CN117198450A - Processing method and system for electronic medical record - Google Patents

Abstract

The invention provides a processing method and a processing system for electronic medical records, which are used for acquiring electronic medical record books corresponding to a patient end and generating a case structure tree according to the electronic medical record books; receiving a case viewing request input by a doctor end to a patient end, receiving first click information of the doctor end to a diagnosis node, and calling individual case information based on the first click information and sending the individual case information to the doctor end for display; receiving second click information of a doctor terminal on a type node, acquiring the doctor record information of the corresponding page number based on the second click information as doctor information to be processed, and performing page blank removing processing on each piece of doctor information to be processed according to a blank removing strategy to obtain a plurality of doctor display information; acquiring the display quantity of the diagnosis display information, generating a plurality of vertical display slots according to the display quantity, filling each diagnosis display information into the corresponding vertical display slots according to the fusion display strategy, and sending the obtained comprehensive case information to a doctor terminal.

Description

Processing method and system for electronic medical record

Technical Field

The present invention relates to data analysis technologies, and in particular, to a method and a system for processing an electronic medical record.

Background

The medical record book is used as one kind of medical text data, is a record of a patient in the treatment, is evidence for diagnosis and treatment of doctors and preventive measures, is important reference data for retreatment of the patients, is legal evidence for treatment of medical disputes, and is important for doctors or patients.

In the prior art, a case book is usually a paper handwritten case record purchased by a patient when the patient goes to a hospital for medical treatment for the first time, the case book is easy to lose on one hand, on the other hand, a great deal of time is spent for looking up when a doctor looks up case information, and in the case that the patient has a plurality of case records, the information of the medical treatment case required by the treatment cannot be found out rapidly and pertinently.

Therefore, how to automatically screen and display the related case information in the medical record book according to the checking requirement of the doctor provides corresponding reference for the doctor during treatment becomes a problem to be solved urgently.

Disclosure of Invention

The embodiment of the invention provides a processing method and a processing system for electronic medical records, which can automatically screen out the related case information in the medical record book for display by combining with the checking requirement of doctors, and provide corresponding references for the doctors during treatment.

In a first aspect of an embodiment of the present invention, a method for processing an electronic medical record is provided, including:

acquiring an electronic medical record corresponding to a patient end, and generating a case structure tree according to the electronic medical record, wherein the case structure tree comprises patient nodes, a plurality of type nodes and a plurality of diagnosis nodes corresponding to the type nodes, and each diagnosis node corresponds to the number of pages of corresponding diagnosis record information in the electronic medical record;

Receiving a case viewing request input by a doctor terminal to the patient terminal, calling a case structure tree corresponding to the patient terminal, sending the case structure tree to the doctor terminal for display, receiving first click information of the doctor terminal to the diagnosis node, calling individual case information based on the first click information, and sending the individual case information to the doctor terminal for display;

receiving second click information of the doctor terminal on the type node, acquiring the doctor-seeing record information of the corresponding page number based on the second click information as doctor-seeing information to be processed, and carrying out page-leaving and white-removing processing on each piece of doctor-seeing information to be processed according to a white-leaving and white-removing strategy to obtain a plurality of doctor-seeing display information;

the display quantity of the diagnosis display information is obtained, a plurality of vertical display slots are generated according to the display quantity, the diagnosis display information is filled into the corresponding vertical display slots according to a fusion display strategy, and comprehensive case information is obtained and sent to the doctor terminal.

Optionally, in one possible implementation manner of the first aspect, before acquiring the electronic medical record book corresponding to the patient end and generating the case structure tree according to the electronic medical record book, the method further includes:

receiving request information of a patient end to a hospital end, and constructing a corresponding sub-electronic medical record according to the request information, wherein the sub-electronic medical record comprises a plurality of pieces of treatment record information;

And carrying out fusion processing on each piece of treatment record information according to the treatment time of each piece of treatment record information in each piece of sub-electronic medical record book, so as to obtain the electronic medical record book corresponding to the patient end.

Optionally, in one possible implementation manner of the first aspect, an electronic medical record book corresponding to a patient end is obtained, and a case structure tree is generated according to the electronic medical record book, where the case structure tree includes a patient node, a plurality of type nodes, and a plurality of treatment nodes corresponding to the type nodes, and the method includes:

generating patient nodes corresponding to the patient end and the diagnosis nodes corresponding to the diagnosis record information, and adding the page numbers corresponding to the corresponding diagnosis record information for the diagnosis nodes;

acquiring a diagnosis type corresponding to each diagnosis record information in the electronic medical record book, and generating a plurality of type nodes according to the diagnosis type;

connecting a plurality of the type nodes with the patient node, and connecting each of the visit nodes with the corresponding type node to generate the case structure tree.

Optionally, in one possible implementation manner of the first aspect, receiving a case viewing request input by a doctor side to the patient side, calling a case structure tree corresponding to the patient side, sending the case structure tree to the doctor side for display, receiving first click information of the doctor side to the doctor node, calling individual case information based on the first click information, sending the individual case information to the doctor side for display, and including:

Responding to the case viewing request, and calling a case structure tree corresponding to the patient end to be sent to a doctor end for display;

receiving first click information of any one of the diagnosis nodes in the case structure tree by the doctor side, and acquiring the page number corresponding to the diagnosis node as a target page number according to the first click information;

and acquiring corresponding treatment record information in the electronic medical record book according to the target page number, and sending the information to the doctor terminal as independent case information for display.

Optionally, in one possible implementation manner of the first aspect, receiving second click information of the doctor end on the type node, acquiring, based on the second click information, diagnosis record information of a corresponding number of pages as diagnosis information to be processed, and performing, according to a white-out policy, page white-out processing on each piece of diagnosis information to be processed to obtain diagnosis display information, where the step includes:

receiving second click information of the doctor end on the type node, acquiring all the diagnosis nodes corresponding to the type node as target nodes based on the second click information, and acquiring diagnosis record information corresponding to the target nodes as to-be-processed diagnosis information;

Analyzing the to-be-processed treatment information to obtain a to-be-processed treatment image, extracting a plurality of characters in the to-be-processed treatment image, carrying out coordinated processing on the to-be-processed treatment image, and obtaining a plurality of character sets positioned in the same row according to the coordinate information of each character;

acquiring a text region corresponding to each text set based on set coordinate information corresponding to each text set, and adding a corresponding region number for each text region according to the set coordinate information;

intercepting a plurality of text areas in the to-be-processed diagnosis image, sequentially splicing the text areas from top to bottom according to the sequence of the area numbers to obtain a diagnosis display image, and obtaining diagnosis display information according to the diagnosis display image.

Optionally, in one possible implementation manner of the first aspect, analyzing the to-be-processed diagnosis information to obtain a to-be-processed diagnosis image, extracting a plurality of characters in the to-be-processed diagnosis image, performing coordinated processing on the to-be-processed diagnosis image, and obtaining a plurality of character sets located in the same row according to coordinate information of each character, where the method includes:

Analyzing the coordinate information to obtain character coordinates of the corresponding characters, and acquiring y-axis coordinate values of the corresponding characters based on the character coordinates;

and acquiring characters with the same y-axis coordinate value and the same number of which is greater than or equal to the preset number as a character set of the same row.

Optionally, in one possible implementation manner of the first aspect, acquiring a text region corresponding to each text set based on set coordinate information corresponding to each text set, and adding a corresponding region number to each text region according to the set coordinate information, including:

obtaining a maximum y-axis coordinate value and a minimum y-axis coordinate value of each text set, generating a maximum datum line according to the maximum y-axis coordinate value, and generating a minimum datum line according to the minimum y-axis coordinate value;

generating a maximum dividing line parallel to the maximum datum line according to the upward deviation direction and the preset distance, and generating a minimum dividing line parallel to the minimum datum line according to the downward deviation direction and the preset distance;

intercepting corresponding areas in the to-be-processed treatment image according to the maximum dividing line and the minimum dividing line to obtain text areas corresponding to the corresponding text sets;

And arranging the text areas in sequence from large to small according to the maximum y-axis coordinate value to obtain a text area sequence, and adding corresponding area numbers for the text areas in the text area sequence from small to large.

Optionally, in one possible implementation manner of the first aspect, the acquiring a display number of the visit display information, generating a plurality of vertical display slots according to the display number, filling each visit display information into a corresponding vertical display slot according to a fusion display policy, so as to obtain comprehensive case information, and sending the comprehensive case information to the doctor side, where the method includes:

acquiring the display quantity of the visit display information, generating a plurality of vertical display slots according to the display quantity, and generating a plurality of pages of display interfaces according to the vertical display slots, wherein each page of display interface is provided with a preset number of vertical display slots;

acquiring the diagnosis time of each diagnosis display image, and sequentially arranging the diagnosis display images from near to far according to the diagnosis time to obtain a display image sequence;

arranging a plurality of vertical display slots in each display interface according to a time display direction to obtain a display slot sequence corresponding to each display interface, wherein the time display direction is perpendicular to the vertical direction;

Filling each diagnosis-making display image into the corresponding display slot according to the display slot sequence and the display image sequence, obtaining comprehensive case information and sending the comprehensive case information to the doctor terminal.

Optionally, in one possible implementation manner of the first aspect, filling each of the diagnosis presentation images into the corresponding presentation slot according to the presentation slot sequence and the presentation image sequence, to obtain comprehensive case information, and sending the comprehensive case information to the physician side, including:

the method comprises the steps of obtaining a vertical display slot position positioned at the first position in the display slot position sequence as a target slot position, and taking a diagnosis display image positioned at the first position in the display image sequence as a target display image;

filling the target display image into the target slot, acquiring the residual slot height of the target slot, and deleting the target display image in the display image sequence;

continuously acquiring a first diagnosis display image in the display image sequence as a target display image, acquiring the display image height of the target display image, and continuously filling the target display image into the target slot position if the display image height is smaller than or equal to the residual slot position height;

If the display image height is larger than the residual slot position height, deleting a target slot position in the display slot position sequence, continuously acquiring a vertical display slot position positioned at the first position in the display slot position sequence as a target slot position, and filling the target display image into the target slot position;

repeating the steps until all the diagnosis display images are filled, deleting redundant vertical display slots, generating a multi-page comprehensive display interface according to the target slots and the target display images, generating comprehensive case information according to the comprehensive display interface, and sending the comprehensive case information to the doctor terminal.

In a second aspect of the embodiment of the present invention, a processing system for an electronic medical record is provided, including:

the node module is used for acquiring an electronic medical record corresponding to a patient end, generating a case structure tree according to the electronic medical record, wherein the case structure tree comprises patient nodes, a plurality of type nodes and a plurality of diagnosis nodes corresponding to the type nodes, and each diagnosis node corresponds to the number of pages of corresponding diagnosis record information in the electronic medical record;

the independent module is used for receiving a case viewing request input by a doctor terminal to the patient terminal, calling a case structure tree corresponding to the patient terminal, sending the case structure tree to the doctor terminal for display, receiving first click information of the doctor terminal to the doctor node, calling independent case information based on the first click information, and sending the single case information to the doctor terminal for display;

The display module is used for receiving second click information of the type node by the doctor terminal, acquiring the doctor-seeing record information with corresponding page numbers based on the second click information as doctor-seeing information to be processed, and carrying out page white removal processing on each doctor-seeing information to be processed according to a white removal strategy to obtain a plurality of doctor-seeing display information;

the comprehensive module is used for acquiring the display quantity of the diagnosis display information, generating a plurality of vertical display slots according to the display quantity, filling each diagnosis display information into the corresponding vertical display slot according to a fusion display strategy, obtaining comprehensive case information and sending the comprehensive case information to the doctor terminal.

The beneficial effects of the invention are as follows:

1. the invention can automatically screen the relevant case information in the medical record book for display by combining with the checking requirement of doctors, and provides corresponding references for the doctors in treatment. According to the invention, firstly, a case structure tree corresponding to the patient end is generated according to the electronic medical record book at the patient end, so that a plurality of diagnosis record information in the electronic case book can be combed according to the case structure tree. And then, according to the checking request of the doctor terminal, the invention acquires different click information of different nodes in the case structure tree by the doctor terminal, generates different case information through the different click information, and sends the different case information to the doctor terminal for checking, thereby displaying the different case information for the doctor terminal in combination with the checking requirement of the doctor terminal. When the doctor clicks the doctor, the invention can call the doctor record information corresponding to the doctor solely to check, when the doctor clicks the type node, the invention can call the comprehensive case information corresponding to the type node to check, thus the invention can quickly match the corresponding case information to check by combining the requirement of the doctor, and improve the efficiency of checking cases by the doctor.

2. When the electronic medical record book corresponding to the patient end is generated, the invention gathers the treatment record information of the patient end at a plurality of hospital ends according to the time sequence, so that the data checked by the doctor end when the case data of the patient end is checked according to the electronic medical record book can be more comprehensive. When the case structure tree corresponding to the patient end is generated according to the electronic case book, the page number of the corresponding diagnosis record information in the electronic case book is added for each diagnosis node, so that the diagnosis record information corresponding to each diagnosis node can be quickly locked, the time for searching the diagnosis record information is reduced, and the efficiency of data processing is improved.

3. According to the invention, when the treatment record information is comprehensively displayed, the page blank part in the treatment record information is removed, so that more case information can be summarized during display. When the page blank part in the diagnosis record information is removed, the text area of the corresponding page in the diagnosis record information is firstly extracted, then the text area is spliced to obtain the diagnosis display information, and the diagnosis display information is displayed according to the time sequence and a plurality of vertical display slots, so that the plurality of diagnosis display information can be displayed simultaneously through the vertical display slots, the display space occupied by the page blank part can be removed during display, and more case information is displayed in a summarizing way.

Drawings

FIG. 1 is a schematic diagram of a case structure tree provided by an embodiment of the present application;

fig. 2 is a schematic structural diagram of a processing system for electronic medical records according to an embodiment of the present application.

Description of the embodiments

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present application more apparent, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application, and it is apparent that the described embodiments are only some embodiments of the present application, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

The execution body of the present application may include, but is not limited to, at least one of: user equipment, network equipment, etc. The user equipment may include, but is not limited to, computers, smart phones, personal digital assistants (Personal Digital Assistant, abbreviated as PDA), and the above-mentioned electronic devices. The network device may include, but is not limited to, a single network server, a server group of multiple network servers, or a cloud of a large number of computers or network servers based on cloud computing, where cloud computing is one of distributed computing, and a super virtual computer consisting of a group of loosely coupled computers. This embodiment is not limited thereto. The method comprises the steps S1 to S4, and specifically comprises the following steps:

S1, acquiring an electronic medical record book corresponding to a patient end, and generating a case structure tree according to the electronic medical record book, wherein the case structure tree comprises patient nodes, a plurality of type nodes and a plurality of diagnosis nodes corresponding to the type nodes, and each diagnosis node corresponds to the number of pages of corresponding diagnosis record information in the electronic medical record book.

In practical application, a doctor usually views the past case situation through the case book of the patient when viewing the condition of the patient, but a plurality of diagnosis information of different types may exist in the case book, so that in order to quickly determine the corresponding diagnosis information by combining the viewing requirement of the doctor, the embodiment generates a corresponding case structure tree according to the electronic case book of the patient end, and then quickly determines the corresponding case information through the case structure tree and sends the corresponding case information to the doctor end for viewing.

In some embodiments, the electronic medical record of the patient side may be obtained by the following steps:

step 1, receiving request information of a patient end to a hospital end, and constructing a corresponding sub-electronic medical record according to the request information, wherein the sub-electronic medical record comprises multiple pages of treatment record information.

It can be understood that in practical application, the patient end may go to a plurality of hospital ends to make a doctor, so when the scheme generates the electronic medical record book corresponding to the patient end, the sub-electronic medical record book corresponding to each hospital end is constructed first, and then the plurality of sub-electronic medical record books are fused to obtain the electronic medical record book.

And 2, carrying out fusion processing on each piece of diagnosis record information according to the diagnosis time of each piece of diagnosis record information in each piece of sub-electronic medical record book, and obtaining the electronic medical record book corresponding to the patient end.

When the sub-electronic medical records are fused, the sub-electronic medical records are fused according to the time of each piece of diagnosis record information, the diagnosis record information with the shorter diagnosis time is arranged at the position with the newer page number, namely the position with the later page number, and the diagnosis record information with the longer diagnosis time is arranged at the position with the earlier page number. It will be appreciated that the fusion may be performed from far to near in order of time of the visit, and that when multiple visit records have the same time of visit, a random ordering may be performed between the multiple visit records.

By the method, the plurality of the doctor-seeing record information at the patient end can be fused, so that the corresponding doctor-seeing record information can be displayed correspondingly according to the checking requirement of a doctor.

Specifically, the specific implementation manner of step S1 based on the above embodiment may be:

s11, generating patient nodes corresponding to the patient end and the diagnosis nodes corresponding to the diagnosis record information, and adding the page numbers corresponding to the corresponding diagnosis record information for the diagnosis nodes.

It can be understood that the addition of the number of pages corresponding to the corresponding treatment record information for each treatment node is to quickly lock the treatment record information corresponding to the treatment node through the number of pages for displaying to the doctor end, so as to provide corresponding reference for the doctor during treatment.

S12, acquiring the diagnosis type corresponding to each diagnosis record information in the electronic medical record book, and generating a plurality of type nodes according to the diagnosis type.

Patients typically have their corresponding visit type at the time of a visit, from which a plurality of corresponding type nodes can be generated.

S13, connecting a plurality of type nodes with the patient node, and connecting each treatment node with the corresponding type node to generate the case structure tree.

Referring to fig. 1, a schematic diagram of a case structure tree provided in an embodiment of the present invention may connect a diagnosis node with a type node, and then connect a plurality of type nodes with patient nodes when the diagnosis node is connected with the type node, so as to generate a case structure tree corresponding to a corresponding patient end.

Through the mode, the plurality of diagnosis record information in the electronic medical record corresponding to the patient side can be combed through the case structure tree.

S2, receiving a case viewing request input by a doctor terminal to the patient terminal, calling a case structure tree corresponding to the patient terminal, sending the case structure tree to the doctor terminal for display, receiving first click information of the doctor terminal to the treatment node, calling individual case information based on the first click information, and sending the individual case information to the doctor terminal for display.

After receiving a case viewing request input by a doctor terminal to a patient terminal, the scheme can call a case structure tree of the patient terminal to be sent to the doctor terminal for display, and can generate different case display information according to different click information of the doctor terminal to be sent to the doctor terminal for display.

Specifically, the specific implementation manner of step S2 may be:

s21, responding to the case viewing request, calling the case structure tree corresponding to the patient end, and sending the case structure tree to the doctor end for display.

S22, receiving first click information of any one of the diagnosis nodes in the case structure tree by the doctor side, and acquiring the page number corresponding to the diagnosis node as a target page number according to the first click information.

It can be understood that each of the doctor nodes has the corresponding doctor record information, so after the doctor terminal clicks the doctor terminal, the number of pages corresponding to the corresponding doctor node can be obtained as the target number of pages, and the corresponding doctor record information can be obtained subsequently according to the target number of pages and sent to the doctor terminal for display.

S23, acquiring corresponding treatment record information in the electronic medical record according to the target page number, and sending the information to the doctor side as independent case information for display.

By the mode, corresponding diagnosis record information can be quickly fetched according to the click information of the doctor terminal on the single diagnosis node and sent to the doctor terminal for checking, and the efficiency of the doctor terminal for checking the case data is improved.

S3, receiving second click information of the doctor terminal on the type node, acquiring the doctor-seeing record information with corresponding page numbers based on the second click information to serve as doctor-seeing information to be processed, and carrying out page-leaving and white-removing processing on each piece of doctor-seeing information to be processed according to a white-leaving and white-removing strategy to obtain a plurality of doctor-seeing display information.

It can be understood that the type node may correspond to a plurality of treatment nodes, and each treatment node has treatment record information corresponding to the treatment node, so in order to comprehensively display case information corresponding to the type node, the scheme may firstly acquire treatment record information with corresponding page number to perform page blank removing processing, and then comprehensively display the obtained treatment display information to a doctor terminal.

Specifically, the specific implementation manner of step S3 may be:

S31, receiving second click information of the doctor end on the type node, acquiring all the diagnosis nodes corresponding to the type node as target nodes based on the second click information, and acquiring diagnosis record information corresponding to the target nodes as to-be-processed diagnosis information.

When the received click information is the second click information of the type node, all the visit nodes below the type node can be acquired as target nodes, so that further processing can be performed on the visit record information corresponding to the target nodes.

S32, analyzing the to-be-processed treatment information to obtain a to-be-processed treatment image, extracting a plurality of characters in the to-be-processed treatment image, carrying out coordinated processing on the to-be-processed treatment image, and obtaining a plurality of character sets positioned in the same row according to the coordinate information of each character.

It can be understood that in practical application, the case record page needs a doctor to carry out handwriting information, and when the doctor carries out handwriting, a plurality of blank parts exist among a plurality of rows, and when the multi-page case record page is displayed, a large amount of display space can be occupied if all blank parts are correspondingly displayed, so that the display amount of the case information in the interface is reduced, and therefore, when a plurality of doctor-seeing record information are displayed, the blank parts in the page can be removed, and more case information can be summarized in the display interface.

Specifically, the method can obtain the to-be-processed treatment image corresponding to the case record page, then extract the characters in the image, and extract the characters in the same row to obtain a character set, so that the region where the characters are located can be extracted according to the character set in the subsequent region where the characters are located, and the blank region in the page can be removed through the extracted character region.

In some embodiments, the above text set may be obtained by:

s321, analyzing the coordinate information to obtain the character coordinates of the corresponding characters, and acquiring the y-axis coordinate values of the corresponding characters based on the character coordinates.

In practical application, characters in the to-be-processed treatment image can be extracted through a character extraction technology in the prior art, and then a plurality of character coordinates corresponding to each character in the coordinated to-be-processed treatment image are obtained.

S322, acquiring characters with the same y-axis coordinate value and the same number of the y-axis coordinate values being greater than or equal to the preset number as a character set of the same row.

It will be appreciated that if the y-axis coordinate values of the plurality of characters are the same and the same number of y-axis coordinate values is equal to or greater than the preset number, it is highly likely that the corresponding characters are aligned in the lateral direction, and the corresponding characters are located in the same row, so that the corresponding characters can be used as the character set in the same row.

S33, acquiring text areas corresponding to the text sets based on the set coordinate information corresponding to the text sets, and adding corresponding area numbers for the text areas according to the set coordinate information.

In some embodiments, the text regions may be obtained by the following steps, and adding corresponding region numbers to each text region according to the set coordinate information:

s331, obtaining a maximum y-axis coordinate value and a minimum y-axis coordinate value of each character set, generating a maximum datum line according to the maximum y-axis coordinate value, and generating a minimum datum line according to the minimum y-axis coordinate value.

Wherein all y-axis coordinate values on the maximum reference line are equal to the maximum y-axis coordinate value, and all y-axis coordinate values on the minimum reference line are equal to the minimum y-axis coordinate value, which are two reference lines parallel to the x-axis.

And S332, generating a maximum dividing line parallel to the maximum datum line according to the upward deviation direction and the preset distance, and generating a minimum dividing line parallel to the minimum datum line according to the downward deviation direction and the preset distance.

It can be understood that a section of offset area is reserved upwards and downwards when the text area is divided, so that the text can be located at the middle position of the area, and therefore, after the maximum datum line and the minimum datum line are obtained, the maximum dividing line parallel to the maximum datum line is generated according to the upward offset direction and the preset distance, the minimum dividing line parallel to the minimum datum line is generated according to the downward offset direction and the preset distance, and the corresponding text area can be intercepted according to the maximum dividing line and the minimum dividing line.

S333, intercepting the corresponding area in the to-be-processed diagnosis image according to the maximum dividing line and the minimum dividing line to obtain the text area corresponding to the text set.

By the method, the text area is intercepted, and the blank area except the text area can be removed, so that the display space occupied by the blank part during display can be reduced.

S334, arranging the text areas in sequence from large to small according to the maximum y-axis coordinate value to obtain a text area sequence, and adding corresponding area numbers for the text areas in the text area sequence from small to large.

When the text regions are numbered, the text regions can be arranged firstly through the maximum y-axis coordinate value, and then the corresponding region numbers are added to the arranged text regions, so that the text regions can be spliced correspondingly through the region numbers later. It will be appreciated that the larger the maximum y-axis coordinate value, the closer the region position of the corresponding text region is to the upper half of the image, and thus may be arranged further forward, with the text regions being ordered from top to bottom according to the concept.

S34, intercepting a plurality of text areas in the to-be-processed diagnosis image, sequentially splicing the text areas from top to bottom according to the sequence of the area numbers to obtain a diagnosis display image, and obtaining diagnosis display information according to the diagnosis display image.

The sequence of the area numbers refers to the sequence from small to large, and by the mode, the page blank part in the doctor-seeing record information can be removed, so that more doctor-seeing information can be summarized.

S4, acquiring the display quantity of the diagnosis display information, generating a plurality of vertical display slots according to the display quantity, filling each diagnosis display information into the corresponding vertical display slot according to a fusion display strategy, and sending the obtained comprehensive case information to the doctor terminal.

When fusion display is carried out on a plurality of pieces of diagnosis display information, the scheme can firstly generate a plurality of vertical display slots according to the display quantity, and the plurality of pieces of diagnosis display information are fused through the vertical display slots, so that comprehensive case information is obtained and sent to a doctor terminal for display.

It can be understood that the vertical display slot is generated because the vertical display slot can be generated to fuse and display the information when the information is displayed for the doctor due to the fact that the text regions are spliced in the vertical direction when the page is removed.

The specific implementation manner of step S4 based on the above embodiment may be:

s41, acquiring the display quantity of the information displayed in the doctor-seeing way, generating a plurality of vertical display slots according to the display quantity, and generating a multi-page display interface according to the vertical display slots, wherein each page of display interface is provided with a preset quantity of vertical display slots.

In practical application, the width of the vertical display slot can correspond to the page width of the display information for doctor-seeing, and it can be understood that when the display information for doctor-seeing is too much, one page of display interface can not put down all the display information for doctor-seeing, so that multiple pages of display interfaces can be generated, and each page of display interface has a preset number of vertical display slots.

S42, acquiring the diagnosis time of each diagnosis display image, and sequentially arranging the diagnosis display images from near to far according to the diagnosis time to obtain a display image sequence.

It will be appreciated that when viewing the case information of the patient, the physician will generally choose to view the case information with a relatively close date, so that when displaying a plurality of presentation images for a doctor, the presentation images for each doctor may be arranged from near to far according to the doctor time, and then displayed in time sequence according to the sequence of presentation images.

S43, arranging a plurality of vertical display slots in each display interface according to a time display direction to obtain a display slot sequence corresponding to each display interface, wherein the time display direction is perpendicular to the vertical direction.

It can be understood that, because the display images for each doctor are arranged according to the time sequence, in order to display the display images for each doctor according to the time sequence according to the vertical display slot, the vertical display slot also needs to be arranged according to the time display direction, so that the display images for each doctor can be displayed according to the obtained display slot sequence and display image sequence according to the time sequence.

S44, filling each diagnosis-making display image into the corresponding display slot according to the display slot sequence and the display image sequence, obtaining comprehensive case information and sending the comprehensive case information to the doctor terminal.

Step S44 includes steps S441 to S445, and is specifically as follows:

s441, a vertical display slot position located at the first position in the display slot position sequence is obtained to serve as a target slot position, and a diagnosis display image located at the first position in the display image sequence serves as a target display image.

When the diagnosis display image is displayed according to the vertical display slot position, the vertical display slot position positioned at the first position in the display slot position sequence is firstly obtained to serve as a target slot position, the diagnosis display image positioned at the first position in the display image sequence is used as a target display image, and then the target display image is correspondingly displayed through the target slot position.

S442, filling the target display image into the target slot, acquiring the residual slot height of the target slot, and deleting the target display image in the display image sequence.

When the target display image is filled into the target slot, the top grid of the target display image can be filled into the target slot, so that other diagnosis display images can be continuously filled into the target slot later, and more case information can be summarized.

S443, continuously acquiring a diagnosis display image positioned at the first position in the display image sequence as a target display image, acquiring the display image height of the target display image, and continuously filling the target display image into the target slot position if the display image height is smaller than or equal to the residual slot position height.

It will be appreciated that if the display image height of the target display image is less than or equal to the remaining slot height, it is indicated that the corresponding target display image is fillable into the target slot, and thus the filling of the corresponding target display image into the target slot may continue.

And S444, if the height of the display image is larger than the height of the residual slot positions, deleting the target slot positions in the display slot position sequence, continuously acquiring the vertical display slot position positioned at the first position in the display slot position sequence as a target slot position, and filling the target display image into the target slot positions.

If the display image height of the target display image is greater than the remaining slot height, it is indicated that the corresponding target display image is not able to fill into the corresponding target slot, and thus can continue to fill into the next target slot.

S445, repeating the steps until all the diagnosis display images are filled, deleting redundant vertical display slots, generating a multi-page comprehensive display interface according to the target slots and the target display images, generating comprehensive case information according to the comprehensive display interface, and sending the comprehensive case information to the doctor terminal.

It will be appreciated that, since more than one of the target slots may be filled with a plurality of the display images in the above manner, there may be an extra vertical display slot when all of the display images have been filled, in which case the extra vertical display slot may be deleted.

Through the steps, all the diagnosis display images can be summarized through the multi-page comprehensive display interface, and through the steps, more case data can be summarized in the comprehensive display interface.

Referring to fig. 2, a schematic structural diagram of a processing system for electronic medical records according to an embodiment of the present invention includes:

the node module is used for acquiring an electronic medical record corresponding to a patient end, generating a case structure tree according to the electronic medical record, wherein the case structure tree comprises patient nodes, a plurality of type nodes and a plurality of diagnosis nodes corresponding to the type nodes, and each diagnosis node corresponds to the number of pages of corresponding diagnosis record information in the electronic medical record;

the independent module is used for receiving a case viewing request input by a doctor terminal to the patient terminal, calling a case structure tree corresponding to the patient terminal, sending the case structure tree to the doctor terminal for display, receiving first click information of the doctor terminal to the doctor node, calling independent case information based on the first click information, and sending the single case information to the doctor terminal for display;

The display module is used for receiving second click information of the type node by the doctor terminal, acquiring the doctor-seeing record information with corresponding page numbers based on the second click information as doctor-seeing information to be processed, and carrying out page white removal processing on each doctor-seeing information to be processed according to a white removal strategy to obtain a plurality of doctor-seeing display information;

the comprehensive module is used for acquiring the display quantity of the diagnosis display information, generating a plurality of vertical display slots according to the display quantity, filling each diagnosis display information into the corresponding vertical display slot according to a fusion display strategy, obtaining comprehensive case information and sending the comprehensive case information to the doctor terminal.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and not for limiting the same; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the invention.

Claims (10)

1. A method for processing an electronic medical record, comprising:

acquiring an electronic medical record corresponding to a patient end, and generating a case structure tree according to the electronic medical record, wherein the case structure tree comprises patient nodes, a plurality of type nodes and a plurality of diagnosis nodes corresponding to the type nodes, and each diagnosis node corresponds to the number of pages of corresponding diagnosis record information in the electronic medical record;

receiving a case viewing request input by a doctor terminal to the patient terminal, calling a case structure tree corresponding to the patient terminal, sending the case structure tree to the doctor terminal for display, receiving first click information of the doctor terminal to the diagnosis node, calling individual case information based on the first click information, and sending the individual case information to the doctor terminal for display;

receiving second click information of the doctor terminal on the type node, acquiring the doctor-seeing record information of the corresponding page number based on the second click information as doctor-seeing information to be processed, and carrying out page-leaving and white-removing processing on each piece of doctor-seeing information to be processed according to a white-leaving and white-removing strategy to obtain a plurality of doctor-seeing display information;

the display quantity of the diagnosis display information is obtained, a plurality of vertical display slots are generated according to the display quantity, the diagnosis display information is filled into the corresponding vertical display slots according to a fusion display strategy, and comprehensive case information is obtained and sent to the doctor terminal.

2. The method of claim 1, wherein the step of determining the position of the substrate comprises,

before acquiring the electronic medical record corresponding to the patient end and generating the case structure tree according to the electronic medical record, the method further comprises the following steps:

receiving request information of a patient end to a hospital end, and constructing a corresponding sub-electronic medical record according to the request information, wherein the sub-electronic medical record comprises a plurality of pieces of treatment record information;

and carrying out fusion processing on each piece of treatment record information according to the treatment time of each piece of treatment record information in each piece of sub-electronic medical record book, so as to obtain the electronic medical record book corresponding to the patient end.

3. A method according to claim 1 or 2, characterized in that,

acquiring an electronic medical record corresponding to a patient end, and generating a case structure tree according to the electronic medical record, wherein the case structure tree comprises patient nodes, a plurality of type nodes and a plurality of treatment nodes corresponding to the type nodes, and the method comprises the following steps:

generating patient nodes corresponding to the patient end and the diagnosis nodes corresponding to the diagnosis record information, and adding the page numbers corresponding to the corresponding diagnosis record information for the diagnosis nodes;

acquiring a diagnosis type corresponding to each diagnosis record information in the electronic medical record book, and generating a plurality of type nodes according to the diagnosis type;

Connecting a plurality of the type nodes with the patient node, and connecting each of the visit nodes with the corresponding type node to generate the case structure tree.

4. The method of claim 1, wherein the step of determining the position of the substrate comprises,

receiving a case viewing request input by a doctor terminal to a patient terminal, calling a case structure tree corresponding to the patient terminal, sending the case structure tree to the doctor terminal for display, receiving first click information of the doctor terminal to the treatment node, calling individual case information based on the first click information, and sending the individual case information to the doctor terminal for display, wherein the method comprises the following steps:

responding to the case viewing request, and calling a case structure tree corresponding to the patient end to be sent to a doctor end for display;

receiving first click information of any one of the diagnosis nodes in the case structure tree by the doctor side, and acquiring the page number corresponding to the diagnosis node as a target page number according to the first click information;

and acquiring corresponding treatment record information in the electronic medical record book according to the target page number, and sending the information to the doctor terminal as independent case information for display.

5. The method of claim 1, wherein the step of determining the position of the substrate comprises,

receiving second click information of the doctor terminal on the type node, acquiring the diagnosis record information of the corresponding page number based on the second click information as the diagnosis information to be processed, and performing page whitening removal processing on each piece of diagnosis information to be processed according to a whitening removal strategy to obtain diagnosis display information, wherein the method comprises the following steps of:

Receiving second click information of the doctor end on the type node, acquiring all the diagnosis nodes corresponding to the type node as target nodes based on the second click information, and acquiring diagnosis record information corresponding to the target nodes as to-be-processed diagnosis information;

analyzing the to-be-processed treatment information to obtain a to-be-processed treatment image, extracting a plurality of characters in the to-be-processed treatment image, carrying out coordinated processing on the to-be-processed treatment image, and obtaining a plurality of character sets positioned in the same row according to the coordinate information of each character;

acquiring a text region corresponding to each text set based on set coordinate information corresponding to each text set, and adding a corresponding region number for each text region according to the set coordinate information;

intercepting a plurality of text areas in the to-be-processed diagnosis image, sequentially splicing the text areas from top to bottom according to the sequence of the area numbers to obtain a diagnosis display image, and obtaining diagnosis display information according to the diagnosis display image.

6. The method of claim 5, wherein the step of determining the position of the probe is performed,

analyzing the to-be-processed treatment information to obtain a to-be-processed treatment image, extracting a plurality of characters in the to-be-processed treatment image, carrying out coordinate processing on the to-be-processed treatment image, and obtaining a plurality of character sets positioned in the same row according to the coordinate information of each character, wherein the method comprises the following steps:

Analyzing the coordinate information to obtain character coordinates of the corresponding characters, and acquiring y-axis coordinate values of the corresponding characters based on the character coordinates;

and acquiring characters with the same y-axis coordinate value and the same number of which is greater than or equal to the preset number as a character set of the same row.

7. The method of claim 6, wherein the step of providing the first layer comprises,

acquiring text regions corresponding to the text sets based on the set coordinate information corresponding to the text sets, and adding corresponding region numbers for the text regions according to the set coordinate information, wherein the method comprises the following steps:

obtaining a maximum y-axis coordinate value and a minimum y-axis coordinate value of each text set, generating a maximum datum line according to the maximum y-axis coordinate value, and generating a minimum datum line according to the minimum y-axis coordinate value;

generating a maximum dividing line parallel to the maximum datum line according to the upward deviation direction and the preset distance, and generating a minimum dividing line parallel to the minimum datum line according to the downward deviation direction and the preset distance;

intercepting corresponding areas in the to-be-processed treatment image according to the maximum dividing line and the minimum dividing line to obtain text areas corresponding to the corresponding text sets;

And arranging the text areas in sequence from large to small according to the maximum y-axis coordinate value to obtain a text area sequence, and adding corresponding area numbers for the text areas in the text area sequence from small to large.

8. The method of claim 7, wherein the step of determining the position of the probe is performed,

acquiring the display quantity of the diagnosis display information, generating a plurality of vertical display slots according to the display quantity, filling each diagnosis display information into the corresponding vertical display slot according to a fusion display strategy, obtaining comprehensive case information, and sending the comprehensive case information to the doctor side, wherein the method comprises the following steps of:

acquiring the display quantity of the visit display information, generating a plurality of vertical display slots according to the display quantity, and generating a plurality of pages of display interfaces according to the vertical display slots, wherein each page of display interface is provided with a preset number of vertical display slots;

acquiring the diagnosis time of each diagnosis display image, and sequentially arranging the diagnosis display images from near to far according to the diagnosis time to obtain a display image sequence;

arranging a plurality of vertical display slots in each display interface according to a time display direction to obtain a display slot sequence corresponding to each display interface, wherein the time display direction is perpendicular to the vertical direction;

Filling each diagnosis-making display image into the corresponding display slot according to the display slot sequence and the display image sequence, obtaining comprehensive case information and sending the comprehensive case information to the doctor terminal.

9. The method of claim 8, wherein the step of determining the position of the first electrode is performed,

filling each diagnosis-making display image into a corresponding display slot according to the display slot sequence and the display image sequence to obtain comprehensive case information, and sending the comprehensive case information to the doctor side, wherein the method comprises the following steps:

the method comprises the steps of obtaining a vertical display slot position positioned at the first position in the display slot position sequence as a target slot position, and taking a diagnosis display image positioned at the first position in the display image sequence as a target display image;

filling the target display image into the target slot, acquiring the residual slot height of the target slot, and deleting the target display image in the display image sequence;

continuously acquiring a first diagnosis display image in the display image sequence as a target display image, acquiring the display image height of the target display image, and continuously filling the target display image into the target slot position if the display image height is smaller than or equal to the residual slot position height;

If the display image height is larger than the residual slot position height, deleting a target slot position in the display slot position sequence, continuously acquiring a vertical display slot position positioned at the first position in the display slot position sequence as a target slot position, and filling the target display image into the target slot position;

repeating the steps until all the diagnosis display images are filled, deleting redundant vertical display slots, generating a multi-page comprehensive display interface according to the target slots and the target display images, generating comprehensive case information according to the comprehensive display interface, and sending the comprehensive case information to the doctor terminal.

10. A system for processing an electronic medical record, comprising:

the node module is used for acquiring an electronic medical record corresponding to a patient end, generating a case structure tree according to the electronic medical record, wherein the case structure tree comprises patient nodes, a plurality of type nodes and a plurality of diagnosis nodes corresponding to the type nodes, and each diagnosis node corresponds to the number of pages of corresponding diagnosis record information in the electronic medical record;

the independent module is used for receiving a case viewing request input by a doctor terminal to the patient terminal, calling a case structure tree corresponding to the patient terminal, sending the case structure tree to the doctor terminal for display, receiving first click information of the doctor terminal to the doctor node, calling independent case information based on the first click information, and sending the single case information to the doctor terminal for display;

The display module is used for receiving second click information of the type node by the doctor terminal, acquiring the doctor-seeing record information with corresponding page numbers based on the second click information as doctor-seeing information to be processed, and carrying out page white removal processing on each doctor-seeing information to be processed according to a white removal strategy to obtain a plurality of doctor-seeing display information;

the comprehensive module is used for acquiring the display quantity of the diagnosis display information, generating a plurality of vertical display slots according to the display quantity, filling each diagnosis display information into the corresponding vertical display slot according to a fusion display strategy, obtaining comprehensive case information and sending the comprehensive case information to the doctor terminal.