CN113707277A - Prostate MR cancer structured report design method - Google Patents

Abstract

The patent of the present invention discloses a method for designing a structured report of prostate MR cancer. In order to overcome the inability of the prior art to carry out informatized management and utilization of reports, resulting in low efficiency, the patent of the present invention includes the following steps: logging in to the user interface and providing multiple data options in the user interface; filling in the prostate in the structured report template The PI_RADS score and PACS images are inserted into the database, and then uploaded to the database; the database receives the uploaded data, and will classify and archive the key information; the database will save the received information; input the query data request in the user interface and send it to the database; the database receives Request, match and filter the data information in the request with the existing information in the database; the database returns the data that the user wants to query and automatically generates a structured report. The advantage is that it can search, query and make statistics on the keywords of the report content, helping doctors to better improve the level and efficiency of writing reports.

Description

Prostate MR cancer structured report design method

Technical Field

The invention relates to the technical field of medicine, in particular to a design method applied to a PACS (Picture Archiving and Communication Systems) system for a doctor end to write an examination report for a patient.

Background

Compared with the traditional report, the structured report is structured in content, the traditional report is mostly written according to personal habits of doctors, the content logic is complex, words are diversified, value information in the report is difficult to effectively extract, and informationized management and utilization cannot be performed. Not only wastes a large amount of precious medical record information, but also easily causes omission and errors of writing reports. When the times of big data and artificial intelligence come, structured medical record information is the most basic data. The popularity and use of structured reports has therefore been pressing. The traditional report interface has no function of searching the keywords of the report content, and the invention aims to search, query and count the keywords of the report content and help doctors to better improve the report writing level and efficiency.

At present, it is known that the ratio of Cho + Cre/Cit (citrate, Cit; choline, Cho; creatine, Cre) is used internationally to reflect the metabolic condition of the prostate.

For example, a method and an apparatus for designing a case report form disclosed in chinese patent literature, which is under the publication No. CN106445901A and has publication date of 2017, 2 and 22, includes a method and an apparatus for designing a case report form. The method comprises the following steps: providing a plurality of data options on a user interface; receiving user input and determining a data option selected by a user according to the user input; sending a first request for acquiring attribute information of the data options selected by the user to a server, wherein the server stores the attribute information of each data option; receiving attribute information of the data option selected by the user and returned by the server in response to the first request; and automatically generating a case report table based on the user-selected data option and the received attribute information of the user-selected data option. The patent does not provide a keyword query function, does not store and protect diagnosis information and patient information, and cannot help doctors to improve efficiency well.

Disclosure of Invention

The invention mainly solves the problem that the prior art cannot manage and utilize the report informationized, which causes low efficiency; the method for designing the structured report of the prostate MR cancer can search, inquire and count keywords of report contents and help doctors to better improve the report writing level and efficiency.

The technical problem of the patent of the invention is mainly solved by the following technical scheme:

the invention discloses a structured report design method for prostate MR cancer, which comprises the following steps:

s1: logging in a user interface and providing a plurality of data options on the user interface;

s2: filling a Prostate PI _ RADS score (prostating imaging Reporting And Data System) And inserting a PACS image thumbnail in a structured report template of a user interface, And uploading the filled Prostate PI _ RADS score And the inserted PACS image thumbnail to a database;

s3: the database receives the uploaded data and carries out classified filing according to key information in the received data;

s4: the database stores the received information and stores the information in the database;

s5: selecting and confirming a queried data option request on a user interface and sending the request to a database;

s6: the database receives the request, and the data information in the request is matched and screened with the information stored in the database;

s7: the database returns all information of the data options selected by the user and automatically generates a structured report form according to the returned information.

Through the steps, the value information in the report can be effectively extracted, information management and utilization can be carried out, keywords of the report content can be searched, inquired and counted, and doctors are helped to better improve the report writing level and efficiency.

Preferably, step S1 includes the steps of:

s11: a user login page inputs a user name and an account password, and the user name and the account password are sent to a database in the form of electric signals;

s12: the database receives the transmitted electric signal, converts the electric signal into 0/1 binary signal, and transmits the converted binary signal to the module for storing the login user information in the database;

s13: a module for storing login user information in a database converts a received binary signal into a hexadecimal signal, and checks and verifies the converted hexadecimal signal and each digit of information stored in the database;

s14: after the verification passes in the database, the user can access the content in the database.

Step S1 is to verify whether the logged account is a registered account, and to ensure that data in the database is not leaked and to protect information security.

Preferably, the key information in step S3 includes two categories of report information and basic patient information, the report information includes pathology, diagnosis description, examination equipment, peripheral zone, central zone, transition zone, prostate capsule, prostate fascia, Cho + Cre/Cit value, the basic patient information includes name, age, sex, identification number, telephone number, and the two categories of report information and basic patient information are in corresponding tables of a database of a structured report template, and the database stores range division of data information according to clinical data standards and doctor experience. This is to make the structured arrangement and utilization of the information, help the doctor to improve the report writing level and efficiency better.

Preferably, step S3 includes the steps of:

s31: the database can carry out sequential numbering on the uploaded structured reports, the report information in the key information of the structured reports is set to be numbered 100, the patient basic information is set to be numbered 200, and the numbers of the report information and the information contained in the patient basic information are added with 1 one by one;

s32: the database converts the number information and the data under the number information into a binary system;

s33: the database carries out matching check on each digit in the numbered binary information;

s34: after each digit is correctly matched, the database classifies the binary data information into correct range division and performs statistics on the structured report number of each category again.

The method is used for structural arrangement and utilization of information, convenience is provided for data query later, and statistics on some key information data is facilitated.

Preferably, step S4 includes the steps of:

s41: the database converts the character information in the structured report into binary system, and the pixel information of the picture in the template of the structured report is represented by 64-bit binary system;

s42: the database encrypts the information of the structured report, converts the text information into a binary system, converts the binary system information into a hexadecimal system, and adds a hexadecimal numerical value after converting the binary system information into the hexadecimal system;

s43: each four digits of the processed hexadecimal data form a group, each group of digits is integrally shifted backwards by one digit, the last group of digits is put to the first digit, and the picture information and the text information have the same encryption mode;

s44: after data are encrypted, a database randomly allocates an empty address number, and stores character information data and picture information data in a structured report on the address number;

s45: decryption only requires a reverse derivation of the encryption process.

The basic information of the patient and the diagnosis information of the patient are safely protected, and the private information of the patient is prevented from being leaked.

Preferably, step S5 includes the steps of:

s51: providing a query options box at a user interface;

s52: inputting keywords to be inquired on an interface or selecting a PI _ RADS score by a user, wherein the PI _ RADS score range is 1-5 points;

s53: and clicking a query button to send the request information to be queried by the user to the database.

A keyword search function is provided to acquire data desired by a user better and improve efficiency of a doctor.

Preferably, step S6 includes the steps of:

s61: the database receives the request information and converts the request information into a binary form;

s62: the database matches and checks each digit in the binary information with the data information stored in the database;

s63: after the matching check is passed, searching the database for the binary number of the structured report with the binary information;

s64: the database finds the address number stored in the database according to the searched binary number of the structured report, copies and takes out the stored content, and decrypts the content.

By searching the keyword information in the database, all data matched with the keyword information can be quickly found out, and the efficiency can be improved.

Preferably, step S7 includes the steps of:

s71: the database packs all the searched structural report information which the user wants to inquire together and sends the report information to the user;

s72: the data information transmitted to the user is displayed on the right side of the user interface in the order of time of registration.

The beneficial effects of the invention are:

the invention provides a retrieval function for the report content keywords on the report interface, can retrieve, query and count the report content keywords, and helps doctors to better improve the report writing level and efficiency. The value information in the report can be effectively extracted, and the informationized management and utilization can be carried out. Not only a large amount of precious medical record information is well utilized, but also careless omission and errors in writing reports are avoided.

Drawings

Fig. 1 is a flow chart of the structured report design method for prostate MR cancer of the invention patent.

Detailed Description

The technical scheme of the invention is further specifically described by the following embodiments and the accompanying drawings.

Example (b):

the method for designing the structured report of prostate MR cancer of the present embodiment, as shown in fig. 1, includes the following steps:

s1: logging into a user interface and providing a plurality of data options at the user interface. The user inputs a user name and an account password on a login page, and the user name and the account password are sent to a database in the form of electric signals. The database receives the electrical signal sent by the user, converts the electrical signal into 0/1 binary signal, and sends the binary signal to the module for storing the information of the logged user in the database. The module for storing the information of the login user in the database receives the binary signal, converts the binary signal into a hexadecimal signal, and then checks and verifies the converted data and the stored information in the database. After the verification passes in the database, the user can access the content in the database.

S2: and filling in the PI _ RADS score and inserting the PACS image thumbnail in a structured report template of the user interface, and uploading the filled PI _ RADS score and PACS image thumbnail to a database. The interpolated image is MRI (Magnetic Resonance Imaging). On the right side of the user interface is a database corresponding table, values of fields corresponding to reports can be inquired in the database table, and lesion attributes corresponding to each element and hierarchical relations between each element and the elements can be seen in the database corresponding table.

S3: and the database receives the uploaded data and carries out classification filing according to key information in the received data. The key information in step S3 includes two categories of report information and basic information of the patient, which are stored in the database corresponding table of the structured report template, and the range division of the data information according to the clinical data standard and the doctor experience is performed in the database. The database numbers the structured reports in sequence, the number of the report information in the key information of the structured reports is set as 100, the number of the basic information of the patients is set as 200, and 1 is added to the numbers of the report information and the detailed information under the basic information of the patients in an accumulated mode one by one. The database converts the number information and the data under the number information into binary data. And the database performs matching check on each digit in the numbered binary information. After each digit is correctly matched, the database classifies the binary information of the data into proper range division and carries out statistics calculation again on the structured report number of each category.

S4: and the database stores the received information and stores the information in the database. The database converts the text information in the structured report into information in a binary form, and the pixel information of the picture in the template of the structured report is represented by 64-bit binary. The database encrypts the information in the structured report, after the text information is converted into a binary system, the binary system information is converted into a hexadecimal system, the hexadecimal system information is converted into the hexadecimal system, a hexadecimal numerical value is added, the processed hexadecimal data is composed of four digits, each digit group is integrally shifted backwards by one digit, the last digit group is placed at the first digit, and the picture information and the text information are encrypted in the same mode. After data is encrypted, the database randomly allocates an address number, and stores the text information data and the picture information data in the structured report on the address number, and decryption only needs to reversely deduce the encryption process.

S5: a data option request for the query is selected, validated, and sent to the database at the user interface. Providing a query option box on a user interface, inputting a keyword to be queried or selecting a PI _ RADS score on the interface by a user, wherein the PI _ RADS score range is 1-5, clicking a query button, and sending request information to be queried by the user to a database.

S6: the database receives the request, and the data information in the request is matched and screened with the information stored in the database. The database receives the request information and converts the request information into a binary form. And the database matches and checks each digit in the binary information with the data information stored in the database. After the match check is passed, the database searches for the binary number of the structured report with the binary information. The database finds the address number stored in the database according to the searched binary number of the structured report, copies and takes out the stored content, and decrypts the content.

S7: the database returns all information of the data options selected by the user and automatically generates a structured report form according to the returned information. And the database packages the searched structured report information which the user wants to query together and sends the report information to the user. The data information transmitted to the user is displayed on the right side of the user interface in the order of time of registration.

After the doctor inputs the user name and the account password, the doctor can log in the user interface after verification. After that, the doctor can fill in the PI _ RADS score and the basic information of the patient in the structured report template, and when the doctor writes the report, the doctor can input characters through a keyboard, check the score or input the score, select the mode of individual disease characteristics more, write the report in multiple modes, or input specific numerical values through the keyboard, or insert a PACS image thumbnail of the patient examination in the structured report and store the PACS image thumbnail in a database. After the data are uploaded to the database, the database can carry out classification statistics according to the uploaded data

In the keyword query process, the method is divided into ordinary query and advanced query. The general query has a department and registration time connection query option. And advanced queries set many keywords to the structured report of prostate MR cancer for the user to choose from, for example: the method comprises the following steps of inputting keywords such as a peripheral zone, a central zone, a transitional zone, a prostate capsule, a prostate fascia, a Cho + Cre/Cit value, cell density and the like, inputting the keywords to be inquired or selecting a PI _ RADS score by a user on an interface, wherein the PI _ RADS score range is 1-5. In addition to the character-type query options, there are also numeric-type query options among the query options, such as: the peripheral zone is scored 1-5 points; the migration zone was scored 1-5 points.

It should be understood that the examples are only for illustrating the present patent and are not intended to limit the scope of the present patent. Further, it should be understood that various changes or modifications of the present invention may be made by those skilled in the art after reading the teaching of the present invention, and such equivalents may fall within the scope of the present invention as defined in the appended claims.

Claims (8)

1. A method for designing a structured report of prostate MR cancer, comprising the steps of:

s1: logging in a user interface and providing a plurality of data options on the user interface;

s2: filling the PI _ RADS score of the prostate and inserting the PACS image thumbnail in a structured report template of a user interface, and uploading the filled PI _ RADS score and PACS image thumbnail to a database;

s3: the database receives the uploaded data and carries out classified filing according to key information in the received data;

s4: the database stores the received information and stores the information in the database;

s5: selecting and confirming a queried data option request on a user interface and sending the request to a database;

s6: the database receives the request, and the data information in the request is matched and screened with the information stored in the database;

s7: the database returns all information of the data options selected by the user and automatically generates a structured report form according to the returned information.

2. The method for designing structured report of prostate MR cancer according to claim 1, wherein step S1 includes the following steps:

s11: a user login page inputs a user name and an account password, and the user name and the account password are sent to a database in the form of electric signals;

s12: the database receives the transmitted electric signal, converts the electric signal into 0/1 binary signal, and transmits the converted binary signal to the module for storing the login user information in the database;

s13: a module for storing login user information in a database converts a received binary signal into a hexadecimal signal, and checks and verifies the converted hexadecimal signal and each digit of information stored in the database;

s14: after the verification passes in the database, the user can access the content in the database.

3. The method as claimed in claim 1, wherein the key information in step S3 includes two categories of report information and basic information of patient, the report information includes pathology, application department, PI _ RADS score, examination equipment, peripheral zone, central zone, transition zone, prostate capsule, prostate fascia, Cho + Cre/Cit value, the basic information of patient includes name, age, sex, identification number, telephone, the two categories of report information and basic information of patient are in corresponding tables of database of the structured report template, and the database has stored therein range division of data information according to clinical data standard and doctor experience.

4. The method for designing structured report of prostate MR cancer according to claim 1 or 3, wherein step S3 includes the following steps:

s31: the database can carry out sequential numbering on the uploaded structured reports, the report information in the key information of the structured reports is set to be numbered 100, the patient basic information is set to be numbered 200, and the numbers of the report information and the information contained in the patient basic information are added with 1 one by one;

s32: the database converts the serial number information and the data corresponding to the serial number information into a binary system;

s33: the database carries out matching check on each digit in the numbered binary information;

s34: after each digit is correctly matched, the database classifies the binary data information into correct range division and performs statistics on the structured report number of each category again.

5. The method for designing structured report of prostate MR cancer according to claim 1, wherein step S4 includes the following steps:

s41: the database converts the character information in the structured report into binary system, and the picture pixel information in the template of the structured report is represented by 64-bit binary system;

s42: the database encrypts the information of the structured report, converts the text information into a binary system, converts the binary system information into a hexadecimal system, and adds a hexadecimal numerical value after converting the binary system information into the hexadecimal system;

s43: each four digits of the processed hexadecimal data form a group, each group of digits is integrally shifted backwards by one digit, the last group of digits is put to the first digit, and the picture information and the text information have the same encryption mode;

s44: after data are encrypted, a database randomly allocates an empty address number, and stores character information data and picture information data in a structured report on the address number;

s45: decryption only requires a reverse derivation of the encryption process.

6. The method for designing structured report of prostate MR cancer according to claim 1, wherein step S5 includes the following steps:

s51: providing a query options box at a user interface;

s52: inputting keywords to be inquired on an interface or selecting a PI _ RADS score by a user, wherein the PI _ RADS score range is 1-5 points;

s53: and clicking a query button, and sending the request information to be queried by the user to the database.

7. The method for designing structured report of prostate MR cancer according to claim 1, wherein step S6 includes the following steps:

s61: the database receives the request information and converts the request information into a binary form;

s62: the database matches and checks each digit in the binary information with the data information stored in the database;

s63: after the matching check is passed, searching the database for the binary number of the structured report with the binary information;

s64: the database finds the address number stored in the database according to the searched binary number of the structured report, copies and takes out the stored content, and decrypts the content.

8. The method for designing structured report of prostate MR cancer according to claim 1, wherein step S7 includes the following steps:

s71: the database packs all the searched structural report information which the user wants to inquire together and sends the report information to the user;

s72: the data information transmitted to the user is displayed on the right side of the user interface in the order of time of registration.

Images