CN112086156A - Case diagnosis system and case diagnosis service processing method - Google Patents

Abstract

The application discloses a case diagnosis system and a case diagnosis service processing method, wherein the case diagnosis service processing method comprises the following steps: a case initiating terminal initiates a diagnosis request through a case diagnosis device; the case initiating terminal selects at least one case auxiliary terminal through the case diagnosis device and initiates an invitation to the at least one case auxiliary terminal; and if the case initiating end receives the invitation passing information of the at least one case auxiliary end, the case initiating end interacts with the at least one case auxiliary end. The diagnosis quality is improved by effectively using the scattered expert resources through the case diagnosis device.

Description

Case diagnosis system and case diagnosis service processing method

Technical Field

The application relates to the technical field of medical treatment, in particular to a case diagnosis system and a case diagnosis service processing method.

Background

Inspection medicine is a science that performs microbiological, immunological, biochemical, genetic, hematological, biophysical, cytological, etc., on materials taken from the human body, thereby providing information for the prevention, diagnosis, treatment of human diseases and assessment of human health. In particular, clinical hematology, requires the detection and analysis of the histological and morphological features of various specimens (bone marrow, blood) under the microscope, the related endogenous and exogenous genes and/or their expression products, which are crucial in the diagnostic process.

There is a large gap between the knowledge and experience of the current clinical laboratory physicians in the third hospital and those in the second hospital. Thus, the disparity in expertise of the testing physicians creates a disparity in quality of testing and diagnosis.

In the inspection medicine, the bone marrow is read by naked eyes of an inspection doctor under a microscope, a blood smear and other immunohistochemistry are needed, in order to ensure a certain accuracy, each technician only needs to see about 3 bone marrow slices every day, so that at least 3 bone marrow cytomorphs of a three-level hospital are needed to be configured, at least 1 bone marrow cytomorphs of a two-level hospital are configured, at least 1 bone marrow cytomorphs of a three-level hospital 2311 and a two-level hospital 8285 are needed, at least 14063 technicians are needed, only 1 ten thousand bone marrow cytomorphs of China exist, and gaps reach 4063. While hospitals under two take charge of the diagnosis and treatment work of most patients, the gap between talents is huge.

Therefore, the shortage of personnel for examining doctors makes the examination inefficient and unable to meet the needs of patients.

Disclosure of Invention

The application aims to provide a case diagnosis system and a case diagnosis business processing method, which are used for solving the technical problem of quality imbalance of detection and diagnosis in the existing inspection medicine.

The application provides a case diagnosis service processing method, which comprises the following steps: a case initiating terminal initiates a diagnosis request through a case diagnosis device; the case initiating terminal selects at least one case auxiliary terminal through the case diagnosis device and initiates an invitation to the at least one case auxiliary terminal; and if the case initiating end receives the invitation passing information of the at least one case auxiliary end, the case initiating end interacts with the at least one case auxiliary end.

Preferably, the interaction comprises real-time interaction, and the real-time interaction comprises sharing of a real-time inspection picture and/or a real-time inspection video of the case by the case initiator.

Preferably, the method further comprises the step that the case initiating terminal receives a first diagnosis result returned by the case auxiliary terminal through the case diagnosis device.

Preferably, the method further comprises the step that the case initiating terminal distributes case data through the case diagnosis device.

Preferably, the case originating terminal issues help information related to the case data to the case diagnosis apparatus at the same time as the case data is issued.

Preferably, the system further comprises a case initiating end or a case assisting end for directly broadcasting the medical teaching materials and/or distributing the medical teaching materials in the case diagnosis device.

Preferably, the system also comprises a case initiating terminal which sends the test picture and/or the test video to the artificial intelligent diagnosis device and receives a second diagnosis result returned by the artificial intelligent diagnosis device.

The application also provides a case diagnosis system, which comprises a client and case diagnosis equipment; the client is in communication connection with the case diagnosis equipment and executes the case diagnosis service processing method; the case diagnosis equipment comprises a case diagnosis device and an artificial intelligent diagnosis device, wherein the case diagnosis device stores and forwards a test result, interactive information, a first diagnosis result, case data and/or medical teaching data sent by the client, and the artificial intelligent diagnosis device carries out artificial intelligent analysis on the test result uploaded by the client and obtains a second diagnosis result.

Preferably, the system further comprises a test result transmitting device connected with the client and/or the case diagnosis equipment for transmitting the test result to the client and/or the case diagnosis equipment.

Preferably, the client is a smart device or a computer.

The system and the method effectively use the scattered expert resources through the case diagnosis device, and improve the diagnosis efficiency and quality. The examination doctor can check the examination pictures and the examination videos on the case diagnosis device at any time through the client, and uses various modes such as characters, voice, pictures and the like for communication and communication, and can remotely check the examination visual field in real time for the case in question.

This application obtains the diagnosis result through artificial intelligence diagnostic device, has avoided receiving inspection doctor's subjective factor influence in the diagnostic process on the one hand, makes the diagnosis result more objective, and on the other hand, through the high ageing and the high performance service of artificial intelligence, has effectively promoted the efficiency of inspection.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments described in the present application, and other drawings can be obtained by those skilled in the art according to the drawings.

Fig. 1 is a block diagram of a case diagnosis system provided in an embodiment of the present application;

fig. 2 is a perspective view of an electronic eyepiece provided in an embodiment of the present application;

fig. 3 is another perspective view of an electronic eyepiece provided in an embodiment of the present application;

fig. 4 is a flowchart of an embodiment of a case diagnosis service processing method provided by the present application.

Detailed Description

The technical solutions in the embodiments of the present application are clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some, but not all, embodiments of the present application. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

Example one

The application provides a case diagnosis system provided by the embodiment of the application, case data are issued through case diagnosis equipment, assistance of the same line is obtained, and the inspection efficiency and the diagnosis quality are improved.

Fig. 1 is a block diagram of a case diagnosis system provided in an embodiment of the present application. As shown in fig. 1, the case diagnosis system includes a client 110, a test result transmitting apparatus 120, and a case diagnosis device 130.

The client 110 is connected to the case diagnosis device 130 in a communication manner, and the client 110 is a device having a communication function, such as a smart device (e.g., a mobile phone, a tablet, etc.) or a computer.

As one embodiment, the client comprises a case management module and realizes case list display, case discussion and case screening. The case discussion can be realized by evaluating in a case detail page, adding a supplementary instruction, adding a conclusion, adding a digital smear, a case comment list, adding a new comment and the like.

The client also comprises a memorandum module which can store encountered problems, harvested experiences and the like at any time. Preferably, the saved content can be edited and can also be shared to a third-party platform.

The client also comprises a notification pushing module which is used for notifying the user that the related content is updated and pushing the latest related information to the user.

The client also comprises a personal center module, and the management of personal information management including data such as notes, questions, shares, replies, collections, concerns and the like is realized.

As one embodiment, the client has an application installed thereon that communicates with the case diagnosis device 130.

The case diagnosis apparatus 130 includes a case diagnosis device 1301 and an artificial intelligence diagnosis device 1302. Specifically, the case diagnosis device 1301 is a background server, which stores all information for case diagnosis and forwards information required by the client. Specifically, the function of the case diagnosis device comprises storing and forwarding the test result sent by the client, interaction information between the clients, a first diagnosis result provided by the client, case data and/or medical teaching data provided by the client. The artificial intelligence diagnosis device 1302 performs artificial intelligence analysis on the test result uploaded by the client to obtain a second diagnosis result.

The test result transmitting device 120 is connected to the client 110 and/or the case diagnosis apparatus 130, and is configured to transmit the test result to the client 110 and/or the case diagnosis apparatus 130, and to present the test process to the client 110 and/or the case diagnosis apparatus 130 in real time.

As an embodiment, the inspection result transmitting device 120 is an electronic eyepiece, as shown in fig. 2-3, which includes a housing 10, a camera 9, a main control board (not shown), a communication module, a power interface 8, and an audio interface (not shown).

The camera 9 is embedded on the shell 10, and the camera 9 converts optical signals of the microscope into digital electric signals through digital-to-analog conversion, so that images or videos are acquired.

The main control board is fixed in the shell and used for processing image, video and audio signals. The main control board is respectively connected with the camera and the communication module.

The power interface 8 and the audio interface are arranged on the housing. The power interface 8 is respectively connected with the main control board and the camera 9 and supplies power to the main control board and the camera 9. The audio interface is connected with the communication module, is externally connected with an earphone or a microphone and is used for audio transmission during interaction.

The communication module comprises a WiFi module and/or a Bluetooth module. The WIFI module and the Bluetooth module are connected with the main control board. The WIFI module and the Bluetooth module can send image signals or video signals from the electronic eyepiece to equipment with a WIFI receiving function, such as smart phones, tablet computers, computers and other equipment. The WIFI module supports up to 6-8 devices to be connected simultaneously, and images and videos are received, processed, measured and the like. The electronic eyepiece with the WIFI module is widely used for a laboratory microscope teaching interactive system and a plurality of people observing conditions of the same microscope.

The communication module also comprises a 3G/4G/5G module. The shell is provided with an SIM card slot 5 for inserting an SIM card with a 3G/4G/5G network, and pins on the SIM card slot 5 are connected with the main control board. The electronic eyepiece is connected with a server or intelligent equipment with a 3G/4G/5G network through a mobile communication network or a 3G/4G/5G WLAN adapter, and image and video data are exchanged with the server or intelligent equipment at any time and any place. As one embodiment, the electronic eyepiece is connected to a cloud server for real-time data processing through a mobile communication network. As another embodiment, the electronic eyepiece is connected to a mobile phone or a tablet computer through a mobile communication network, and the display and information interaction of images and videos are realized through an application program on the mobile phone or the tablet computer.

The shell is also provided with a GE gigabit Ethernet port 3, and the communication module is connected with a router, a switch or a computer through the GE gigabit Ethernet port 3 and used for network transmission of images or videos. As an embodiment, the GE gigabit ethernet port 3 is replaced with a POE port, implementing the same functionality.

The electronic eyepiece further comprises an HDMI high-definition output module and a USB mouse interface 1, wherein the HDMI high-definition output module is used for image capture and 4K/1080P video image output and supports automatic adaptation (4K/1080P automatic switching) of a display. The shell is provided with an HDMI (high-definition multimedia interface) 6, and the HDMI 6 is respectively connected with the main control panel. The electronic eyepiece is connected with equipment (such as a high-definition display) with an HDMI interface through the HDMI interface, so that high-definition observation is facilitated, high-definition image display greatly meets the requirements of various users, and the high-definition image display can be widely applied to the fields of industrial detection, teaching research, material analysis, precision measurement, medical treatment and the like. The HDMI interface is matched with the WIFI module, and meanwhile HDMI and WIFI output is achieved. The USB mouse interface 1 is used to control the camera in the high-definition display state, such as setting parameters of the camera.

A memory card slot (as an example, an SD card slot 7 shown in fig. 2) is also provided on the housing for storing image and video data. And pins of the memory card slot are respectively connected with the main control board and the communication module.

The shell is also provided with a USB interface 2 which is used for connecting with a computer and a memory (such as a U disk, a mobile hard disk and the like) to realize the transmission or storage of images and videos. The USB interface 2 is connected with the main control board. The USB interface 2 is also connected with a communication module and is used for connecting the 5G WLAN adapter module (such as in an AP/STA mode) to realize wireless video image transmission.

Preferably, the electronic eyepiece further comprises a charging power supply module, and the charging power supply module is arranged in the shell. The charging power supply module is respectively connected with the power interface 8, the main control board and the camera 9, and provides electric energy for the main control board and the camera 9.

Preferably, the surface of the shell is provided with a switch key 4, and the switch key is connected with a power supply module or a power supply interface 8 and used for controlling the on-off of the power supply.

The surface of the shell is provided with an indicator light. The indicator light is connected with the power module and the main control panel. The power module is opened, the indicator light lights, the electronic eyepiece enters a working state, the object image can be seen in the microscope, and the incident light converts the optical signal into a digital electric signal through the photosensitive element of the camera, so that the image is acquired.

Preferably, the electronic eyepiece further comprises a display screen (not shown in the figure), the display screen is arranged on the surface of the shell, and the display screen is connected with the main control board and used for displaying images and videos acquired by the camera.

The electronic eyepiece also comprises an adapter connecting part 11, and the camera 9 is exposed to the outside through the adapter connecting part 11.

The electronic eyepiece is connected to the imaging equipment through the adapter. The adapter is that the cavity is cylindric, and adapter connecting portion 11 is connected with the adapter, connects the back, and light on the imaging device passes through the adapter and transmits to the camera.

Taking a microscope as an example, each microscope has an adaptive adapter. Specifically, the optical microscopes include a trinocular microscope and a binocular microscope, which are distinguished by the number of eyepieces used by the microscopes.

To the trinocular microscope that does not take a photograph the interface, can directly connect the electron eyepiece of this application with the adapter.

For the three-eye microscope with the third eyepiece barrel, one end of the adapter is connected with the electronic eyepiece, and the other end of the adapter is inserted into the third eyepiece barrel, so that the electronic eyepiece is connected with the microscope.

To binocular microscope, the one end and the electron eyepiece of adapter are connected, take off the eyepiece from any eyepiece barrel, then with the other end disect insertion of adapter to the eyepiece barrel, realize electron eyepiece and microscopical being connected.

After the electronic eyepiece is combined with the imaging equipment, the inspection picture or the inspection video is obtained and is connected with the client and the case diagnosis equipment through a communication module of the electronic eyepiece, the inspection picture or the inspection video is sent to the client and the case diagnosis equipment through the electronic eyepiece under the condition that an inspection doctor needs, the inspection process can be displayed in real time under the communication state between the client of the inspection doctor and other clients or case diagnosis equipment, and the inspection picture or the inspection video is shared. Meanwhile, the electronic eyepiece is provided with an audio interface, and a checking doctor can also perform voice interaction with a client or case diagnosis equipment through the audio interface.

Example two

The application also provides a case diagnosis service processing method matched with the military strength diagnosis system of the embodiment I, case data are issued through case diagnosis equipment, the assistance of the same line is obtained, and the inspection efficiency and the diagnosis quality are improved.

The case diagnosis system can realize remote case diagnosis, medical knowledge teaching, case disclosure and artificial intelligence diagnosis.

The flowchart shown in fig. 4 is used to implement remote case diagnosis. As shown in fig. 4, the method comprises the following steps:

s410: the case initiating terminal initiates a diagnosis request through the case diagnosis device. Specifically, as one embodiment, the case originating side is a testing physician who operates the testing apparatus.

Firstly, a case initiating terminal establishes a case through a client terminal thereof, specifically comprising inputting case description information at the client terminal, uploading inspection pictures and/or inspection videos obtained from inspection equipment, and selecting the category to which the case belongs. After the case creation is completed, the examining physician initiates a diagnosis request through its client. After the diagnosis request is initiated, the data of the case is uploaded to the case diagnosis apparatus.

S420: the case initiating terminal selects at least one case auxiliary terminal through the case diagnosis device and initiates an invitation to the at least one case auxiliary terminal. In particular, as an example, the case assistant is a checking physician, preferably an expert checking physician. After the diagnosis request is initiated, the client queries the case auxiliary terminal list through the case diagnosis device, selects a required case auxiliary terminal from the case auxiliary terminal list, and initiates a case diagnosis invitation to the selected case auxiliary terminal through the case diagnosis device.

Specifically, for a common case, the case initiating end can select a case assisting end to diagnose. For difficult cases, the case initiating end can select a plurality of case auxiliary ends for consultation.

After receiving the invitation forwarded by the case diagnosis device, the case assistant terminal enters a case detail page through the client terminal of the case assistant terminal, checks the detailed content and then judges whether to accept the diagnosis request.

S430: the case initiating terminal judges whether the case auxiliary terminal accepts the invitation, namely the case initiating terminal judges whether the invitation passing information of at least one case auxiliary terminal selected by the case initiating terminal is received. If yes, go to S440; otherwise, returning to S420, the case initiating terminal reselects the case assisting terminal.

S440: the case initiating terminal interacts with at least one case assisting terminal.

In particular, the interaction includes real-time interaction and general interaction. Under a common interaction mode, the case initiating terminal and the case auxiliary terminal can send characters, pictures or videos to the case diagnosis device through the client terminal for communication. Under the real-time interactive mode, real-time communication is established between the case initiating terminal and the case auxiliary terminal, cases are discussed on line, the case initiating terminal can share inspection equipment and share an inspection visual field in real time to the case auxiliary terminal, and meanwhile, the case initiating terminal and the case auxiliary terminal are communicated through voice.

As one embodiment, in the interaction, the examination result or the real-time examination view is directly transmitted to the case diagnosis apparatus by the examination result transmission apparatus, not transmitted through the client of the case originating side. In particular, the sharing of inspection results or real-time inspection fields of view may be achieved by the electronic eyepiece of one embodiment. The electronic eyepiece is communicated with the client of the case diagnosis device and the client of the case auxiliary terminal through the communication module, and the inspection picture and the inspection video are directly sent to the client of the case diagnosis device and the client of the case auxiliary terminal. The electronic eyepiece is provided with an audio interface, and the case initiating end can be connected with an earphone or a microphone and the like on the audio interface and is used for directly carrying out voice communication with the case auxiliary end without the help of client equipment of the case initiating end.

S450: the case initiating terminal receives a first diagnosis result returned by the case auxiliary terminal through the case diagnosis device. Through interaction, the case assistant end obtains a diagnosis conclusion and returns a diagnosis result.

S460: after receiving the diagnosis result, the case initiating terminal sends the diagnosis result receiving information through the client terminal.

The feedback of the same line can be more comprehensively obtained by the way of multi-person participation and multi-party cooperation, so that the diagnosis result of a case is more objective, and the diagnosis quality is balanced.

The case initiating end or the case assisting end can directly broadcast medical teaching materials and/or release the medical teaching materials in the case diagnosis device through the client, so that the purpose of teaching or sharing is achieved.

As an embodiment, the electronic eyepiece can be connected with a plurality of intelligent terminals through WiFi, and connected with a computer through a USB interface, a GE gigabit ethernet port or a POE port, and shares the inspection picture and the inspection video to the intelligent terminal or the computer for a plurality of people to watch, thereby realizing the purpose of teaching or sharing. The electronic eyepiece can also be connected with the display through the HDMI interface for show inspection picture and inspection video, supply the teaching to use.

The case initiating end can also issue case data to the case diagnosis device through the client end for experience sharing or question answering and confusion resolving. Meanwhile, the case initiating end issues help information related to case data to the case diagnosis device through the client. The case diagnosis device transmits the case data and the help information to other clients, so that the plurality of other clients can check the case data, learn the case and reply the help information at the same time.

The case initiating terminal can send the test picture and/or the test video to the artificial intelligent diagnosis device and receive a second diagnosis result returned by the artificial intelligent diagnosis device.

As an embodiment, the electronic eyepiece collects a detection image or a detection video, the detection image or the detection video is uploaded through the communication module, the detection image or the detection video is analyzed by the AI deep learning analysis system built by the artificial intelligent diagnosis device to obtain a diagnosis result, the artificial intelligent diagnosis device sends the diagnosis result to the client, the aim that a doctor can directly obtain the diagnosis result is achieved, the whole observation process is carried out in real time, and therefore high real-time performance of diagnosis is achieved.

The system and the method effectively use the scattered expert resources through the case diagnosis device, and improve the diagnosis efficiency and quality. The examination doctor can check the examination pictures and the examination videos on the case diagnosis device at any time through the client, and uses various modes such as characters, voice, pictures and the like for communication and communication, and can remotely check the examination visual field in real time for the case in question.

This application obtains the diagnosis result through artificial intelligence diagnostic device, has avoided receiving inspection doctor's subjective factor influence in the diagnostic process on the one hand, makes the diagnosis result more objective, and on the other hand, through the high ageing and the high performance service of artificial intelligence, has effectively promoted the efficiency of inspection.

While the preferred embodiments of the present application have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all alterations and modifications as fall within the scope of the application. It will be apparent to those skilled in the art that various changes and modifications may be made in the present application without departing from the spirit and scope of the application. Thus, if such modifications and variations of the present application fall within the scope of the claims of the present application and their equivalents, the present application is intended to include such modifications and variations as well.

Claims (10)

1. A case diagnosis business processing method is characterized by comprising the following steps:

a case initiating terminal initiates a diagnosis request through a case diagnosis device;

the case initiating terminal selects at least one case auxiliary terminal through the case diagnosis device and initiates an invitation to the at least one case auxiliary terminal;

and if the case initiating end receives the invitation passing information of the at least one case auxiliary end, the case initiating end interacts with the at least one case auxiliary end.

2. The case diagnosis business process method according to claim 1, wherein the interaction comprises a real-time interaction comprising the case originator sharing a real-time examination picture and/or a real-time examination video of a case.

3. The case diagnosis service processing method according to claim 1 or 2, further comprising the case initiating terminal receiving a first diagnosis result returned by the case assisting terminal through the case diagnosis apparatus.

4. The case diagnosis service processing method of claim 1, further comprising the case originating terminal issuing case data through a case diagnosis apparatus.

5. The case diagnosis service processing method according to claim 4, wherein the case originating terminal issues help information related to case data to the case diagnosis apparatus while issuing case data.

6. The case diagnosis service processing method according to claim 1, further comprising the case originating terminal or the case assisting terminal broadcasting medical teaching materials directly and/or distributing the medical teaching materials in a case diagnosis apparatus.

7. The case diagnosis service processing method according to claim 1, further comprising the case originating terminal transmitting a test picture and/or a test video to an artificial intelligence diagnosis apparatus and receiving a second diagnosis result returned from the artificial intelligence diagnosis apparatus.

8. A case diagnosis system characterized by comprising a client and a case diagnosis apparatus;

the client communicatively connected to the case diagnosis apparatus, the client executing the case diagnosis business process method of claims 1-7;

the case diagnosis equipment comprises a case diagnosis device and an artificial intelligent diagnosis device, the case diagnosis device stores and forwards a test result, interactive information, a first diagnosis result, case data and/or medical teaching data sent by the client, and the artificial intelligent diagnosis device carries out artificial intelligent analysis on the test result uploaded by the client and obtains a second diagnosis result.

9. A case diagnosis system according to claim 8, characterized by further comprising a test result transmitting means connected with the client and/or the case diagnosis apparatus for transmitting test results to the client and/or the case diagnosis apparatus.

10. A case diagnosis system according to claim 8 or 9, characterised in that the client is a smart device or a computer.

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