is single and the efficiency is low.

Disclosure of Invention

In order to solve the above problems, the present application provides a method for synchronizing doctor-patient information, an application system thereof, and an electronic device.

In one aspect of the present application, a method for synchronizing doctor-patient information is provided, including the following steps:

establishing communication between a background management system and the verification center server as well as between the HIS diagnosis receiving system;

logging in the background management system through a terminal, uploading basic information of a current patient and storing the basic information into the background management system;

after the background management system carries out diagnosis treatment on the basic information, the generated test medical record list is synchronously shared to the test center server and the HIS diagnosis system;

and the inspection center server feeds the inspection data responding to the diagnosis information back to the background management system, and after the background management system registers, the inspection data is synchronously fed back to the terminal and the HIS diagnosis system.

As an optional embodiment of the application, optionally, establishing communication between the background management system and the verification center server and the HIS interface system includes:

the background management system respectively sends access requests to the inspection center server and the HIS diagnosis system, wherein the access requests comprise: the system comprises a background management system, a checking center server and an HIS (high-speed interface) diagnosis system, wherein the background management system, the checking center server and the HIS diagnosis system share management protocol for checking data;

the inspection center server and the HIS receiving system respectively receive the access requests and check the sharing management protocol of the inspection data:

if the protocol is received, respectively feeding back to the background management system;

and the background management system establishes an access channel between the background management system and the inspection center server and the HIS diagnosis system according to feedback respectively made by the inspection center server and the HIS diagnosis system.

As an optional embodiment of the present application, optionally, establishing communication between the background management system and the verification center server and the HIS interface system further comprises:

if the protocol is not received, modifying the shared management protocol respectively, and feeding the modified shared management protocol back to the background management system respectively;

the background management system carries out auditing on the modified shared management protocol fed back by the inspection center server and the HIS diagnosis system respectively, obtains a new shared management protocol after auditing treatment, and sends the new shared management protocol to the inspection center server and the HIS diagnosis system respectively;

when the unified sharing management protocol is reached, an access channel between the background management system and the verification center server and the HIS diagnosis system is established.

As an optional embodiment of the present application, optionally, the background management system includes:

the file management module is used for storing the doctor ID of the current patient and generating a doctor file of the current patient according to the basic information;

the medical record management module is used for establishing a corresponding test medical record list for the current patient and binding the test medical record list of the current patient under the treatment ID of the current patient; storing the test medical record list of the current patient into a background database, and synchronously issuing the test medical record list to a message management module;

and the message management module is used for orderly distributing and managing the test medical record list of the current patient by utilizing the message management queue and sequentially sending the test medical record list of the current patient to the test center server and the HIS diagnosis receiving system.

As an optional embodiment of the present application, optionally, after the background management system performs the diagnosis process on the basic information, the background management system synchronously shares the generated test medical record list to the test center server and the HIS diagnosis system, including:

the background management system receives the basic information and synchronously forwards the basic information to the archive management module and the medical record management module;

the archive management module stores the doctor ID of the current patient and generates a doctor archive of the current patient according to the basic information;

the medical record management module establishes a corresponding test medical record list for the current patient, binds the test medical record list of the current patient under the treatment ID of the current patient, stores the test medical record list of the current patient in a background database and synchronously transmits the test medical record list to the message management module;

the message management module utilizes a message management queue to carry out orderly distribution management on the test medical record list of the current patient, and synchronously transmits the test medical record list of the current patient to the test center server and the HIS diagnosis receiving system in sequence;

after receiving the test medical record list, the test center server prepares to respond to the test medical record list;

and after receiving the test medical record list, the HIS interface system waits for the background management system to forward the response made by the test center server.

As an optional embodiment of the present application, optionally, the inspection center server feeds back inspection data in response to the diagnosis information to the backend management system, and after registration by the backend management system, feeds back the inspection data to the terminal and the HIS diagnosis system synchronously, including:

the test center server receives the test medical record list, responds to the test medical record list, generates the test data of the current patient, and feeds the test data back to the background management system;

the background management system receives the test data and forwards the test data to the medical record management module, the medical record management module binds the test data under the doctor ID of the current patient, and sends and stores the test data into a background database to be synchronously issued to the message management module;

and the message management module utilizes a message management queue to carry out orderly distribution management on the test data of the current patient, and synchronously transmits the test data of the current patient to the terminal and the HIS diagnosis system in sequence.

In another aspect of the present application, an application system of a method for synchronizing patient-to-patient information is provided, including:

the terminal is used for logging in the background management system by the current patient, uploading basic information of the current patient and checking the checking data fed back by the background management system;

the background management system is used for registering and storing basic information of a patient, and synchronously sharing the generated test medical record list to the test center server and the HIS diagnosis receiving system after performing diagnosis receiving treatment on the basic information; synchronously feeding back the test data fed back by the test center server to the terminal and the HIS diagnosis receiving system;

the inspection center server is used for responding to the diagnosis information sent by the background management system and feeding the inspection data after responding to the diagnosis information back to the background management system;

the HIS receiving system is used for receiving and storing the test data of the current patient, and synchronously calling the test data of the current patient according to the basic information of the current patient when a doctor logs in, so as to be used for receiving the doctor to check.

In another aspect, the present application further provides an electronic device, including:

a processor;

a memory for storing processor-executable instructions;

wherein the processor is configured to implement an application method of the doctor-patient interface information synchronization system when executing the executable instructions.

The application has the technical effects that:

the application establishes communication between the background management system and the verification center server as well as the HIS diagnosis receiving system; logging in the background management system through a terminal, uploading basic information of a current patient and storing the basic information into the background management system; after the background management system carries out diagnosis treatment on the basic information, the generated test medical record list is synchronously shared to the test center server and the HIS diagnosis system; and the inspection center server feeds the inspection data responding to the diagnosis information back to the background management system, and after the background management system registers, the inspection data is synchronously fed back to the terminal and the HIS diagnosis system. After the patient's diagnosis information is processed through the background management system, the diagnosis information is synchronously synchronized to the inspection center server and the HIS diagnosis system, after the follow-up inspection generates the patient's inspection data, the background management system can be used for synchronizing the inspection data to the terminal for the patient to check and to the HIS diagnosis system for the doctor to check, the diagnosis data synchronization is realized through a duplex synchronization mechanism, and the time for retrieving the inspection information from the database is reduced through the duplex synchronization mechanism, so that the diagnosis waiting time caused by a single logic management flow is shortened, and the diagnosis efficiency is improved.

Other features and aspects of the present disclosure will become apparent from the following detailed description of exemplary embodiments, which proceeds with reference to the accompanying drawings.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate exemplary embodiments, features and aspects of the present disclosure and together with the description, serve to explain the principles of the disclosure.

FIG. 1 is a flow chart of the method for synchronizing the patient interface information according to the present application;

FIG. 2 is a schematic diagram of the components of the application system of the present application;

fig. 3 is a schematic diagram illustrating the establishment of a duplex synchronization mechanism according to the present application;

FIG. 4 is a schematic diagram of a synchronized test medical record of the present application;

FIG. 5 is a schematic diagram of the synchronization verification data of the present application;

fig. 6 shows a schematic application diagram of the electronic device of the application.

Detailed Description

Various exemplary embodiments, features and aspects of the disclosure will be described in detail below with reference to the drawings. In the drawings, like reference numbers indicate identical or functionally similar elements. Although various aspects of the embodiments are illustrated in the accompanying drawings, the drawings are not necessarily drawn to scale unless specifically indicated.

The word "exemplary" is used herein to mean "serving as an example, embodiment, or illustration. Any embodiment described herein as "exemplary" is not necessarily to be construed as preferred or advantageous over other embodiments.

In addition, numerous specific details are set forth in the following detailed description in order to provide a better understanding of the present disclosure. It will be understood by those skilled in the art that the present disclosure may be practiced without some of these specific details. In some instances, well known means, elements, and circuits have not been described in detail so as not to obscure the present disclosure.

In this embodiment, the test data may be test data of height, weight, blood pressure, etc. of the patient, which is not limited by the present application. And (3) according to the required inspection items, the test is carried out to an inspection center, and corresponding inspection data are generated and fed back by the inspection center.

Example 1

As shown in fig. 1, in one aspect of the present application, a method for synchronizing doctor-patient information is provided, which includes the following steps:

s1, establishing communication between a background management system, a verification center server and an HIS (high-intensity system interface) diagnosis system;

s2, logging in the background management system through a terminal, uploading basic information of a current patient, and storing the basic information to the background management system;

s3, after the background management system carries out diagnosis treatment on the basic information, the generated test medical record list is synchronously shared to the test center server and the HIS diagnosis system;

and S4, the inspection center server feeds the inspection data responding to the diagnosis information back to the background management system, and after the background management system registers, the inspection data is synchronously fed back to the terminal and the HIS diagnosis system.

The application mainly uses a duplex synchronization mechanism between a background management system and an inspection center server as well as an HIS (high-speed interface) diagnosis system to process the diagnosis information of a patient, then synchronizes the diagnosis information to the inspection center server and the HIS diagnosis system, and after the inspection data of the patient are generated by subsequent inspection, the background management system can be used for synchronizing the inspection data to a terminal for the patient to check and to the HIS diagnosis system for a doctor to check, the data synchronization of the diagnosis is realized by the duplex synchronization mechanism, and the time for retrieving the inspection information from a database is reduced by the duplex synchronization mechanism, so that the diagnosis waiting time caused by a single logic management flow is shortened, and the diagnosis efficiency is improved.

Fig. 2 is a schematic diagram of an application system for implementing the present embodiment. The hospital background server is provided with a background management system (software or APP, mainly used by a consultation foreground/window), the software corresponding to the system can enter the background management system (webpage, APP or applet) by the current patient through a terminal login mode, the current patient inputs own basic information through the terminal, and a basic file and a corresponding medical record list of the current patient are generated on the background management system. The background management system is communicated with a checking center server (namely an application server of the checking center for processing checking medical records sent by the background management system) and the HIS diagnosis receiving system (mainly diagnosis receiving management software for doctors). The checking center server can respond to the medical record list of the current patient issued by the background management system of the background service, and the generated checking data after checking the patient is fed back to the background management system.

The patient only needs to go to the test center for testing, and then the test center server responds to the current patient case file (the test case history list of the current patient is stored on the server of the test center, and after the patient is tested, test data is stored and fed back to the background management system). After the response, the test data is fed back to the background management system, and the test data is synchronously issued to the terminal and the HIS diagnosis receiving system by the background management system. The HIS diagnosis system mainly provides a diagnosis management system for an attending doctor, the doctor logs in and enters the HIS diagnosis system through an operation terminal of the doctor, and the information under the current patient diagnosis ID can be directly called out from the HIS diagnosis system according to the current patient diagnosis ID such as the patient diagnosis card or the identity card during diagnosis. The patient can also view his own test data through his terminal.

As shown in fig. 3, the scheme needs to establish a communication protocol related to the test data between the background management system and the test center server and the HIS interface system, and the three needs to synchronously share the test data based on a sharing management protocol of the test data.

As an optional embodiment of the application, optionally, establishing communication between the background management system and the verification center server and the HIS interface system includes:

the background management system respectively sends access requests to the inspection center server and the HIS diagnosis system, wherein the access requests comprise: the system comprises a background management system, a checking center server and an HIS (high-speed interface) diagnosis system, wherein the background management system, the checking center server and the HIS diagnosis system share management protocol for checking data;

the inspection center server and the HIS receiving system respectively receive the access requests and check the sharing management protocol of the inspection data:

if the protocol is received, respectively feeding back to the background management system;

and the background management system establishes an access channel between the background management system and the inspection center server and the HIS diagnosis system according to feedback respectively made by the inspection center server and the HIS diagnosis system.

The background manager can make and generate a sharing management protocol for sharing management of the inspection data on the background management system, generate a corresponding access request according to the sharing management protocol, and respectively send the access request to the inspection center server and the HIS diagnosis receiving system through the background management system.

By issuing the access request, establishment of synchronous communication based on the shared management protocol is requested.

After receiving the access request of the background management system, the inspection center server and the HIS diagnosis system can analyze the access request to acquire and check the shared management protocol of the inspection data, if the shared management protocol of the inspection center server and the HIS diagnosis system is kept positive to the shared management protocol of the background management system, the inspection center server and the HIS diagnosis system respectively respond to the access request, and the background management system can respectively establish synchronous communication channels with the inspection center, the server and the HIS diagnosis system based on the response.

The specific communication protocol type is not limited in this embodiment, such as http or TCP/IP protocol.

The specific content of the sharing management protocol is set by a background manager, and is mainly a communication management protocol for checking data: after the checking center server generates checking data, the checking data is directly fed back to the background management system according to the established communication channel; the background management system does not need to carry out review processing on the inspection data fed back by the inspection center server or does not need to carry out any background management processing, and the inspection data is directly forwarded to the HIS diagnosis receiving system again based on the shared management protocol.

After the shared management protocol is established, the background management system can be used as a transfer station between the inspection center server and the HIS interface system, and the background management system directly shares and synchronizes the inspection data to the HIS interface system, so that other interface treatment parties or access request treatment on the background management system are not needed during the period, and the management module on the background management system is not needed to carry out further logic treatment on the inspection data and then send the inspection data to the HIS interface system.

The doctor does not need to send a request for acquiring the test data to the background management system through the HIS system (the prior request for acquiring the test data is sent to the background management system through the HIS system, and the corresponding test data is fed back to the HIS system for a doctor to check after the background responds to the request), so that the sharing synchronization of the test data is directly realized, the flow time for acquiring the test data by the HIS system is shortened, and the efficiency is improved.

As an optional embodiment of the present application, optionally, establishing communication between the background management system and the verification center server and the HIS interface system further comprises:

if the protocol is not received, modifying the shared management protocol respectively, and feeding the modified shared management protocol back to the background management system respectively;

the background management system carries out auditing on the modified shared management protocol fed back by the inspection center server and the HIS diagnosis system respectively, obtains a new shared management protocol after auditing treatment, and sends the new shared management protocol to the inspection center server and the HIS diagnosis system respectively;

when the unified sharing management protocol is reached, an access channel between the background management system and the verification center server and the HIS diagnosis system is established.

The sharing management protocol is formulated by a background manager and synchronously issued to the inspection center server and the HIS diagnosis receiving system through the background management system. For the receiving party-checking center server and the background manager of the HIS receiving system, whether the shared management protocol sent by the background management system is accepted or not can be judged by combining the comments of all departments, if the shared management protocol is not accepted, the shared management protocol can be modified, some clauses or rules in the protocol are correspondingly modified, and the modified clauses or rules are fed back to the background management system. And auditing, annotating or otherwise processing the modified protocol by the background management system. And then a new access request is sent to the verification center server and the HIS receiving system again.

Based on the above model, until a unified protocol is reached, the background management system establishes communication with the verification center server and the HIS interface system.

As an optional embodiment of the present application, optionally, the background management system includes:

the file management module is used for storing the doctor ID of the current patient and generating a doctor file of the current patient according to the basic information;

the medical record management module is used for establishing a corresponding test medical record list for the current patient and binding the test medical record list of the current patient under the treatment ID of the current patient; storing the test medical record list of the current patient into a background database, and synchronously issuing the test medical record list to a message management module;

and the message management module is used for orderly distributing and managing the test medical record list of the current patient by utilizing the message management queue and sequentially sending the test medical record list of the current patient to the test center server and the HIS diagnosis receiving system.

As shown in fig. 2, the background management system is configured with a corresponding archive management, medical record management and message management module. The file management is mainly to generate a basic file of the current patient after the background management system receives the basic information which is logged in and uploaded by the current patient through the terminal, and store the file of the patient on the background server so as to manage the treatment files of each patient. The case management is mainly that a patient's examination medical record list is generated according to the patient's visit request (selected examination item), for example, if the current patient needs to be subjected to blood pressure examination, a case management module establishes a corresponding blood pressure-examination medical record list for the current patient, binds the medical record list under the patient's visit ID of the patient file, and sends and stores the medical record list in a background database; the medical record management module synchronously transmits the test medical record list to the message management module. The message management module is mainly a message middleware and is used for orderly distributing and managing the test medical records of a large number of patients, and the test medical records of each patient can be orderly issued to the test center server and the HIS diagnosis receiving system based on a message queue such as a Kafka message queue.

As an optional embodiment of the present application, optionally, after the background management system performs the diagnosis process on the basic information, the background management system synchronously shares the generated test medical record list to the test center server and the HIS diagnosis system, including:

the background management system receives the basic information and synchronously forwards the basic information to the archive management module and the medical record management module;

the archive management module stores the doctor ID of the current patient and generates a doctor archive of the current patient according to the basic information;

the medical record management module establishes a corresponding test medical record list for the current patient, binds the test medical record list of the current patient under the treatment ID of the current patient, stores the test medical record list of the current patient in a background database and synchronously transmits the test medical record list to the message management module;

the message management module utilizes a message management queue to carry out orderly distribution management on the test medical record list of the current patient, and synchronously transmits the test medical record list of the current patient to the test center server and the HIS diagnosis receiving system in sequence;

after receiving the test medical record list, the test center server prepares to respond to the test medical record list;

and after receiving the test medical record list, the HIS interface system waits for the background management system to forward the response made by the test center server.

As shown in fig. 4, after receiving the test chart synchronously issued by the background management system through the message management module, the test center server may store the test chart, prepare test item materials for the current patient, and the like, and generate a test blank list for the current patient on the test center server according to the test chart, and then write test information into a preset test blank list after testing the current patient.

After receiving the test medical record list issued by the background management system through the message management module, the HIS diagnosis system can establish the diagnosis file of the current patient on the HIS diagnosis system and store the diagnosis file in the HIS diagnosis system according to the mode of the test medical record list. And after the follow-up test data is synchronously fed back by the background management system, the follow-up test data is directly written into a test medical record list of the HIS diagnosis receiving system. When a doctor makes a visit, the doctor enters the HIS diagnosis system through the doctor operation terminal, and the examination medical record list and the corresponding examination data of the current patient can be directly checked. The diagnosis ID of the current patient is input into the HIS diagnosis system, so that the examination medical record list and the corresponding examination data of the current patient stored in the HIS diagnosis system can be adjusted and taken out, and a request for acquiring the examination medical record list and the corresponding examination data of the patient does not need to be initiated to a background server, so that the diagnosis time is saved.

As an optional embodiment of the present application, optionally, the inspection center server feeds back inspection data in response to the diagnosis information to the backend management system, and after registration by the backend management system, feeds back the inspection data to the terminal and the HIS diagnosis system synchronously, including:

the test center server receives the test medical record list, responds to the test medical record list, generates the test data of the current patient, and feeds the test data back to the background management system;

the background management system receives the test data and forwards the test data to the medical record management module, the medical record management module binds the test data under the doctor ID of the current patient, and sends and stores the test data into a background database to be synchronously issued to the message management module;

and the message management module utilizes a message management queue to carry out orderly distribution management on the test data of the current patient, and synchronously transmits the test data of the current patient to the terminal and the HIS diagnosis system in sequence.

As shown in fig. 5, the patient goes to the test center for a test such as blood pressure or height weight, the test center server responds to the current patient's consultation information, after which test data is uploaded to the test center server and a test blank list prepared for the current patient in advance is written.

The test center server can feed the test data back to the background management system in the form of a test report form, such as a diagnosis list, or a test diagnosis list, a test report and the like, the background management system forwards the test report and other data containing the test data to the case management module, the case management module processes the test report, binds the test report and the like under the diagnosis file of the current patient and stores the test report in the background database, and the case management module forwards the test data to the message management module.

The message management module synchronously issues the test data of the current patient to the HIS interface system and to the terminal (user side) through the port of the background server based on the message management mode of the message queue.

Therefore, after the diagnosis information of the patient is processed by using a duplex synchronization mechanism between the background management system and the inspection center server and the HIS diagnosis system, the diagnosis information is synchronized to the inspection center server and the HIS diagnosis system, after the inspection data of the patient is generated by subsequent inspection, the inspection data can be synchronized to the terminal by using the background management system for the patient to check and synchronized to the HIS diagnosis system for the doctor to check, the diagnosis data synchronization is realized by using the duplex synchronization mechanism, and the time for retrieving the inspection information from the database is reduced by using the duplex synchronization mechanism, so that the diagnosis waiting time caused by a single logic management flow is shortened, and the diagnosis efficiency is improved.

It should be apparent to those skilled in the art that implementing all or part of the above-described embodiments may be accomplished by computer programs to instruct related hardware, and the programs may be stored in a computer readable storage medium, which when executed may include the processes of the embodiments of the controls described above. It will be appreciated by those skilled in the art that implementing all or part of the above-described embodiments may be accomplished by computer programs to instruct related hardware, and the programs may be stored in a computer readable storage medium, which when executed may include the processes of the embodiments of the controls described above. The storage medium may be a magnetic disk, an optical disc, a Read-only memory (ROM), a random access memory (RandomAccessMemory, RAM), a flash memory (flash memory), a hard disk (HDD), or a Solid State Drive (SSD); the storage medium may also comprise a combination of memories of the kind described above.

Example 2

As shown in fig. 2, based on the implementation principle of embodiment 1, another aspect of the present application provides an application system of a doctor-patient diagnosis information synchronization method, which includes:

the terminal is used for logging in the background management system by the current patient, uploading basic information of the current patient and checking the checking data fed back by the background management system;

the background management system is used for registering and storing basic information of a patient, and synchronously sharing the generated test medical record list to the test center server and the HIS diagnosis receiving system after performing diagnosis receiving treatment on the basic information; synchronously feeding back the test data fed back by the test center server to the terminal and the HIS diagnosis receiving system;

the inspection center server is used for responding to the diagnosis information sent by the background management system and feeding the inspection data after responding to the diagnosis information back to the background management system;

the HIS receiving system is used for receiving and storing the test data of the current patient, and synchronously calling the test data of the current patient according to the basic information of the current patient when a doctor logs in, so as to be used for receiving the doctor to check.

The interaction process between the above-mentioned system main bodies is described in embodiment 1.

The modules or steps of the application described above may be implemented in a general-purpose computing device, they may be centralized in a single computing device, or distributed across a network of computing devices, or they may alternatively be implemented in program code executable by a computing device, such that they may be stored in a memory device and executed by a computing device, or they may be separately fabricated into individual integrated circuit modules, or multiple modules or steps within them may be fabricated into a single integrated circuit module. Thus, the present application is not limited to any specific combination of hardware and software.

Example 3

As shown in fig. 6, in still another aspect, the present application further provides an electronic device, including:

a processor;

a memory for storing processor-executable instructions;

wherein the processor is configured to implement an application method of the doctor-patient interface information synchronization system when executing the executable instructions.

Embodiments of the present disclosure provide for an electronic device that includes a processor and a memory for storing processor-executable instructions. The processor is configured to implement the method of any of the above-described doctor-patient information synchronization systems when executing the executable instructions.

Here, it should be noted that the number of processors may be one or more. Meanwhile, in the electronic device of the embodiment of the disclosure, an input device and an output device may be further included. The processor, the memory, the input device, and the output device may be connected by a bus, or may be connected by other means, which is not specifically limited herein.

The memory is a computer-readable storage medium that can be used to store software programs, computer-executable programs, and various modules, such as: the application method of the medical patient diagnosis information synchronization system of the embodiment of the disclosure corresponds to a program or a module. The processor executes various functional applications and data processing of the electronic device by running software programs or modules stored in the memory.

The input device may be used to receive an input number or signal. Wherein the signal may be a key signal generated in connection with user settings of the device/terminal/server and function control. The output means may comprise a display device such as a display screen.

The foregoing description of the embodiments of the present disclosure has been presented for purposes of illustration and description, and is not intended to be exhaustive or limited to the embodiments disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art without departing from the scope and spirit of the various embodiments described. The terminology used herein was chosen in order to best explain the principles of the embodiments, the practical application, or the technical improvement of the technology in the marketplace, or to enable others of ordinary skill in the art to understand the embodiments disclosed herein.

Claims (8)

1. A doctor-patient consultation information synchronization method is characterized by comprising the following steps:

establishing communication between a background management system and the verification center server as well as between the HIS diagnosis receiving system;

logging in the background management system through a terminal, uploading basic information of a current patient and storing the basic information into the background management system;

after the background management system carries out diagnosis treatment on the basic information, the generated test medical record list is synchronously shared to the test center server and the HIS diagnosis system;

and the inspection center server feeds the inspection data responding to the diagnosis information back to the background management system, and after the background management system registers, the inspection data is synchronously fed back to the terminal and the HIS diagnosis system.

2. The method of synchronizing doctor-patient interface information according to claim 1, wherein establishing communication between the background management system and the verification center server and HIS interface system comprises:

the background management system respectively sends access requests to the inspection center server and the HIS diagnosis system, wherein the access requests comprise: the system comprises a background management system, a checking center server and an HIS (high-speed interface) diagnosis system, wherein the background management system, the checking center server and the HIS diagnosis system share management protocol for checking data;

the inspection center server and the HIS receiving system respectively receive the access requests and check the sharing management protocol of the inspection data:

if the protocol is received, respectively feeding back to the background management system;

and the background management system establishes an access channel between the background management system and the inspection center server and the HIS diagnosis system according to feedback respectively made by the inspection center server and the HIS diagnosis system.

3. The method of synchronizing doctor-patient interface information according to claim 2, wherein establishing communication between the background management system and the verification center server and HIS interface system further comprises:

if the protocol is not received, modifying the shared management protocol respectively, and feeding the modified shared management protocol back to the background management system respectively;

the background management system carries out auditing on the modified shared management protocol fed back by the inspection center server and the HIS diagnosis system respectively, obtains a new shared management protocol after auditing treatment, and sends the new shared management protocol to the inspection center server and the HIS diagnosis system respectively;

when the unified sharing management protocol is reached, an access channel between the background management system and the verification center server and the HIS diagnosis system is established.

4. The method for synchronizing doctor-patient information according to claim 1, wherein the background management system comprises:

the file management module is used for storing the doctor ID of the current patient and generating a doctor file of the current patient according to the basic information;

the medical record management module is used for establishing a corresponding test medical record list for the current patient and binding the test medical record list of the current patient under the treatment ID of the current patient; storing the test medical record list of the current patient into a background database, and synchronously issuing the test medical record list to a message management module;

and the message management module is used for orderly distributing and managing the test medical record list of the current patient by utilizing the message management queue and sequentially sending the test medical record list of the current patient to the test center server and the HIS diagnosis receiving system.

5. The method for synchronizing doctor-patient information according to claim 4, wherein the step of synchronizing the generated test medical record list to the test center server and the HIS diagnosis system after the step of performing the diagnosis on the basic information by the background management system includes:

the background management system receives the basic information and synchronously forwards the basic information to the archive management module and the medical record management module;

the archive management module stores the doctor ID of the current patient and generates a doctor archive of the current patient according to the basic information;

the medical record management module establishes a corresponding test medical record list for the current patient, binds the test medical record list of the current patient under the treatment ID of the current patient, stores the test medical record list of the current patient in a background database and synchronously transmits the test medical record list to the message management module;

the message management module utilizes a message management queue to carry out orderly distribution management on the test medical record list of the current patient, and synchronously transmits the test medical record list of the current patient to the test center server and the HIS diagnosis receiving system in sequence;

after receiving the test medical record list, the test center server prepares to respond to the test medical record list;

and after receiving the test medical record list, the HIS interface system waits for the background management system to forward the response made by the test center server.

6. The method according to claim 5, wherein the checking-out center server feeds out checking-out data in response to the diagnosis information to the back-office management system, and after registration by the back-office management system, feeds out the checking-out data to the terminal and the HIS diagnosis system in synchronization, comprising:

the test center server receives the test medical record list, responds to the test medical record list, generates the test data of the current patient, and feeds the test data back to the background management system;

the background management system receives the test data and forwards the test data to the medical record management module, the medical record management module binds the test data under the doctor ID of the current patient, and sends and stores the test data into a background database to be synchronously issued to the message management module;

and the message management module utilizes a message management queue to carry out orderly distribution management on the test data of the current patient, and synchronously transmits the test data of the current patient to the terminal and the HIS diagnosis system in sequence.

7. An application system of a doctor-patient consultation information synchronization method, which is characterized by comprising the following steps:

the terminal is used for logging in the background management system by the current patient, uploading basic information of the current patient and checking the checking data fed back by the background management system;

the background management system is used for registering and storing basic information of a patient, and synchronously sharing the generated test medical record list to the test center server and the HIS diagnosis receiving system after performing diagnosis receiving treatment on the basic information; synchronously feeding back the test data fed back by the test center server to the terminal and the HIS diagnosis receiving system;

the inspection center server is used for responding to the diagnosis information sent by the background management system and feeding the inspection data after responding to the diagnosis information back to the background management system;

the HIS receiving system is used for receiving and storing the test data of the current patient, and synchronously calling the test data of the current patient according to the basic information of the current patient when a doctor logs in, so as to be used for receiving the doctor to check.

8. An electronic device, comprising:

a processor;

a memory for storing processor-executable instructions;

wherein the processor is configured to implement the doctor-patient information synchronization method of any one of claims 1-6 when executing the executable instructions.