CN112164452B - Hierarchical infectious disease management method and hierarchical infectious disease management system - Google Patents

Abstract

The invention provides a hierarchical infectious disease management method and system, wherein the method comprises the following steps: the acquisition network acquires detection data and reports the detection data to a corresponding primary monitoring network; after the primary monitoring network carries out sharing confirmation according to the detection data, an analysis result is generated and reported to the secondary monitoring network; and the secondary monitoring network generates a detection report after analysis and authentication are carried out according to the analysis result, and the detection report is issued to the acquisition network through the primary monitoring network. The invention realizes data interconnection and intercommunication, not only ensures that different business departments keep the actual demands of the attribution of the respective business data, but also ensures the timeliness and accuracy of the circulation of the business data in different business systems.

Description

Hierarchical infectious disease management method and hierarchical infectious disease management system

Technical Field

The present invention relates to the field of data communication technologies, and in particular, to a hierarchical infectious disease management method and system.

Background

Infectious disease (Infectious Diseases) is a group of diseases caused by a variety of pathogens that can be transmitted inter-between humans, animals, or humans and animals. Generally, the disease can be transmitted by air, water, food, contact, soil, vertical (mother and infant) by directly contacting the infected individual, the body fluid and excreta of the infected person, the contaminated object of the infected person, etc.

In large and medium-sized cities and densely populated areas represented by urban groups, infectious diseases spread very rapidly, which makes it difficult to control once an infectious disease has exploded. Therefore, supervision and information acquisition and reporting of infectious diseases are extremely important for effective prevention and control of infectious diseases. In the prior art, under the scene of multi-department cooperation completion service, a single system cannot be constructed to clearly determine data attribution, so that the utilization of collected data can be influenced, and the timeliness problem of data cooperation needs to be solved by adopting a multi-system distribution mode. The sharing and sharing of the data dictionary among the multiple sets of systems and the unified version have certain linking problems, mainly including different attributions of all detected data and management departments, and lack of a global head unit capable of being integrally and uniformly managed across departments to lead global consistency.

Therefore, how to realize data interconnection and interworking ensures that different service departments keep the actual demands of the attribution of the detection data, and ensures the timeliness and the accuracy of the circulation of the detection data in different service systems, which is a problem to be solved by the technicians in the field.

Disclosure of Invention

The invention aims to provide a hierarchical infectious disease management method and system, which realize data interconnection and interworking, ensure that different business departments keep the actual demands of the attribution of the respective business data, and ensure the timeliness and the accuracy of the circulation of the business data in different business systems.

The technical scheme provided by the invention is as follows:

the invention provides a hierarchical infectious disease management method, which comprises an acquisition network, a primary monitoring network and a secondary monitoring network, wherein the acquisition network, the primary monitoring network and the secondary monitoring network are sequentially connected in sequence, the acquisition network comprises a plurality of hospital acquisition ends, the primary monitoring network comprises a primary respiratory tract comprehensive monitoring end and a primary infectious disease direct report monitoring end, and the secondary monitoring network comprises a secondary respiratory tract comprehensive monitoring end, a secondary infectious disease direct report monitoring end and a key infectious disease management end; the method also comprises the steps of:

the acquisition network acquires detection data and reports the detection data to a corresponding primary monitoring network;

after the primary monitoring network performs sharing confirmation according to the detection data, an analysis result is generated and reported to the secondary monitoring network;

and the secondary monitoring network generates a detection report after analysis and authentication are carried out according to the analysis result, and the detection report is issued to the acquisition network through the primary monitoring network.

Further, the collecting network collects the detection data and reports the detection data to the corresponding primary monitoring network, which includes the steps of:

the hospital acquisition end acquires infectious disease detection data and respiratory tract detection data;

the hospital acquisition end reports the respiratory tract detection data to a corresponding primary respiratory tract comprehensive monitoring end:

the hospital acquisition end reports the infectious disease detection data to a corresponding primary infectious disease direct report monitoring end.

Further, after the primary monitoring network performs sharing confirmation according to the detection data, generating an analysis result and reporting the analysis result to the secondary monitoring network includes the steps of:

the primary respiratory tract comprehensive monitoring end analyzes and obtains a comprehensive respiratory tract analysis result according to the respiratory tract detection data;

the primary infectious disease direct report monitoring end analyzes and obtains an infectious disease analysis result according to the infectious disease detection data;

the primary infectious disease direct report monitoring end sends the infectious analysis result to the primary respiratory tract comprehensive monitoring end and the corresponding secondary infectious disease direct report monitoring end;

the primary respiratory tract comprehensive monitoring end updates a heddle analysis result according to the infection analysis result and sends the updated heddle analysis result to the secondary respiratory tract comprehensive monitoring end.

Further, after the secondary monitoring network performs analysis and authentication according to the analysis result, generating a detection report, and issuing the detection report to the acquisition network through the primary monitoring network includes the steps of:

the secondary respiratory tract comprehensive monitoring end collects the comprehensive calling analysis results of all the primary respiratory tract comprehensive monitoring ends which are administrated, and reports all the comprehensive calling analysis results to the key infectious disease management end;

the secondary infectious disease direct report monitoring end collects the infection analysis results of all the administrated primary infectious disease direct report monitoring ends and reports the infection analysis results matched with the call analysis results to the important infectious disease management end;

and the key infectious disease management end obtains a detection report according to the call analysis result and the infection analysis result through matching analysis, and then transmits the detection report to the primary monitoring network, and the primary monitoring network transmits the detection report to the acquisition network.

The invention also provides a hierarchical infectious disease management system, which comprises an acquisition network, a primary monitoring network and a secondary monitoring network, wherein the acquisition network, the primary monitoring network and the secondary monitoring network are sequentially connected in sequence, the acquisition network comprises a plurality of hospital acquisition ends, the primary monitoring network comprises a primary respiratory tract comprehensive monitoring end and a primary infectious disease direct report monitoring end, and the secondary monitoring network comprises a secondary respiratory tract comprehensive monitoring end, a secondary infectious disease direct report monitoring end and a key infectious disease management end; further comprises:

the acquisition network is used for acquiring detection data and reporting the detection data to the corresponding primary monitoring network;

the primary monitoring network is used for generating an analysis result and reporting the analysis result to the secondary monitoring network after sharing confirmation according to the detection data;

and the secondary monitoring network is used for generating a detection report after analysis and authentication are carried out according to the analysis result, and transmitting the detection report to the acquisition network through the primary monitoring network.

Further, the hospital acquisition end is used for acquiring infectious disease detection data and respiratory tract detection data;

the hospital acquisition end is used for reporting the respiratory tract detection data to a corresponding primary respiratory tract comprehensive monitoring end:

the hospital acquisition end is used for reporting the infectious disease detection data to the corresponding primary infectious disease direct report monitoring end.

Further, the primary respiratory tract comprehensive monitoring end is used for analyzing and obtaining a comprehensive respiratory tract analysis result according to the respiratory tract detection data;

the primary infectious disease direct report monitoring end is used for analyzing and obtaining an infectious disease analysis result according to the infectious disease detection data;

the primary infectious disease direct report monitoring end is also used for sending the infectious analysis result to the primary respiratory tract comprehensive monitoring end and the corresponding secondary infectious disease direct report monitoring end;

the primary respiratory tract comprehensive monitoring end is also used for updating the comprehensive respiratory tract analysis result according to the infection analysis result and sending the updated comprehensive respiratory tract analysis result to the secondary respiratory tract comprehensive monitoring end.

Further, the secondary respiratory tract comprehensive monitoring end is used for collecting the comprehensive calling analysis results of all the primary respiratory tract comprehensive monitoring ends in jurisdiction and reporting all the comprehensive calling analysis results to the important infectious disease management end;

the secondary infectious disease direct report monitoring end is used for collecting the infection analysis results of all the primary infectious disease direct report monitoring ends in the jurisdiction and reporting the infection analysis results matched with the call analysis results to the key infectious disease management end;

the key infectious disease management end is used for obtaining a detection report according to the comprehensive calling analysis result and the infectious disease analysis result through matching analysis, then sending the detection report to the primary monitoring network, and sending the detection report to the acquisition network through the primary monitoring network.

The hierarchical infectious disease management method and system provided by the invention can realize data interconnection and intercommunication, not only ensure that different business departments keep the actual demands of the attribution of the respective business data, but also ensure the timeliness and accuracy of the circulation of the business data in different business systems.

Drawings

The above features, technical features, advantages and implementation of a hierarchical infectious disease management method and system will be further described in the following description of preferred embodiments with reference to the accompanying drawings in a clearly understandable manner.

FIG. 1 is a flow chart of one embodiment of a hierarchical method of infectious disease management of the present invention;

FIG. 2 is a flow chart of another embodiment of a hierarchical method of infectious disease management of the present invention;

FIG. 3 is a schematic diagram of a hierarchical infection management system according to an embodiment of the present invention.

Detailed Description

In the following description, for purposes of explanation and not limitation, specific details are set forth, such as particular system configurations, techniques, etc. in order to provide a thorough understanding of the embodiments of the present application. However, it will be apparent to one skilled in the art that the present application may be practiced in other embodiments that depart from these specific details. In other instances, detailed descriptions of well-known systems, devices, circuits, and methods are omitted so as not to obscure the description of the present application with unnecessary detail.

It should be understood that the terms "comprises" and/or "comprising," when used in this specification and the appended claims, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

For the sake of simplicity of the drawing, the parts relevant to the present invention are shown only schematically in the figures, which do not represent the actual structure thereof as a product. Additionally, in order to simplify the drawing for ease of understanding, components having the same structure or function in some of the drawings are shown schematically with only one of them, or only one of them is labeled. Herein, "a" means not only "only this one" but also "more than one" case.

It should be further understood that the term "and/or" as used in this specification and the appended claims refers to any and all possible combinations of one or more of the associated listed items, and includes such combinations.

In addition, in the description of the present application, the terms "first," "second," and the like are used merely to distinguish between descriptions and are not to be construed as indicating or implying relative importance.

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the following description will explain the specific embodiments of the present invention with reference to the accompanying drawings. It is evident that the drawings in the following description are only examples of the invention, from which other drawings and other embodiments can be obtained by a person skilled in the art without inventive effort.

In one embodiment of the present invention, as shown in fig. 1, a hierarchical infectious disease management method includes an acquisition network, a primary monitoring network and a secondary monitoring network, where the acquisition network, the primary monitoring network and the secondary monitoring network are sequentially connected in sequence, the acquisition network includes a plurality of hospital acquisition ends, the primary monitoring network includes a primary respiratory tract comprehensive monitoring end and a primary infectious disease direct report monitoring end, and the secondary monitoring network includes a secondary respiratory tract comprehensive monitoring end, a secondary infectious disease direct report monitoring end and a key infectious disease management end; the method also comprises the steps of:

s100, collecting network collected detection data and reporting the data to a corresponding primary monitoring network;

s200, after carrying out sharing confirmation according to the detection data, the primary monitoring network generates an analysis result and reports the analysis result to the secondary monitoring network;

and S300, after analysis and authentication are carried out by the secondary monitoring network according to the analysis result, a detection report is generated, and the detection report is issued to the acquisition network through the primary monitoring network.

In particular, infectious diseases include, but are not limited to, neoplasia, cholera, influenza, and the like. The connection relation among the acquisition network, the primary monitoring network and the secondary monitoring network is that the secondary monitoring network is connected with the primary monitoring network of the jurisdiction area, and the primary monitoring network is connected with the acquisition network of the jurisdiction area.

The communication sequence among the acquisition network, the primary monitoring network and the secondary monitoring network is acquisition network-primary monitoring network-secondary monitoring network, namely the acquisition network reports detection data to the primary monitoring network at the moment, and the primary monitoring network reports analysis results to the secondary monitoring network. Of course, the communication sequence among the acquisition network, the primary monitoring network and the secondary monitoring network may be the secondary monitoring network, the primary monitoring network and the acquisition network, that is, the secondary monitoring network issues the detection report to the primary monitoring network at this time, and the primary monitoring network issues the detection report to the acquisition network.

In this embodiment, data interconnection and interworking are realized, which not only ensures that different service departments (including a hospital acquisition end, a primary respiratory tract comprehensive monitoring end, a primary infectious disease direct report monitoring end, a secondary respiratory tract comprehensive monitoring end, a secondary infectious disease direct report monitoring end and a key infectious disease management end) keep the actual demands of attribution of respective service data, but also ensures timeliness and accuracy of service data circulation in different service systems.

In one embodiment of the present invention, as shown in fig. 2, a hierarchical infectious disease management method includes an acquisition network, a primary monitoring network and a secondary monitoring network, where the acquisition network, the primary monitoring network and the secondary monitoring network are sequentially connected in sequence, the acquisition network includes a plurality of hospital acquisition ends, the primary monitoring network includes a primary respiratory tract comprehensive monitoring end and a primary infectious disease direct report monitoring end, and the secondary monitoring network includes a secondary respiratory tract comprehensive monitoring end, a secondary infectious disease direct report monitoring end and a key infectious disease management end; the method comprises the following steps:

s110, an acquisition end of a hospital acquires infectious disease detection data and respiratory tract detection data;

s120, reporting respiratory tract detection data to a corresponding primary respiratory tract comprehensive monitoring end by the hospital acquisition end:

s130, the hospital acquisition end reports the infectious disease detection data to a corresponding primary infectious disease direct report monitoring end;

specifically, the hospital acquisition end acquires service data (including infectious disease detection data and respiratory tract detection data of detected residents), and the data fall into different service systems (namely a primary respiratory tract comprehensive monitoring end and a primary infectious disease direct report monitoring end) according to different service division, namely the hospital acquisition end acquires the infectious disease detection data and the respiratory tract detection data in real time, periodically reports the respiratory tract detection data to the corresponding primary respiratory tract comprehensive monitoring end so as to intelligently remind to trigger the primary respiratory tract comprehensive monitoring end to conduct data analysis, and periodically reports the infectious disease detection data to the corresponding primary infectious disease direct report monitoring end so as to intelligently remind to trigger the primary infectious disease direct report monitoring end to conduct data analysis.

The infectious disease detection data and the respiratory tract detection data can comprise identity information and physiological information of the detected residents, and the identity information comprises, but is not limited to, an identity card number, a mobile phone number and a doctor's number. Physiological information includes, but is not limited to, name, gender, history of disease, and allergies.

S210, analyzing and obtaining a comprehensive respiratory tract analysis result by the primary respiratory tract comprehensive monitoring end according to respiratory tract detection data;

s220, the primary infectious disease direct report monitoring end analyzes and obtains an infectious disease analysis result according to infectious disease detection data;

s230, the primary infectious disease direct report monitoring end sends an infection analysis result to the primary respiratory tract comprehensive monitoring end and the corresponding secondary infectious disease direct report monitoring end;

s240, the primary respiratory tract comprehensive monitoring end updates a heddle analysis result according to the infection analysis result and sends the updated heddle analysis result to the secondary respiratory tract comprehensive monitoring end;

specifically, the primary respiratory tract comprehensive monitoring end analyzes and obtains a comprehensive respiratory tract analysis result according to respiratory tract detection data, and if certain detected residents are determined to be infectious diseases in the comprehensive respiratory tract analysis result, the comprehensive respiratory tract analysis result is sent to the primary infectious disease direct report monitoring end. Wherein, because the respiratory tract detection data comprises the identity information of the detected residents, the comprehensive analysis result comprises the identity information of the detected residents.

The primary infectious disease direct report monitoring end analyzes and obtains an infectious disease analysis result according to infectious disease detection data, wherein the infectious disease detection data comprises identity information of detected residents, and therefore the infectious disease detection data comprises the identity information of the detected residents. After receiving the comprehensive respiratory analysis result sent by the primary respiratory comprehensive monitoring end, the primary infectious disease direct-report monitoring end sends the generated infectious analysis result to the primary respiratory comprehensive monitoring end, so that the primary respiratory comprehensive monitoring end updates the comprehensive respiratory analysis result according to the infectious analysis result. In addition, the primary infectious disease direct report monitoring end can send the infectious disease analysis result to the secondary infectious disease direct report monitoring end.

For example, the primary respiratory tract comprehensive monitoring end generates a respiratory tract comprehensive analysis result according to respiratory tract detection data, 1000 cases are determined according to the respiratory tract comprehensive analysis result, 100 cases are suspected new crowns, and the rest 900 cases are respiratory tract comprehensive diseases. Then, the primary infectious disease direct report monitoring end sends the call analysis result to the primary infectious disease direct report monitoring end, the primary infectious disease direct report monitoring end generates an infection analysis result according to infectious disease detection data, if 98 definite diagnoses are positive for new crown nucleic acid in 100 suspected cases in the call analysis result and 2 definite diagnoses are negative for new crown nucleic acid in the infection analysis result, the primary infectious disease direct report monitoring end sends the infection analysis result to the primary respiratory tract comprehensive monitoring end and the secondary infectious disease direct report monitoring end respectively, so that the primary respiratory tract comprehensive monitoring end updates data according to the call analysis result and then sends the updated call analysis result to the secondary respiratory tract comprehensive monitoring end.

S310, the secondary respiratory tract comprehensive monitoring end collects the comprehensive calling analysis results of all the primary respiratory tract comprehensive monitoring ends which are administered, and reports all the comprehensive calling analysis results to the key infectious disease management end;

s320, the secondary infectious disease direct report monitoring end collects infection analysis results of all the administrated primary infectious disease direct report monitoring ends and reports the infection analysis results matched with the call analysis results to the key infectious disease management end;

s330, the key infectious disease management end sends a detection report to a primary monitoring network after the matching analysis obtains the detection report according to the comprehensive calling analysis result and the infectious disease analysis result, and sends the detection report to an acquisition network through the primary monitoring network.

Specifically, when the acquisition network acquires detection data in real time and reports the detection data to the primary monitoring network in jurisdiction, after the primary monitoring network receives the detection data, the primary respiratory tract comprehensive monitoring end and the primary infectious disease direct report monitoring end in the primary monitoring network interact with each other to complete primary analysis, and then the primary respiratory tract comprehensive monitoring end and the primary infectious disease direct report monitoring end in the primary monitoring network respectively report the analysis results to the secondary respiratory tract comprehensive monitoring end and the secondary infectious disease direct report monitoring end in the secondary monitoring network after determining the analysis results. Similarly, the secondary respiratory tract comprehensive monitoring end and the secondary infectious disease direct reporting monitoring end mutually perform data interaction, then the primary respiratory tract comprehensive monitoring end and the primary infectious disease direct reporting monitoring end in the secondary monitoring network report respective analysis results to the important infectious disease management end, the important infectious disease management end completes authentication analysis on the analysis results and generates a detection report, the important infectious disease management end sends the detection report to the primary monitoring network in jurisdiction of the primary monitoring network, the secondary monitoring network sends the detection report to the primary monitoring network in jurisdiction of the primary monitoring network, and the primary monitoring network sends the detection report to the collection network in jurisdiction of the primary monitoring network.

In the prior art, under the scene of multi-department cooperation completion service, a single system cannot be constructed to clearly determine data attribution, so that the utilization of collected data can be influenced, and the timeliness problem of data cooperation needs to be solved by adopting a multi-system distribution mode. The existing duplicate checking function of each regional level system has a certain limitation, and the duplicate checking effect expanded to the market level can be considered in the future to further improve the duplicate checking effect. The sharing and sharing of the data dictionary among the multiple sets of systems and the unified version have certain linking problems, mainly that attribution of each block of service data is different from that of the management department, and a global head unit capable of being integrally and uniformly managed across departments is lacked to lead global consistency.

Through the embodiment, the primary respiratory tract comprehensive monitoring end and the primary infectious disease direct report monitoring end belong to district-level systems, the secondary respiratory tract comprehensive monitoring end, the secondary infectious disease direct report monitoring end and the key infectious disease management end belong to city-level systems, through the embodiment, data interaction and business circulation between the city-level systems are realized, and data interaction and business cooperation between the three city-level systems are also realized.

Under the condition that the service condition is met, the primary respiratory tract comprehensive monitoring end and the primary infectious disease direct report monitoring end directly generate service coordination, and the primary respiratory tract comprehensive monitoring end and the primary infectious disease direct report monitoring end upload collected data to the secondary respiratory tract comprehensive monitoring end and the secondary infectious disease direct report monitoring end in the municipal platform in real time. On the market-level platform, the secondary respiratory tract comprehensive monitoring end, the secondary infectious disease direct report monitoring end and the key infectious disease management end are further summarized and analyzed on the basis of all market detection data, and the service data required by the secondary respiratory tract comprehensive monitoring end, the secondary infectious disease direct report monitoring end and the key infectious disease management end are mutually transmitted and synchronously pushed down to the corresponding district-level platform, so that the comprehensive interconnection and intercommunication of the data are realized.

According to the embodiment, the multiple systems are independently built, and the data interconnection and intercommunication are realized in the WEB SERVICE form, so that the actual requirements of the attribution of the respective SERVICE data are reserved for different SERVICE departments, and the timeliness and the accuracy of the circulation of the SERVICE data in different SERVICE systems are ensured.

Of course, in the present invention, if the primary respiratory tract comprehensive monitoring end is a regional respiratory tract comprehensive monitoring end and the primary infectious disease direct report monitoring end is a regional infectious disease direct report monitoring end, at this time, the secondary respiratory tract comprehensive monitoring end is a municipal respiratory tract comprehensive monitoring end, and the secondary infectious disease direct report monitoring end is a municipal infectious disease direct report monitoring end, the collection network is a hospital collection end of each regional grade. If the primary respiratory tract comprehensive monitoring end is a municipal respiratory tract comprehensive monitoring end and the primary infectious disease direct report monitoring end is a municipal infectious disease direct report monitoring end, at this time, the secondary respiratory tract comprehensive monitoring end is a provincial respiratory tract comprehensive monitoring end, the secondary infectious disease direct report monitoring end is a provincial infectious disease direct report monitoring end, and the acquisition network is the hospital acquisition end of each municipal grade. If the primary respiratory tract comprehensive monitoring end is a provincial respiratory tract comprehensive monitoring end and the primary infectious disease direct report monitoring end is a provincial infectious disease direct report monitoring end, at this time, the secondary respiratory tract comprehensive monitoring end is a capital respiratory tract comprehensive monitoring end, the secondary infectious disease direct report monitoring end is a capital infectious disease direct report monitoring end, and the acquisition network is the hospital acquisition end of each provincial stage. In a word, the hierarchical infectious disease management system is established according to the requirements of cross-region, cross-city and cross-province, and performs data collaborative interaction with each other to complete cross-region synchronization of data.

In one embodiment of the present invention, as shown in fig. 3, a hierarchical infectious disease management system includes an acquisition network, a primary monitoring network and a secondary monitoring network, where the acquisition network, the primary monitoring network and the secondary monitoring network are sequentially connected in sequence, the acquisition network includes a plurality of hospital acquisition ends, the primary monitoring network includes a primary respiratory tract comprehensive monitoring end and a primary infectious disease direct report monitoring end, and the secondary monitoring network includes a secondary respiratory tract comprehensive monitoring end, a secondary infectious disease direct report monitoring end and a key infectious disease management end; further comprises:

the acquisition network is used for acquiring detection data and reporting the detection data to the corresponding primary monitoring network;

the primary monitoring network is used for generating an analysis result and reporting the analysis result to the secondary monitoring network after sharing confirmation according to the detection data;

and the secondary monitoring network is used for generating a detection report after analysis and authentication are carried out according to the analysis result, and transmitting the detection report to the acquisition network through the primary monitoring network.

Specifically, the present embodiment is a system embodiment corresponding to the above method embodiment, and specific effects refer to the above method embodiment, which is not described herein in detail.

Based on the foregoing embodiments, a hospital acquisition end for acquiring infectious disease detection data and respiratory tract detection data;

the hospital acquisition end is used for reporting the respiratory tract detection data to the corresponding primary respiratory tract comprehensive monitoring end:

and the hospital acquisition end is used for reporting the infectious disease detection data to the corresponding primary infectious disease direct report monitoring end.

Specifically, the present embodiment is a system embodiment corresponding to the above method embodiment, and specific effects refer to the above method embodiment, which is not described herein in detail.

Based on the foregoing embodiment, the primary respiratory tract comprehensive monitoring terminal is configured to analyze and obtain a respiratory tract analysis result according to respiratory tract detection data;

the primary infectious disease direct report monitoring end is used for analyzing and obtaining an infectious disease analysis result according to infectious disease detection data;

the primary infectious disease direct report monitoring end is also used for sending the infectious analysis result to the primary respiratory tract comprehensive monitoring end and the corresponding secondary infectious disease direct report monitoring end;

the primary respiratory tract comprehensive monitoring end is also used for updating the heddle analysis result according to the infection analysis result and sending the updated heddle analysis result to the secondary respiratory tract comprehensive monitoring end.

Specifically, the present embodiment is a system embodiment corresponding to the above method embodiment, and specific effects refer to the above method embodiment, which is not described herein in detail.

Based on the foregoing embodiment, the secondary respiratory tract integrated monitoring end is configured to collect the results of all the respiratory tract analysis of all the primary respiratory tract integrated monitoring ends in jurisdiction, and report all the results of respiratory tract analysis to the important infectious disease management end;

the secondary infectious disease direct report monitoring end is used for collecting the infection analysis results of all the administrated primary infectious disease direct report monitoring ends and reporting the infection analysis results matched with the call analysis results to the key infectious disease management end;

and the key infectious disease management end is used for sending the detection report to the primary monitoring network after the detection report is obtained by matching analysis according to the comprehensive calling analysis result and the infectious disease analysis result, and sending the detection report to the acquisition network through the primary monitoring network.

Specifically, the present embodiment is a system embodiment corresponding to the above method embodiment, and specific effects refer to the above method embodiment, which is not described herein in detail.

It will be apparent to those skilled in the art that the above-described program modules are merely illustrative of the division of each program module for convenience and brevity of description, and that in practical application, the above-described functional allocation may be performed by different program modules, i.e. the internal structure of the apparatus is divided into different program units or modules, to perform all or part of the above-described functions. The program modules in the embodiments may be integrated in one processing unit, or each unit may exist alone physically, or two or more units may be integrated in one processing unit, where the integrated units may be implemented in a form of hardware or in a form of a software program unit. In addition, the specific names of the program modules are also only for distinguishing from each other, and are not used to limit the protection scope of the present application.

It should be noted that the above embodiments can be freely combined as needed. The foregoing is merely a preferred embodiment of the present invention and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present invention, which are intended to be comprehended within the scope of the present invention.

Claims (4)

1. The hierarchical infectious disease management method is characterized by comprising an acquisition network, a primary monitoring network and a secondary monitoring network, wherein the acquisition network, the primary monitoring network and the secondary monitoring network are sequentially connected in sequence, the acquisition network comprises a plurality of hospital acquisition ends, the primary monitoring network comprises a primary respiratory tract comprehensive monitoring end and a primary infectious disease direct report monitoring end, and the secondary monitoring network comprises a secondary respiratory tract comprehensive monitoring end, a secondary infectious disease direct report monitoring end and a key infectious disease management end; the method also comprises the steps of:

the acquisition network acquires detection data and reports the detection data to a corresponding primary monitoring network;

after the primary monitoring network performs sharing confirmation according to the detection data, an analysis result is generated and reported to the secondary monitoring network;

the secondary monitoring network generates a detection report after analysis and authentication are carried out according to the analysis result, and the detection report is issued to the acquisition network through the primary monitoring network;

the acquisition network acquires detection data and reports the detection data to a corresponding primary monitoring network, and the method comprises the following steps:

the hospital acquisition end acquires infectious disease detection data and respiratory tract detection data;

the hospital acquisition end reports the respiratory tract detection data to a corresponding primary respiratory tract comprehensive monitoring end:

the hospital acquisition end reports the infectious disease detection data to a corresponding primary infectious disease direct report monitoring end;

after the primary monitoring network performs sharing confirmation according to the detection data, generating an analysis result and reporting the analysis result to the secondary monitoring network, wherein the method comprises the following steps of:

the primary respiratory tract comprehensive monitoring end analyzes and obtains a comprehensive respiratory tract analysis result according to the respiratory tract detection data;

the primary infectious disease direct report monitoring end analyzes and obtains an infectious disease analysis result according to the infectious disease detection data;

the primary infectious disease direct report monitoring end sends the infectious analysis result to the primary respiratory tract comprehensive monitoring end and the corresponding secondary infectious disease direct report monitoring end;

the primary respiratory tract comprehensive monitoring end updates a heddle analysis result according to the infection analysis result and sends the updated heddle analysis result to the secondary respiratory tract comprehensive monitoring end;

the hospital acquisition end acquires business data, including infectious disease detection data and respiratory tract detection data of detected residents; according to different business division, the data fall into different business systems, namely a primary respiratory tract comprehensive monitoring end and a primary infectious disease direct report monitoring end; and through independent construction of multiple systems, data interconnection and intercommunication are realized in a WEB SERVICE form.

2. The hierarchical infectious disease management method of claim 1, wherein the secondary monitoring network generates a detection report after performing analysis and authentication according to the analysis result, and issues the detection report to the collection network through the primary monitoring network comprises the steps of:

the secondary respiratory tract comprehensive monitoring end collects the comprehensive calling analysis results of all the primary respiratory tract comprehensive monitoring ends which are administrated, and reports all the comprehensive calling analysis results to the key infectious disease management end;

the secondary infectious disease direct report monitoring end collects the infection analysis results of all the administrated primary infectious disease direct report monitoring ends and reports the infection analysis results matched with the call analysis results to the important infectious disease management end;

and the key infectious disease management end obtains a detection report according to the call analysis result and the infection analysis result through matching analysis, and then transmits the detection report to the primary monitoring network, and the primary monitoring network transmits the detection report to the acquisition network.

3. The hierarchical infectious disease management system is characterized by comprising an acquisition network, a primary monitoring network and a secondary monitoring network, wherein the acquisition network, the primary monitoring network and the secondary monitoring network are sequentially connected in sequence, the acquisition network comprises a plurality of hospital acquisition ends, the primary monitoring network comprises a primary respiratory tract comprehensive monitoring end and a primary infectious disease direct report monitoring end, and the secondary monitoring network comprises a secondary respiratory tract comprehensive monitoring end, a secondary infectious disease direct report monitoring end and a key infectious disease management end; further comprises:

the acquisition network is used for acquiring detection data and reporting the detection data to the corresponding primary monitoring network;

the primary monitoring network is used for generating an analysis result and reporting the analysis result to the secondary monitoring network after sharing confirmation according to the detection data;

the secondary monitoring network is used for generating a detection report after analysis and authentication are carried out according to the analysis result, and transmitting the detection report to the acquisition network through the primary monitoring network;

the hospital acquisition end is used for acquiring infectious disease detection data and respiratory tract detection data;

the hospital acquisition end is used for reporting the respiratory tract detection data to a corresponding primary respiratory tract comprehensive monitoring end:

the hospital acquisition end is used for reporting the infectious disease detection data to a corresponding primary infectious disease direct report monitoring end;

the primary respiratory tract comprehensive monitoring end is used for analyzing and obtaining a comprehensive respiratory tract analysis result according to the respiratory tract detection data;

the primary infectious disease direct report monitoring end is used for analyzing and obtaining an infectious disease analysis result according to the infectious disease detection data;

the primary infectious disease direct report monitoring end is also used for sending the infectious analysis result to the primary respiratory tract comprehensive monitoring end and the corresponding secondary infectious disease direct report monitoring end;

the primary respiratory tract comprehensive monitoring end is also used for updating the heddle analysis result according to the infection analysis result and sending the updated heddle analysis result to the secondary respiratory tract comprehensive monitoring end;

the hospital acquisition end acquires business data, including infectious disease detection data and respiratory tract detection data of detected residents; according to different business division, the data fall into different business systems, namely a primary respiratory tract comprehensive monitoring end and a primary infectious disease direct report monitoring end; and through independent construction of multiple systems, data interconnection and intercommunication are realized in a WEB SERVICE form.

4. A hierarchical infection management system according to claim 3 wherein:

the secondary respiratory tract comprehensive monitoring end is used for collecting the comprehensive calling analysis results of all the primary respiratory tract comprehensive monitoring ends in jurisdiction and reporting all the comprehensive calling analysis results to the key infectious disease management end;

the secondary infectious disease direct report monitoring end is used for collecting the infection analysis results of all the primary infectious disease direct report monitoring ends in the jurisdiction and reporting the infection analysis results matched with the call analysis results to the key infectious disease management end;

the key infectious disease management end is used for obtaining a detection report according to the comprehensive calling analysis result and the infectious disease analysis result through matching analysis, then sending the detection report to the primary monitoring network, and sending the detection report to the acquisition network through the primary monitoring network.