CN111341402A

CN111341402A - Intelligent medical system for storing and exchanging medical image information

Info

Publication number: CN111341402A
Application number: CN202010110262.9A
Authority: CN
Inventors: 管伟
Original assignee: Individual
Current assignee: Shengyuankang Medical Technology Gansu Co ltd
Priority date: 2018-12-27
Filing date: 2018-12-27
Publication date: 2020-06-26
Anticipated expiration: 2038-12-27
Also published as: CN111341401A; CN109686424A; CN109686424B; CN111341402B

Abstract

The invention discloses an intelligent medical system for storing and exchanging medical image information, which comprises a first medical image information database, a second medical image information database, a medical reference image information database, mobile equipment and a medical image information exchange device, wherein the first medical image information database is used for storing and exchanging medical image information; acquiring medical examination image information from a medical image information database, classifying the medical examination image information based on different parts, establishing a medical evaluation model, and providing reference basis for diagnosis of doctors; generating a medical image information file according to the acquired medical image, wherein the medical image information file comprises an inspection date identification number, an image sequence identification number and an image identification number, and the medical image file is purposefully stored in a corresponding storage path according to the identification number, so that the medical image information file is convenient to call through the mobile equipment; the medical image exchange device realizes the exchange and sharing of medical image information of the same patient in different hospitals, and saves the time and cost for the patient to check again.

Description

Intelligent medical system for storing and exchanging medical image information

Technical Field

The invention relates to the field of information processing and intelligent medical treatment, in particular to an intelligent medical treatment system for storing and exchanging medical image information.

Background

Today, medical institutions generate a large number of medical images each day, which contain a large amount of potential information. At present, medical institutions mainly rely on manual interpretation to analyze the medical images, the efficiency is low, and information which can be mined by human eyes and diagnosis experience of doctors is limited, so that the medical image resources cannot be fully utilized.

With the development of computer technology, medical image processing systems implemented by the computer technology have been widely used in the medical field. Doctors use medical image processing systems to observe the condition of a patient's tissue organ, etc., as an important reference in diagnosis, preoperative planning, and surgery. However, the current medical image auxiliary processing cannot classify the features of the medical images according to different parts of the human body and establish a medical reference model, so that the efficiency and accuracy of medical examination of a patient by a doctor cannot be improved.

In addition, at present, medical image resources among existing medical institutions are not shared, and if a patient cannot make a follow-up visit in a hospital for the first time or make a deeper examination for various reasons and the patient does not carry the image data of the medical examination already made with him, the patient is required to make new examinations again, and if the time interval between two examinations is short, the time and the examination cost of the patient are wasted; some medical image information is inconvenient to carry, so that the medical image information is easy to lose or is incomplete, and further consultation is influenced.

Disclosure of Invention

The invention aims to provide an intelligent medical system for storing and exchanging medical image information, which can make up for the defect of insufficient utilization of the existing medical image information.

In order to achieve the above objects, the present invention provides an intelligent medical system for storing and exchanging medical image information, comprising a first medical image information database, a second medical image information database, a medical reference image information database, a mobile device, and a medical image information exchange device, wherein,

the first medical image information database is a medical examination image information database of a hospital where a patient first visits a doctor, the second medical image information database is a medical examination image information database of other hospitals, the first medical image information database and the second medical image information database are electrically connected with each other, the first medical image information database is provided with a first medical image information storage device, a first medical image information processing device, a first server and a first micro application program, and the second medical image information database is provided with a second medical image information storage device, a second medical image information processing device, a second server and a second micro application program;

the medical reference image information database is medical reference data obtained through a medical evaluation model of each part of a standard human body, and the medical reference image information database is electrically connected with the first medical image information database and the second medical image information database respectively;

the mobile device is electrically connected to the first medical image information database and the second medical image information database respectively, and a third micro application program is installed on the mobile device.

Further, the first medical image information storage device and the second medical image information storage device are used for acquiring and storing medical examination image information of a patient, and comprise:

the information acquisition module is used for acquiring medical examination image information of a patient to synthesize a medical image file, generating a medical image information file according to the medical image file and diagnosis information, and respectively receiving the medical image file and the medical image information file by the first server and the second server; the medical image information file comprises an inspection date identification number, an image sequence identification number and an image identification number;

the first calculation module is used for calculating storage paths of the medical image file and the medical image information file in the first server and the second server respectively according to the inspection date identification number, the image sequence identification number and the image identification number and a Hash algorithm;

and the storage module is used for respectively storing the medical image file and the medical image information file into the storage paths of the first server and the second server.

Further, the first micro application program and the second micro application program allow or reject the third micro application program to invoke the operation of the medical examination image information, the third micro application program includes a patient mode and a doctor mode, wherein the patient mode requires all of the examination date identification number, the image sequence identification number and the image identification number of the medical examination image information to be queried, so that the medical examination image information to be queried can be queried from the first medical image information database and the second medical image information database through the mobile device; the doctor mode can call the medical examination image information to be inquired from the first medical image information database and the second medical image information database respectively by adding the image sequence identification number or one of the image identification numbers to the name of the patient.

Further, the first medical image information processing device and the second medical image information processing device are configured to process the medical image information files stored in the first medical image information storage device and the second medical image information storage device, and include a classification processing module and an inquiry module, where the classification processing module includes:

a medical reference image information acquiring unit which acquires medical reference image information from the medical reference image information database;

a medical reference image information classification unit that classifies the medical reference image information based on different parts of a human body;

a medical evaluation model establishing unit which establishes corresponding medical evaluation models of all parts of the human body based on the classified medical reference image information to obtain medical model parameters, and respectively stores the medical model parameters in the first server and the second server;

a medical image information processing unit for acquiring the medical examination image information of the patient from the first medical image information storage device and the second medical image information storage device, identifying an examination part of the patient from the medical examination image information of the patient, and acquiring the corresponding medical model parameters from the first server and the second server according to the examination part of the patient;

the medical image information output unit outputs medical examination image information of a patient and the corresponding medical model parameters to the query module;

the query module is divided into two themes, wherein the first theme serves patients, and the second theme serves doctors; the first theme includes:

the acquisition submodule is used for acquiring the inspection date identification number sent by the client of the mobile equipment and calculating the storage paths of all medical image information files corresponding to the inspection date identification number according to the inspection date identification number and a Hash algorithm;

the downloading submodule downloads the corresponding medical image information files according to the calculated storage paths of all the corresponding medical image information files, acquires the inspection date identification numbers, the image sequence identification numbers and the image identification numbers according to the downloaded medical image information files, combines the inspection date identification numbers, the image sequence identification numbers and the image identification numbers to generate a return value, and returns the return value to the client;

the splitting submodule splits the return value through the client to obtain the number of all medical images corresponding to the inspection date identification number, and obtains the inspection date identification number, the image sequence identification number and the image identification number corresponding to the medical image to be inquired through the client;

the second calculation sub-module is used for calculating the storage path of the medical image information file of the medical image to be inquired according to the inspection date identification number, the image sequence identification number and the image identification number corresponding to the medical image to be inquired according to a Hash algorithm;

the sending submodule is used for sending the medical image information file under the storage path to the client, operating the information of the medical image information file through the client to obtain the image to be inquired, and enabling a patient to conveniently share the image to be inquired to other hospitals except an examination hospital as a diagnosis reference;

the second theme includes:

the calling sub-module is used for calling medical examination image information of a patient and corresponding medical model parameters from the first server and the second server respectively through the doctor mode;

the receiving indication submodule is used for receiving the medical image information display mode indication from the client;

a display mode sub-module, configured to display, according to the medical image information display mode, first medical image information and second medical image information, where the first medical image information is medical examination image information representing an organ of a patient, the second medical image information is medical image information representing a standard organ of a human body in the medical reference image information database, and the second medical image information includes a tissue organ of the standard human body and information about a neighborhood relationship and a hierarchical structure between the tissue organ;

the medical image information display mode comprises a linkage display mode and a non-linkage display mode, and if the display mode of the medical image information is the linkage display mode, the display states of the first medical image information and the second medical image information are kept consistent according to an image operation instruction; wherein, the image operation instruction comprises: translating, zooming, rotating, adjusting color, and adjusting transparency;

if the medical image information display mode is the non-linkage display mode, executing an operation corresponding to the image operation instruction on the medical image information corresponding to the medical image identifier according to the medical image identifier and the image operation instruction; wherein the medical image identifier is used for identifying the first medical image information or the second medical image information;

the assimilation module is used for executing assimilation operation on the first medical image information and the second medical image information so that the first medical image information and the second medical image information are in the same state; the same states include: the display parameters of the medical image, such as organ identification, image size, image color, image transparency and the like, are preset initial values of the display parameters.

Further, the first medical image information database further stores a first authentication program, and the first medical image information database judges whether the mobile device has a login authority through the first authentication program, and allows or refuses to transmit the first medical image information database to transmit update information to the mobile device; the second medical image information database stores a second authentication program, and the first medical image information database judges whether the second medical image information database has login authority through the second authentication program and allows or refuses the first medical image information database to transmit update information to the mobile equipment.

Furthermore, the medical image information exchange device comprises a first exchange device, a second exchange device, a remote server, a first mobile terminal and a second mobile terminal; wherein:

the first exchange equipment is used for sending a first medical examination image information packet of a patient, which is stored in the first medical image information database and corresponds to the exchange request, to the remote server through a wireless network when receiving a request for exchanging medical examination image information;

the second exchange equipment is used for sending a second medical examination image information packet of the patient, which is stored in the second medical image information database and corresponds to the exchange request, to the remote server through a wireless network when receiving the request of medical examination image information exchange;

the remote server is used for judging whether the time interval between the received first medical examination image information packet and the received second medical examination image information packet is smaller than a preset time interval or not, storing the medical examination image information in the second medical examination image information packet in a storage position corresponding to the first switching equipment when the time interval between the received first medical examination image information packet and the received second medical examination image information packet is smaller than the preset time interval, and storing the medical examination image information in the first medical examination image information packet in a storage position corresponding to the second switching equipment;

the first mobile terminal is used for acquiring the second medical examination image information packet from a storage position corresponding to the first switching equipment in the remote server and managing the acquired second medical examination image information packet;

the second mobile terminal is used for acquiring the first medical examination image information packet from a storage position corresponding to the second switching device in the remote server and managing the acquired first medical examination image information packet.

Further, the first switching device and the second switching device each include:

the control chip contains instructions for calling the medical examination image information corresponding to the exchange request from the first medical image information database and the second medical image information database respectively;

the first storage module is used for storing the medical examination image information corresponding to the exchange request;

the triggering module generates a triggering request signal for medical examination image information exchange when receiving a medical examination image information exchange request and sends the triggering request signal to the control chip;

and the first wireless communication module is electrically connected with the control chip and the first storage module and is used for sending the medical examination image information stored in the first storage module to the remote server through a wireless network according to the instruction of the control chip.

Further, the first mobile terminal is electrically connected to the first medical image information database, the second mobile terminal is electrically connected to the second medical image information database, the first mobile terminal and the second mobile terminal both include a second wireless communication module, and the second wireless communication module is a bluetooth communication module; the first mobile terminal receives the second medical examination image information packet and transmits the second medical examination image information packet to the first medical image information database through the second wireless communication module, and the second mobile terminal receives the first medical examination image information packet and transmits the second medical examination image information packet to the second medical image information database through the second wireless communication module.

Further, the remote server includes:

a packet receiving module that receives the first medical examination image packet and the second medical examination image packet from the first switching device and the second switching device, respectively;

the judging module is used for judging whether the time interval between the received first medical examination image information packet and the received second medical examination image information packet is smaller than a preset time interval or not;

the storage position acquisition module is used for respectively acquiring a medical examination image information storage position corresponding to the first exchange device and a medical examination image information storage position corresponding to the second exchange device;

and the second storage module stores the second medical examination image information in a medical examination image information storage position corresponding to the first exchange device, and stores the first medical examination image information in a medical examination image information storage position corresponding to the second exchange device.

Further, the value range of the preset time interval is 30 s-1 min.

Compared with the prior art, the invention has the beneficial effects that:

firstly, medical examination image information is obtained from a medical image information database, the medical examination image information is classified and processed based on different parts, then a medical evaluation model corresponding to each human body part is established based on the classified medical image information, medical model parameters are obtained, and the medical model parameters are stored, so that a doctor can be used as a reference basis when the doctor diagnoses the human body medical examination image information of a patient, and the doctor is assisted in improving the efficiency and accuracy of medical examination and diagnosis of the patient.

Secondly, synthesizing a medical image file by acquiring medical images of a patient, and generating an image information file according to the medical image file, wherein the medical image information file comprises an inspection date identification number, an image sequence identification number and an image identification number; calculating the medical image file and the storage path of the medical image information file in the server according to the identification numbers and a Hash algorithm; the medical image file and the medical image information file are stored in the storage path of the server, so that the medical image file is purposefully stored in the corresponding storage path, and a subsequent patient and a doctor can call the required medical image information from the medical image information database through mobile equipment conveniently.

Thirdly, the medical image exchange device realizes the exchange and sharing of the medical image information of the same patient by different hospitals, after one hospital sends an exchange request and obtains the permission of another doctor within a time interval smaller than the preset time interval, the desired medical image information can be obtained, the time and the cost for the patient to check again are saved, the convenience of sharing the medical image information and the safety of the medical image information are improved, and the efficiency of seeing and examining is further improved.

Drawings

The storage and exchange of medical image information of the present invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic diagram of a medical image information storage and exchange intelligent medical system according to the present invention;

FIG. 2 is a schematic diagram of the structure of a first medical image information database and a second medical image information database according to the present invention;

FIG. 3 is a functional block diagram of a medical image information storage device according to the present invention;

FIG. 4 is a functional block diagram of a medical image information processing apparatus according to the present invention;

FIG. 5 is a schematic structural diagram of a medical image information exchange device according to the present invention;

FIG. 6 is a functional block diagram of a switching device according to the present invention;

fig. 7 is a functional block diagram of a remote server according to the present invention.

In the figure: 1-a first medical image information database, 2-a second medical image information database, 3-a medical reference image information database, 4-a mobile device, 5-a medical image information exchange device, 11-a first medical image information storage device, 12-a first medical image information processing device, 13-a first server, 14-a first micro application program, 15-a first authentication program, 21-a second medical image information storage device, 22-a second medical image information processing device, 23-a second server, 24-a second micro application program, 25-a second authentication program, 41-a third micro application program, 10-an information acquisition module, 20-a first calculation module, 30-a storage module, 40-a classification processing module, 50-query module, 401-medical reference image information acquisition unit, 402-medical reference image information classification unit, 403-medical evaluation model establishment unit, 404-medical image information processing unit, 405-medical image information output unit, 501-first subject, 502-second subject, 5011-acquisition sub-module, 5012-download sub-module, 5013-split sub-module, 5014-second calculation sub-module, 5015-transmission sub-module, 5021-calling sub-module, 5022-receiving indication sub-module, 5023-display mode sub-module, 5024-assimilation module, 51-first switching device, 52-second switching device, 53-remote server, 54-first mobile terminal, 55-second mobile terminal, 510-control chip, 520-a first storage module, 530-a trigger module, 540-a first wireless communication module, 550-a second wireless communication module, 560-a packet receiving module, 570-a judgment module, 580-a storage location acquisition module, 590-a second storage module.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. 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 invention.

Referring to fig. 1-7, an objective of the present invention is to provide an intelligent medical system for storing and exchanging medical image information, which includes a first medical image information database 1, a second medical image information database 2, a medical reference image information database 3, a mobile device 4, and a medical image information exchange device 5,

the first medical image information database 1 is a medical examination image information database of a hospital where a patient first visits a doctor, the second medical image information database 2 is a medical examination image information database of other hospitals, the first medical image information database 1 and the second medical image information database 2 are electrically connected with each other, the first medical image information database 1 is provided with a first medical image information storage device 11, a first medical image information processing device 12, a first server 13 and a first micro application program 14, and the second medical image information database 2 is provided with a second medical image information storage device 21, a second medical image information processing device 22, a second server 23 and a second micro application program 24;

the medical reference image information database 3 is medical reference data obtained through a medical evaluation model of each part of a standard human body, and the medical reference image information database 3 is electrically connected with the first medical image information database 1 and the second medical image information database 2 respectively;

the mobile device 4 is electrically connected to the first medical image information database 1 and the second medical image information database 2, respectively, and the mobile device 4 is installed with a third micro application program 41.

The first medical image information storage device 11 and the second medical image information storage device 21 are used for acquiring and storing medical examination image information of a patient, and comprise:

the information acquisition module 10 acquires medical examination image information of a patient to synthesize a medical image file, generates a medical image information file according to the medical image file and diagnosis information, and receives the medical image file and the medical image information file respectively by the first server 13 and the second server 14; the medical image information file comprises an inspection date identification number, an image sequence identification number and an image identification number;

a first calculating module 20, which calculates the storage paths of the medical image file and the medical image information file in the first server 13 and the second server 14 respectively according to the inspection date identification number, the image sequence identification number and the image identification number and a hash algorithm;

a storage module 30, which stores the medical image file and the medical image information file into the storage paths of the first server 13 and the second server 14, respectively.

The first micro application 14 and the second micro application 24 allow or reject the third micro application 41 to call the medical examination image information, the third micro application 41 includes a patient mode and a doctor mode, wherein the patient mode requires all of the examination date identification number, the image sequence identification number and the image identification number of the medical examination image information to be queried to query the medical examination image information to be queried from the first medical image information database 1 and the second medical image information database 2 through the mobile device 4; the doctor mode can call the medical examination image information to be inquired from the first medical image information database 1 and the second medical image information database 2 respectively by adding the image sequence identification number or one of the image identification numbers to the name of the patient.

The first medical image information processing device 12 and the second medical image information processing device 22 are configured to process the medical image information files stored in the first medical image information storage device 11 and the second medical image information storage device 21, and include a classification processing module 40 and a query module 50, where the classification processing module 40 includes:

a medical reference image information acquiring unit 401 that acquires medical reference image information from the medical reference image information database 3;

a medical reference image information classification unit 402 that classifies the medical reference image information based on different parts of a human body;

a medical evaluation model establishing unit 403, which establishes medical evaluation models of the respective parts of the human body based on the classified medical reference image information, obtains medical model parameters, and stores the medical model parameters in the first server 13 and the second server 14, respectively;

a medical image information processing unit 404, which acquires the medical examination image information of the patient from the first medical image information storage device 11 and the second medical image information storage device 21, identifies an examination part of the patient from the medical examination image information of the patient, and acquires the corresponding medical model parameters from the first server 13 and the second server 14 according to the examination part of the patient;

a medical image information output unit 405, which outputs medical examination image information of a patient and the corresponding medical model parameters to the query module;

the query module 50 is divided into two topics, wherein a first topic 501 serves patients and a second topic 502 serves doctors; the first theme 501 includes:

the obtaining submodule 5011 is configured to obtain the inspection date identification number sent by the client of the mobile device, and calculate, according to the inspection date identification number and a hash algorithm, storage paths of all medical image information files corresponding to the inspection date identification number;

the downloading submodule 5012 downloads the corresponding medical image information file according to the calculated storage paths of all the corresponding medical image information files, acquires the inspection date identification number, the image sequence identification number and the image identification number according to the downloaded medical image information file, combines the inspection date identification number, the image sequence identification number and the image identification number, and generates a return value to return to the client;

the splitting submodule 5013 splits the return value through the client to obtain the number of all medical images corresponding to the inspection date identification number, and obtains the inspection date identification number, the image sequence identification number and the image identification number corresponding to the medical image to be queried through the client;

the second calculating submodule 5014 calculates the storage path of the medical image information file of the medical image to be queried according to the inspection date identification number, the image sequence identification number and the image identification number corresponding to the medical image to be queried according to a hash algorithm;

the sending submodule 5015 is configured to send the medical image information file in the storage path to the client, and operate information of the medical image information file through the client to obtain the image to be queried, so that a patient can conveniently share the image to be queried to other hospitals except an examination hospital as a diagnosis reference;

the second theme 502 includes:

the invoking submodule 5021 invokes medical examination image information of a patient and the corresponding medical model parameters from the first server 13 and the second server 14 respectively through the doctor mode;

the receiving instruction submodule 5022 receives medical image information display mode instructions from the client;

a display mode sub-module 5023, which displays first medical image information and second medical image information according to the medical image information display mode, wherein the first medical image information is medical examination image information representing organs of a patient, the second medical image information is medical image information representing organs of a standard human body in the medical reference image information database 3, and the second medical image information includes tissues and organs of the standard human body and adjacency relation and hierarchical structure information between the tissues and organs;

an assimilation module 5024, which performs assimilation operation on the first medical image information and the second medical image information, so that the first medical image information and the second medical image information are in the same state; the same states include: the display parameters of the medical image, such as organ identification, image size, image color, image transparency and the like, are preset initial values of the display parameters.

The first medical image information database 1 further stores a first authentication program 15, and the first medical image information database 1 determines whether the mobile device 4 has a login right through the first authentication program 15, and allows or refuses to transmit the first medical image information database 1 to transmit update information to the mobile device 4; the second medical image information database 2 stores a second authentication program 25, and the first medical image information database 2 determines whether the second medical image information database 2 has a login right through the second authentication program 25, and allows or rejects the first medical image information database 2 to transmit update information to the mobile device 4.

The medical image information exchange device 5 comprises a first exchange device 51, a second exchange device 52, a remote server 53, a first mobile terminal 54 and a second mobile terminal 55; wherein:

the first switching device 51 is configured to, when receiving a request for exchanging medical examination image information, send a first medical examination image information packet of a patient, which is stored in the first medical image information database 1 and corresponds to the exchange request, to the remote server 53 through a wireless network;

the second exchanging device 52 is configured to, when receiving a request for exchanging medical examination image information, send a second medical examination image information packet of the patient stored in the second medical image information database 2 corresponding to the exchange request to the remote server 53 through a wireless network;

the remote server 53 is configured to determine whether a time interval between the received first medical examination image packet and the received second medical examination image packet is smaller than a preset time interval, and when the time interval between the received first medical examination image packet and the received second medical examination image packet is smaller than the preset time interval, store the medical examination image information in the second medical examination image packet in a storage location corresponding to the first switching device 51, and store the medical examination image information in the first medical examination image packet in a storage location corresponding to the second switching device 52;

the first mobile terminal 54 is configured to obtain the second medical examination image information packet from a storage location in the remote server 53 corresponding to the first switching device 51 and manage the obtained second medical examination image information packet;

the second mobile terminal 55 is configured to obtain the first medical examination image packet from a storage location in the remote server 53 corresponding to the second switching device 52 and manage the obtained first medical examination image packet.

The first switching device 51 and the second switching device 52 each include:

a control chip 510, which contains instructions for calling the medical examination image information corresponding to the exchange request from the first medical image information database 1 and the second medical image information database 2, respectively;

a first storage module 520, which stores the medical examination image information corresponding to the exchange request;

the triggering module 530 generates a triggering request signal for exchanging the medical examination image information when receiving the medical examination image information exchange request, and sends the triggering request signal to the control chip;

a first wireless communication module 540, electrically connected to the control chip 510 and the first storage module 520, for sending the medical examination image information stored in the first storage module 520 to the remote server 53 through a wireless network according to the instruction of the control chip 510.

The first mobile terminal 54 is electrically connected to the first medical image information database 1, the second mobile terminal 55 is electrically connected to the second medical image information database 2, the first mobile terminal 54 and the second mobile terminal 55 both include a second wireless communication module 550, and the second wireless communication module 550 is a bluetooth communication module; the first mobile terminal 54 receives the second medical examination image packet and transmits the second medical examination image packet to the first medical image information database 1 through the second wireless communication module 550, and the second mobile terminal 55 receives the first medical examination image packet and transmits the second medical examination image packet to the second medical image information database 2 through the second wireless communication module 550.

The remote server 53 includes:

a packet receiving module 560, which receives the first medical examination image packet and the second medical examination image packet from the first switching device 51 and the second switching device 52, respectively;

the determining module 570 determines whether the time interval between the received first medical examination image packet and the received second medical examination image packet is smaller than a preset time interval;

a storage location obtaining module 580 for obtaining a medical examination image information storage location corresponding to the first switching device 51 and a medical examination image information storage location corresponding to the second switching device 52, respectively;

the second storage module 590 stores the second medical examination image information in a medical examination image information storage location corresponding to the first exchange device, and stores the first medical examination image information in a medical examination image information storage location corresponding to the second exchange device.

The value range of the preset time interval is 30 s-1 min.

Referring to fig. 4, a second objective of the present invention is to provide an intelligent medical system for storing and exchanging medical image information.

The working principle of the invention is as follows:

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. An intelligent medical system for storing and exchanging medical image information is characterized by comprising a first medical image information database (1), a second medical image information database (2), a medical reference image information database (3), a mobile device (4) and a medical image information exchange device (5),

the first medical image information database (1) is a medical examination image information database of a hospital where a patient first visits, the second medical image information database (2) is a medical examination image information database of other hospitals, the first medical image information database (1) and the second medical image information database (2) are electrically connected with each other, the first medical image information database (1) is provided with a first medical image information storage device (11), a first medical image information processing device (12), a first server (13) and a first micro application program (14), the second medical image information database (2) is provided with a second medical image information storage device (21), a second medical image information processing device (22), a second server (23) and a second micro application program (24);

the medical reference image information database (3) is medical reference data obtained through a medical evaluation model of each part of a standard human body, and the medical reference image information database (3) is electrically connected with the first medical image information database (1) and the second medical image information database (2) respectively;

the mobile equipment (4) is electrically connected to the first medical image information database (1) and the second medical image information database (2) respectively, and a third micro application program (41) is installed on the mobile equipment (4);

the first medical image information storage device (11) and the second medical image information storage device (21) are used for acquiring and storing medical examination image information of a patient, and comprise:

the system comprises an information acquisition module (10) for acquiring medical examination image information of a patient to synthesize a medical image file, generating a medical image information file according to the medical image file and diagnosis information, and receiving the medical image file and the medical image information file by the first server (13) and the second server (14) respectively; the medical image information file comprises an inspection date identification number, an image sequence identification number and an image identification number;

the first calculation module (20) is used for calculating storage paths of the medical image file and the medical image information file in the first server (13) and the second server (14) respectively according to the inspection date identification number, the image sequence identification number and the image identification number and a Hash algorithm;

a storage module (30) for storing the medical image file and the medical image information file into storage paths of the first server (13) and the second server (14), respectively;

the first micro application program (14) and the second micro application program (24) allow or reject the third micro application program (41) to call the medical examination image information, wherein the third micro application program (41) comprises a patient mode and a doctor mode, and the patient mode requires all of the examination date identification number, the image sequence identification number and the image identification number of the medical examination image information to be inquired so as to inquire the medical examination image information to be inquired from the first medical image information database (1) and the second medical image information database (2) through the mobile device (4); the doctor mode can call the medical examination image information to be inquired from the first medical image information database (1) and the second medical image information database (2) respectively by adding the image sequence identification number or one of the image identification numbers to the name of the patient;

the medical image information exchange device (5) comprises a first exchange device (51), a second exchange device (52), a remote server (53), a first mobile terminal (54) and a second mobile terminal (55); wherein: the first exchange device (51) is used for sending a first medical examination image information packet of a patient, which is stored in the first medical image information database (1) and corresponds to the exchange request, to the remote server (53) through a wireless network when receiving a request of medical examination image information exchange;

the second exchange device (52) is used for sending a second medical examination image information packet of the patient, which is stored in the second medical image information database (2) and corresponds to the exchange request, to the remote server (53) through a wireless network when receiving the request of medical examination image information exchange;

the remote server (53) is configured to determine whether a time interval between the received first medical examination image packet and the received second medical examination image packet is smaller than a preset time interval, and when the time interval between the received first medical examination image packet and the received second medical examination image packet is smaller than the preset time interval, store the medical examination image information in the second medical examination image packet in a storage location corresponding to the first switching device (51), and store the medical examination image information in the first medical examination image packet in a storage location corresponding to the second switching device (52);

the first mobile terminal (54) is used for acquiring the second medical examination image information packet from a storage position corresponding to the first switching device (51) in the remote server (53) and managing the acquired second medical examination image information packet;

the second mobile terminal (55) is configured to acquire the first medical examination image information packet from a storage location corresponding to the second switching device (52) in the remote server (53) and manage the acquired first medical examination image information packet.

2. The medical image information storage and exchange intelligent medical system according to claim 1, wherein the first medical image information processing device (12) and the second medical image information processing device (22) are configured to process the medical image information files stored in the first medical image information storage device (11) and the second medical image information storage device (21), and include a classification processing module (40) and a query module (50), wherein the classification processing module (40) includes:

a medical reference image information acquisition unit (401) that acquires medical reference image information from the medical reference image information database (3);

a medical reference image information classification unit (402) that classifies the medical reference image information based on different parts of a human body;

a medical evaluation model establishing unit (403) which establishes a medical evaluation model of each corresponding part of the human body based on the classified medical reference image information, obtains medical model parameters, and respectively stores the medical model parameters in the first server (13) and the second server (14);

a medical image information processing unit (404) which acquires the medical examination image information of the patient from the first medical image information storage device (11) and the second medical image information storage device (21), identifies an examination part of the patient from the medical examination image information of the patient, and acquires the corresponding medical model parameters from the first server (13) and the second server (14) according to the examination part of the patient;

a medical image information output unit (405) for outputting medical examination image information of a patient and the corresponding medical model parameters to the query module; the query module (50) is divided into two topics, wherein a first topic (501) serves patients and a second topic (502) serves doctors; the first theme (501) comprises:

the acquisition submodule (5011) is used for acquiring the inspection date identification number sent by the client side of the mobile equipment, and calculating storage paths of all medical image information files corresponding to the inspection date identification number according to the inspection date identification number and a Hash algorithm;

the downloading submodule (5012) downloads the corresponding medical image information files according to the calculated storage paths of all the corresponding medical image information files, acquires the inspection date identification numbers, the image sequence identification numbers and the image identification numbers according to the downloaded medical image information files, combines the inspection date identification numbers, the image sequence identification numbers and the image identification numbers to generate a return value, and returns the return value to the client;

the splitting submodule (5013) splits the return value through the client to obtain the number of all medical images corresponding to the inspection date identification number, and obtains the inspection date identification number, the image sequence identification number and the image identification number corresponding to the medical image to be inquired through the client;

the second calculating submodule (5014) is used for calculating the storage path of the medical image information file of the medical image to be inquired according to the inspection date identification number, the image sequence identification number and the image identification number which correspond to the medical image to be inquired and a Hash algorithm;

the sending submodule (5015) is used for sending the medical image information file under the storage path to the client, operating the information of the medical image information file through the client to obtain the image to be inquired, and enabling a patient to conveniently share the image to be inquired to other hospitals except for a checking hospital as a diagnosis reference;

the second theme (502) comprises: a calling submodule (5021) for calling medical examination image information of a patient and corresponding medical model parameters from the first server (13) and the second server (14) respectively through the doctor mode;

a receiving indication submodule (5022) for receiving the medical image information display mode indication from the client;

a display mode sub-module (5023) for displaying first medical image information and second medical image information according to the medical image information display mode, wherein the first medical image information is medical examination image information representing organs of a patient, the second medical image information is medical image information representing organs of a standard human body in the medical reference image information database (3), and the second medical image information comprises tissues and organs of the standard human body and adjacency relation and hierarchical structure information among the tissues and organs;

an assimilation module (5024) for performing assimilation operation on the first medical image information and the second medical image information to enable the first medical image information and the second medical image information to be in the same state; the same states include: the display parameters of the medical image, such as organ identification, image size, image color, image transparency and the like, are preset initial values of the display parameters.

3. The system of claim 2, wherein the first switch device (51) and the second switch device (52) each comprise:

a control chip (510) containing instructions for calling the medical examination image information corresponding to the exchange request from the first medical image information database (1) and the second medical image information database (2), respectively;

a first storage module (520) for storing the medical examination image information corresponding to the exchange request;

the triggering module (530) generates a triggering request signal of medical examination image information exchange when receiving a medical examination image information exchange request, and sends the triggering request signal to the control chip;

the first wireless communication module (540) is electrically connected with the control chip (510) and the first storage module (520) and is used for sending the medical examination image information stored in the first storage module (520) to the remote server (53) through a wireless network according to the instruction of the control chip (510).

4. The system according to claim 3, wherein the first mobile terminal (54) is electrically connected to the first medical image information database (1), the second mobile terminal (55) is electrically connected to the second medical image information database (2), the first mobile terminal (54) and the second mobile terminal (55) each include a second wireless communication module (550), and the second wireless communication module (550) is a bluetooth communication module; the first mobile terminal (54) receives the second medical examination image information packet and transmits the second medical examination image information packet to the first medical image information database (1) through the second wireless communication module (550), and the second mobile terminal (55) receives the first medical examination image information packet and transmits the second medical examination image information packet to the second medical image information database (2) through the second wireless communication module (550).

5. The system of claim 4, wherein the remote server (53) comprises: a packet receiving module (560) that receives the first medical examination image packet and the second medical examination image packet from the first switching device (51) and the second switching device (52), respectively;

a judging module (570) for judging whether the time interval between the received first medical examination image information packet and the second medical examination image information packet is smaller than a preset time interval;

a storage position acquisition module (580) for respectively acquiring a medical examination image information storage position corresponding to the first exchange device (51) and a medical examination image information storage position corresponding to the second exchange device (52);

and the second storage module (590) stores the second medical examination image information in a medical examination image information storage position corresponding to the first exchange device, and stores the first medical examination image information in a medical examination image information storage position corresponding to the second exchange device.