WO2020204140A1 - Medial information processing device and medical information processing method - Google Patents

Abstract

A medical information processing device according to an embodiment of the present invention comprises a first extraction unit (152), a second extraction unit (153), a determination unit (154), and a display control unit (155). The first extraction unit (152) extracts first data representing the medical care contents from medical care data in which medical care contents of a subject are described. The second extraction unit (153) extracts inspection data including second data representing the inspection results related to the first data from one or a plurality of inspection data in which inspection results of the subject are described. The determination unit (154) compares items included in the first data with items included in the second data and determines correspondence relation between the respective items. The display control unit (155) displays the medical care data and the extracted inspection data on the same display, and distinguishably displays the items determined to establish correspondence relation therebetween.

Description

Medical information processing device and medical information processing method

An embodiment of the present invention relates to a medical information processing device and a medical information processing method.

Conventionally, there are various types of medical data used in the medical field, such as examination data such as physiological examination data and image data, and medical data such as electronic medical records. Medical professionals such as doctors treat a subject (for example, a patient) by comprehensively looking at the medical data. For example, a medical professional describes (records) the contents of medical treatment performed on a subject in the medical data based on the contents of the test data in which the test results are recorded.

In addition, when a medical professional records medical treatment details such as the name of a disease, a method is known in which the test results that lead to the medical treatment details can be registered so that it is possible to grasp which test result was used as the basis. There is. However, the operation of registering the test result as the basis every time the medical treatment contents are recorded is troublesome and lacks convenience. In addition, if the test results are not registered when recording the medical treatment contents, it is difficult to identify the test results that are the basis.

Japanese Unexamined Patent Publication No. 2012-155458

The problem to be solved by the present invention is to make it possible to easily grasp the correspondence relationship between the medical treatment content described in the medical treatment data and the test result which is the basis of the medical treatment content.

The medical information processing device according to the embodiment includes a first extraction unit, a second extraction unit, a determination unit, and a display control unit. The first extraction unit extracts the first data representing the medical treatment content from the medical treatment data in which the medical treatment content of the subject is described. The second extraction unit selects test data including the second data representing the test result related to the first data from one or more test data in which the test result of the subject is described. Extract. The determination unit compares the items included in the first data extracted by the first extraction unit with the items included in the second data of the inspection data extracted by the second extraction unit. , Judge the correspondence between both items. The display control unit displays the medical data and the inspection data extracted by the second extraction unit on the same screen, and displays items that are determined by the determination unit to have a correspondence relationship so that they can be identified. Let me.

FIG. 1 is a diagram showing an example of a configuration of a medical information system according to an embodiment. FIG. 2 is a diagram showing an example of the configuration of the medical information processing device according to the embodiment. FIG. 3 is a diagram for explaining a method of generating a model related to the first extraction function and the second extraction function of the embodiment. FIG. 4 is a diagram showing an example of the data structure of the inspection result DB according to the embodiment. FIG. 5 is a diagram for explaining an example of the operation of the first extraction function and the second extraction function according to the embodiment. FIG. 6 is a diagram showing an example of a screen displayed by the display control function of the embodiment. FIG. 7 is a diagram showing an example of a screen displayed by the display control function of the embodiment. FIG. 8 is a diagram showing an example of a screen displayed by the display control function of the embodiment. FIG. 9 is a diagram showing an example of a screen displayed by the display control function of the embodiment. FIG. 10 is a diagram showing an example of a screen displayed by the display control function of the embodiment. FIG. 11 is a diagram showing an example of a screen displayed by the display control function of the embodiment. FIG. 12 is a flowchart showing an example of processing executed by the medical information processing apparatus of the embodiment. FIG. 13 is a diagram showing an example of a screen displayed by the display control function according to the third modification of the embodiment. FIG. 14 is a diagram showing an example of a screen displayed by the display control function according to the third modification of the embodiment. FIG. 15 is a diagram showing an example of a screen displayed by the display control function according to the third modification of the embodiment.

Hereinafter, embodiments of the medical information processing apparatus and the medical information processing method will be described with reference to the drawings.

FIG. 1 is a diagram showing an example of the configuration of the medical information system according to the present embodiment. As shown in FIG. 1, the medical information system 1 includes a medical information processing device 100, a sample testing system 200, a radiation department system 300, an integrated data server 400, and the like. The medical information processing device 100, the sample test system 200, the radiation department system 300, and the integrated data server 400 are communicably connected via a network N1 such as a LAN (Local Area Network). The number of medical information processing devices 100 connected to the network N1 is not particularly limited.

The medical information processing device 100 is prepared for each medical worker such as a doctor or a department, and is used for various purposes. For example, the medical information processing device 100 is used for displaying various medical data related to a subject such as a patient. Further, the medical information processing apparatus 100 is used for creating medical data regarding the medical treatment contents performed on a subject such as a patient. The medical care data created (generated) by the medical information processing apparatus 100 is transmitted to the integrated data server 400. For example, the medical information processing apparatus 100 is realized by a computer device such as a workstation, a personal computer, or a tablet terminal.

The sample test system 200 generates sample test data related to the sample test performed on the subject and stores it in the storage circuit in the sample test system 200. Then, the sample test system 200 transmits the sample test data stored in the storage circuit to the integrated data server 400.

The radiation department system 300 stores the image data obtained by imaging the subject in the storage circuit in the radiation department system 300. In addition, the radiation department system 300 generates report data and conference data related to physiological tests and image tests performed on a subject and stores them in a storage circuit in the system. For example, the radiation department system 300 includes PACS (Picture Archiving and Communication Systems) and the like. In addition, for image inspection, inspection using CT images captured by an X-ray CT (Computed Tomography) device, inspection using MR images captured by an MRI (Magnetic Resonance Imaging) device, and ultrasonic diagnostic equipment This includes inspections using captured ultrasonic images, inspections using X-ray images taken by an X-ray diagnostic apparatus, and the like. Then, the radiation department system 300 transmits the image data, the report data, and the conference data stored in the storage circuit to the integrated data server 400.

The integrated data server 400 is a computer device such as a workstation or a server device provided with a processing circuit such as a processor, a RAM (Random Access Memory), a semiconductor memory element such as a flash memory, and a storage circuit realized by a hard disk, an optical disk, or the like. Realized by.

The integrated data server 400 collects various data from the medical information processing device 100, the sample test system 200, the radiation department system 300, etc., and stores them in the storage circuit in the server. Specifically, the storage circuit of the integrated data server 400 is an integrated DB (Data Base) 410 for storing and managing various data acquired from the medical information processing device 100, the sample testing system 200, the radiation department system 300, and the like. To hold.

For example, the integrated DB 410 includes medical care data, sample test data, physiological test data, image data, report data, conference data, and the like. The medical care data is medical care data such as an electronic medical record regarding the medical care contents of the subject acquired from the medical information processing apparatus 100. The sample test data is test data related to the sample test acquired from the sample test system 200. The physiological test data is test data related to vitals acquired from the radiation department system 300. Further, the image data, the report data and the conference data are inspection data related to the image inspection acquired from the radiation department system 300. Hereinafter, medical data, sample test data, physiological test data, image data, report data, and medical data are collectively referred to as "medical data".

Here, the medical data stored in the integrated DB 410 includes information such as medical treatment contents, information indicating the creation date and time, information for identifying the subject (patient ID), and information for identifying the creator (medical worker) (medical care). Worker ID) and the like are included. In addition to information indicating the creation date and time and patient ID, the examination data includes information such as numerical values (measured values) and images obtained by the examination, interpretation reports, information indicating the examination date and time, and the medical staff in charge of the examination. Medical worker ID and the like are included.

The integrated data server 400 not only collects medical data stored in each system such as the medical information processing device 100, the sample testing system 200, and the radiation department system 300, but also directly collects the medical data obtained in each system. It may be configured to collect. Further, the integrated data server 400 may be configured to collect medical data distributed in or outside the medical information processing apparatus 100, the sample examination system 200, and the radiation department system 300.

In the configuration of the medical information system 1 described above, the medical information processing device 100 can display the medical data managed by the integrated data server 400. For example, a medical worker (hereinafter, also referred to as a user) who operates the medical information processing apparatus 100 integrates test data of a subject and medical data created in the past for creating medical data and diagnosing a subject. It can be acquired from the data server 400 and displayed. Hereinafter, the configuration of the medical information processing device 100 will be described.

FIG. 2 is a diagram showing an example of the configuration of the medical information processing device 100. As shown in FIG. The medical information processing device 100 includes a communication interface 110, a storage circuit 120, an input interface 130, a display 140, and a processing circuit 150.

The communication interface 110 is connected to the processing circuit 150 and controls the transmission and communication of various data performed between the medical information processing device 100 and each system. Specifically, the communication interface 110 receives medical data from each system and outputs the received medical data to the processing circuit 150. For example, the communication interface 110 is realized by a network card, a network adapter, a NIC (Network Interface Controller), or the like.

The storage circuit 120 is connected to the processing circuit 150 and stores various data. Specifically, the storage circuit 120 stores medical data received from each system. Further, the storage circuit 120 stores a condition setting table and the like. For example, the storage circuit 120 is realized by a semiconductor memory element such as a RAM (Random Access Memory) or a flash memory, a hard disk, an optical disk, or the like. The storage circuit 120 is an example of a means for realizing the storage unit.

The input interface 130 is connected to the processing circuit 150 and receives various instructions and various information input operations from the operator. Specifically, the input interface 130 converts the input operation received from the operator into an electric signal and outputs it to the processing circuit 150. For example, the input interface 130 includes a trackball, a switch button, a mouse, a keyboard, a touch pad for performing input operations by touching an operation surface, a touch screen in which a display screen and a touch pad are integrated, and a non-optical sensor. It is realized by a contact input circuit, a voice input circuit, and the like. The input interface 130 is not limited to the one provided with physical operating parts such as a mouse and a keyboard. For example, an example of the input interface 130 includes an electric signal processing circuit that receives an electric signal corresponding to an input operation from an external input device provided separately from the device and outputs the electric signal to a control circuit.

The display 140 is connected to the processing circuit 150 and displays various information and various images. Specifically, the display 140 converts various information and various image data sent from the processing circuit 150 into electrical signals for display and outputs the data. For example, the display 140 is realized by a liquid crystal monitor, a CRT (Cathode Ray Tube) monitor, a touch panel, or the like.

The processing circuit 150 controls the components of the medical information processing device 100 in response to an input operation received from the operator via the input interface 130. Specifically, the processing circuit 150 stores the medical data output from the communication interface 110 in the storage circuit 120. Further, the processing circuit 150 reads medical data from the storage circuit 120 and displays it on the display 140. For example, the processing circuit 150 is realized by a processor.

In addition, the medical information processing device 100 has a function for supporting medical staff in the work of creating medical data, the work of confirming the medical contents described in the medical data, and the like. Specifically, the medical information processing apparatus 100 has a data management function 151, a first extraction function 152, a second extraction function 153, a determination function 154, and a display control function 155. The data management function 151 is an example of a data generation unit. The data management function 151 is an example of a data management unit. Further, the first extraction function 152 is an example of the first extraction unit. The second extraction function 153 is an example of the second extraction unit. The determination function 154 is an example of a determination unit. The display control function 155 is an example of a display control unit.

The data management function 151 executes various processes related to the management of medical data. For example, the data management function 151 executes a process related to the creation of new medical care data in cooperation with the display control function 155. Specifically, when the medical treatment content is input (described) via the input interface 130 or the like, the data management function 151 generates medical treatment data recording the input medical treatment content and stores it in the storage circuit 120. Further, when the data management function 151 is instructed to complete the creation of medical care data, the data management function 151 transmits the medical care data stored in the storage circuit 120 to the integrated data server 400.

Here, the input method of medical treatment contents is not particularly limited. For example, the medical treatment content may be input using a description method such as a SOAP format. In such a SOAP format, the medical treatment contents are input by dividing into S (Subject: subjective information), O (Object: objective information), A (Assessment: assessment), and P (Plan: plan) for each symptom of the subject. Will be done.

Further, when a comment or the like is input to the medical data or a specific item included in the medical data, the data management function 151 executes a process for storing the input contents. Specifically, the data management function 151 stores the comment data recording the input contents in association with the medical data or the item as the input destination.

The first extraction function 152 extracts the first data representing the medical treatment content from the medical treatment data in which the medical treatment content of the subject is described. In addition, the second extraction function 153 is related to the first data from the test data (sample test data, physiological test data, image data, report data, conference data) in which the test results of the subject are recorded. The inspection data including the second data representing the inspection result is extracted.

Here, the method of realizing the first extraction function 152 and the second extraction function 153 is not particularly limited, and various methods can be adopted. In the present embodiment, a method of using a model such as a machine learning model will be described as a method of realizing the first extraction function 152 and the second extraction function 153.

First, with reference to FIG. 3, a model generation method according to the first extraction function 152 and the second extraction function 153 will be described. FIG. 3 is a diagram for explaining a method of generating a model according to the first extraction function 152 and the second extraction function 153.

First, a model (hereinafter, first model) M1 related to the first extraction function 152 is generated from the past medical data of a plurality of subjects stored in the integrated DB 410 of the integrated data server 400. Specifically, each of the medical care data stored in the integrated DB 410 is input, and the relationship between the character strings representing the medical care contents represented in the medical care data is analyzed (machine learning) at the word level and the context level. A first model M1 capable of outputting the first data representing the medical treatment content is generated. Here, the first data output from the first model M1 is generated in a format comparable to the inspection result of the inspection data (second data described later). For example, the first data is composed of items such as word groups and character strings whose relevance to the second data can be compared.

For the analysis of medical treatment contents, for example, techniques such as Word2Vec and Doc2Vec can be used. When such a technique is used, the first data is output as vector data in which a character string representing a medical treatment content is vectorized at a word level or a context level. Further, by using a rule engine or the like that recognizes the SOAP format, any one of the four categories of SOAP may be analyzed, and the first model M1 may be generated for each item. FIG. 3 shows an example in which a first model M1 (first model M1a, first model M1b) is generated for each of the categories O and A as analysis targets.

In addition, a model (hereinafter, second model) M2 related to the second extraction function 153 is generated from the past test data of a plurality of subjects stored in the integrated DB 410. Specifically, by inputting each of the inspection data and analyzing (machine learning) the relationship between the character strings representing the inspection results represented in the inspection data at the word level and the context level, the second inspection result is represented. A second model M2 capable of outputting the data of is generated. Here, the second data output from the second model M2 is generated in a format comparable to the medical treatment result (first data) of the medical treatment data. For example, the second data is composed of items such as word groups and character strings whose relevance to the first data can be compared.

For the analysis of the test result, for example, a technique such as Word2Vec or Doc2Vec can be used as in the analysis of the medical treatment content. When such a technique is used, the second data is output as vector data in which a character string representing a test result is vectorized at a word level or a context level. Further, by using a rule engine or the like that recognizes the format of inspection data, a specific inspection result or the like may be set as an analysis target.

Further, the second model M2 may generate one second model M2 from inspection data of different types, or may generate a second model M2 for each type of inspection data. FIG. 3 shows an example in which the second model M2a is generated from the physiological test data and the second model M2b is generated from the report data and the conference data.

When the inspection data is image data, a second model M2 that outputs the feature as the second data may be generated by analyzing (machine learning) the feature represented by the image. Further, when the inspection result is represented by a measured value such as vitals, it is preferable to generate a second model M2 that can be output in a format that also considers the time-series change rate of the numerical value.

Further, in the medical information system 1, a test result DB 420 generated by using the above-mentioned second model M2 is prepared as a data set related to the operation of the second extraction function 153. The inspection result DB 420 holds the second data obtained by inputting the inspection data into the second model M2 in association with each inspection data stored in the integrated DB 410.

FIG. 4 is a diagram showing an example of the data structure of the inspection result DB 420. As shown in FIG. 4, the test result DB 420 includes the patient ID of the subject related to the test data D2, the second data obtained by inputting the test data D2 into the second model M2, and the test data D2. Is stored in association with the inspection result ID that identifies.

It is assumed that the first model M1 and the second model M2 described above are generated in advance, but the device for generating the model is not particularly limited. For example, the first model M1 and the second model M2 may be generated by the integrated data server 400, or may be generated by a dedicated device for model generation. Further, the first model M1, the second model M2, and the test result DB 420 may be in a form in which each of the medical information processing devices 100 is held in the storage circuit 120 or the like, or another device such as the integrated data server 400 may be used. It may be held in a form. In the latter case, the first extraction function 152 and the second extraction function 153 execute the extraction process using the first model M1 and the inspection result DB 420 held by another device such as the integrated data server 400.

Next, with reference to FIG. 5, the operations of the first extraction function 152 and the second extraction function 153 using the above-mentioned first model M1 and the inspection result DB 420 will be described. Here, FIG. 5 is a diagram for explaining an example of the operation of the first extraction function 152 and the second extraction function 153.

For example, the first extraction function 152 inputs the medical care data D1 to the first model M1 when the user instructs the user to check the description contents of the newly created medical care data D1 of the subject. Then, the first extraction function 152 extracts (acquires) the output result of the first model M1 as the first data D1a representing the medical treatment contents described in the medical treatment data D1. FIG. 5 shows an example in which the first data D1a and D1b are extracted by using the first models M1a and M1b generated for the categories O and A among the SOAP categories constituting the medical care data D1. Is shown.

On the other hand, the second extraction function 153 refers to the test result DB 420, and the test data (test) of the subject including the second data related to the first data D1a and D1b extracted by the first extraction function 152. Result ID) is specified. Specifically, the second extraction function 153 refers to the test result DB 420 and narrows down the data entries including the patient ID of the subject related to the medical data D1. Next, the second extraction function 153 compares the first data D1a and D1b extracted by the first extraction function 152 with the second data included in the narrowed down data entry, and compares the first data D1a, The inspection result ID of the data entry containing the second data associated with each of D1b is specified. Then, the second extraction function 153 extracts the inspection data corresponding to the specified inspection result ID from the integrated DB 410.

The degree of relevance between the first data D1a and D1b and the second data can be calculated using a known technique. For example, when the first data D1a, D1b and the second data are both represented by vector data, the degree of relevance between the two data can be obtained based on the angle formed by both vectors. Here, the degree of relevance is an index indicating the strength of the correspondence and correlation between the first data and the second data, and the higher the degree of relevance, the more common or similar description contents are included. Means that. That is, the second extraction function 153 identifies the second data having a higher degree of relevance by using a threshold value or the like, so that the test result described as the basis of the medical treatment content described in the medical treatment data D1 is described. Identify the data. Then, the second extraction function 153 holds the specified test result ID in association with the medical record ID that identifies the medical record data D1 to be processed. When there are a plurality of second data whose relevance exceeds the threshold value, the second extraction function 153 may specify one second data having the maximum relevance, or all the second data. Data may be specified.

As described above, the first extraction function 152 extracts the first data representing the medical treatment content from the medical treatment data of the subject to be processed by using the first model M1. In addition, the second extraction function 153 obtains test data including second data representing test results related to the first data extracted by the first extraction function 152, that is, test results that are the basis of medical treatment contents. Extract the included inspection data.

Returning to FIG. 2, the determination function 154 includes an item included in the first data extracted by the first extraction function 152 and an item included in the second data of the inspection data specified by the second extraction function 153. To determine the correspondence between the two items. Here, the items included in the first data and the second data mean, for example, character strings (including numerical values) representing medical treatment contents and test results, which are classified at the word level and the context level.

Specifically, in the determination function 154, between the items included in the first data and the items included in the second data, items having the same character string or items having similar contents as the character strings have. If it exists, it is determined that a correspondence is established between both of these items. Further, the determination function 154 determines that the correspondence relationship of the item is not established when there is an independent item for which the correspondence relationship is not established between the item included in the first data and the item included in the second data. judge.

For example, the determination function 154 determines that the correspondence relationship of the item is not established when the content corresponding to the item included in the second data is not included in the first data. In this case, it means that the test result of the item for which the correspondence relationship is determined not to be established is not reflected in the medical treatment content of the medical treatment data. Further, for example, when the content corresponding to the item included in the first data is not included in the second data, the determination function 154 determines that the correspondence relationship of the item is not established. In this case, it means that the medical treatment content of the item for which the correspondence relationship is determined to be unsuccessful is not based on the test result of the test data. The determination function 154 may be configured to determine the correspondence relationship for all the items included in the first data and the second data, or the correspondence relationship for items such as character strings and terms in a predetermined format. May be configured to determine.

The display control function 155 cooperates with the above-mentioned data management function 151, the first extraction function 152, the second extraction function 153, and the determination function 154 to display various screens for supporting the medical staff on the display 140. Let me.

FIG. 6 is a diagram showing an example of a screen displayed by the display control function 155. As shown in FIG. 6, the screen G1 has a timeline display area G11 and a data display area G12.

In the timeline display area G11, each medical action performed on the subject is displayed as an event in chronological order. The events are a sample test acquisition event (sample test) by the sample test system 200, a physiological test data acquisition event (physiological test) by the radiation department system 300, and an image data, report data, and conference data acquisition event by the radiation department system 300. (Image inspection, report, conference), means an event (carte) for acquiring medical data by the medical information processing apparatus 100, and the like. For example, the display control function 155 arranges and displays symbols symbolically representing the contents of an event of medical practice for a patient in chronological order.

When the display control function 155 receives an operation for designating any event displayed in the timeline display area G11 via the input interface 130 or the like, the display control function 155 refers to the integrated data server 400 and responds to the designated event. Get medical data. Further, when the display control function 155 receives an operation for designating any time point or period of the display period displayed in the timeline display area G11, the display control function 155 refers to the integrated data server 400 and refers to the designated time point or period. Acquire medical data corresponding to the event held in. Then, the display control function 155 displays the acquired medical data in the data display area G12.

For example, when the medical data is image data, the display control function 155 displays the content of the image data in the data display area G12. Further, for example, when the medical data is sample test data, physiological test data, or the like, the display control function 155 uses the measurement value at the specified time point, each measurement value obtained in the designated period, and the measurement value. A graph or the like showing a time-series change is displayed in the data display area G12.

Here, each of the medical data is displayed in the data display area G12 in a small area (hereinafter, panel) smaller than the data display area G12. As a result, in the data display area G12, it is possible to display a plurality of medical data in the same screen.

The size of the panel does not matter. For example, the size of the panel may be a fixed value determined for each data type of medical data, or may be dynamically changed according to the number of medical data to be displayed. Further, the number of panels that can be displayed in the data display area G12 is not particularly limited, and may be a fixed value, or may be dynamically increased or decreased according to the number of medical data to be displayed and the like. Further, the layout of the panel is not particularly limited, and may be a fixed layout, or may be dynamically changed according to the number of medical data to be displayed and the like.

Further, the display control function 155 cooperates with the data management function 151 to display a panel for creating new medical care data in the data display area G12. Specifically, when the display control function 155 is instructed to create new medical care data via the input interface 130 or the like, the display control function 155 displays a panel capable of inputting medical care contents in the data display area G12.

FIG. 7 is a diagram showing an example of a screen displayed by the display control function 155, and shows an example in which the panel P11 related to the new creation of medical care data is displayed in the data display area G12. Here, characters can be input to the panel P11 via the input interface 130 or the like. The user of the medical information processing apparatus 100 operates the input interface 130 and the like to input the medical treatment contents performed on the subject to the panel P11. Note that FIG. 6 shows an example in which the medical treatment content of the subject is input in the SOAP format.

After the medical treatment content is input to the panel P11, when an instruction such as checking the description content or completing the creation is received via the input interface 130 or the like, the data management function 151 inputs the content input to the panel P11 to new medical treatment data. Is stored in the storage circuit 120. Then, for example, when new medical data is stored in the storage circuit 120, the first extraction function 152 extracts the first data from the medical data. Further, the second extraction function 153 and the determination function 154 operate with the extraction of the first data.

The display control function 155 displays the medical care data from which the first extraction function 152 extracted the first data and the examination data extracted by the second extraction function 153 on the same screen. Specifically, the display control function 155 displays the test data extracted by the second extraction function 153 in the data display area G12 on which new medical data (panel P11) is displayed. Further, the display control function 155 displays items that are determined by the determination function 154 that a correspondence relationship is established so that they can be identified. Further, the display control function 155 displays the items for which the correspondence relationship is determined by the determination function 154 to be identifiable.

FIG. 8 is a diagram showing an example of a screen displayed by the display control function 155, showing a state in which the inspection data extracted by the second extraction function 153 is displayed in the data display area G12 of FIG. 7. .. In FIG. 8, the display control function 155 displays the inspection data extracted by the second extraction function 153 as the panel P2 in the data display area G12 together with the panel P11. That is, the display control function 155 displays the medical care data and the test data on which the test result that is the basis of the medical care data is displayed on the same screen.

Further, the display control function 155 displays the item A1 in the panel P11 and the item A1'in the panel P2, which are determined by the determination function 154 to establish a correspondence relationship, in a distinguishable state. For example, the display control function 155 displays the corresponding items so that they can be identified by surrounding them with a frame of the same color or line type. As a result, the user of the medical information processing apparatus 100 can easily find out where in the examination data the examination result, which is the basis of the medical treatment content, exists by confirming the medical treatment data and the examination data displayed in an identifiable manner. Can be grasped.

Further, the item A2 in the panel P2 is an item that exists in the second data but does not exist in the first data, and the correspondence relationship is determined to be unsuccessful. Therefore, the display control function 155 displays the corresponding item A2 in an identifiable manner. Specifically, the display control function 155 adds the mark MK1 to the corresponding item A2 and displays the item A2 in an identifiable highlight. By adding the mark MK1 to the item A2, the item A2 is highlighted and displayed. As a result, the user of the medical information processing apparatus 100 can easily grasp the items described in the examination data that are not reflected in the medical care data.

Further, in FIG. 8, the display control function 155 identifiablely displays the event corresponding to the inspection data including the item for which the correspondence relationship is determined to be unsuccessful among the events displayed in the timeline display area G11. .. Specifically, the display control function 155 adds the mark MK2 to the event corresponding to the inspection data displayed on the panel P2 and displays the event so as to be identifiable and highlighted. As a result, the user of the medical information processing apparatus 100 can easily grasp which of the events displayed in the timeline display area G11 corresponds to the event related to the inspection data for which the correspondence relationship is determined to be unsuccessful. Can be done.

In addition, in FIG. 8, the display example when the content corresponding to the item included in the second data is not included in the first data has been described, but the content corresponding to the item included in the first data has been described. Is not included in the second data, the display is controlled in the same manner. Specifically, the display control function 155 highlights the corresponding item included in the first data when the content corresponding to the item included in the first data is not included in the second data. By doing so, it is displayed so that it can be identified.

Further, the display control function 155 displays in the data display area G12 a user interface capable of inputting a comment regarding an item for which the correspondence relationship is determined to be unsuccessful or medical data in response to an operation or the like via the input interface 130. Let me. The operation method for instructing the comment input is not particularly limited, but for example, the mark MK1 may function as an operator for inputting a comment regarding the item A2. In this case, when the display control function 155 receives the operation for the mark MK1, as shown in FIG. 9, the display control function 155 displays the input area W1 in which the comment regarding the item A2 can be input in the data display area G12.

FIG. 9 is a diagram showing an example of a screen displayed by the display control function 155, and shows a screen example when the mark MK1 of FIG. 8 is operated. In FIG. 9, characters can be input to the input area W1 via the input interface 130 or the like. The user of the medical information processing apparatus 100 can input a comment regarding the item A2 or the like into the input area W1 by operating the input interface 130 or the like.

The content to be input to the input area W1 is not particularly limited, and any content can be input. For example, the content explaining that the test result regarding the item A2 was not described in the medical treatment content (hereinafter, the reason for non-adoption) may be input as a comment regarding the item A2. Further, for example, the content of requesting the execution of the inspection corresponding to the inspection result of the item A2 (hereinafter referred to as the inspection request) may be input as a comment regarding the item A2. The comment input to the input area W1 is stored as comment data, for example, in association with the item A2 and the medical care data including the item A2 by the data management function 151. For example, with respect to the comment data of the test request, the subject is tested by the person in charge of the system from which the test data is generated confirming the contents.

Further, the display control function 155 may display a dedicated input area W1 for each purpose of the comment. For example, when the display control function 155 receives an operation for the mark MK1, it displays a selected component that can select either the reason for non-adoption or the purpose of the inspection request, and displays an input area according to the selected purpose. You may. In this case, the data management function 151 may switch the comment data management method according to the selected purpose. For example, when the comment information of the inspection request is input, the comment data may be transmitted to the inspection data with the mark MK1 or the system for inspecting the item.

Note that FIG. 9 has described a configuration in which comments can be input to examination data, but the present invention is not limited to this, and a configuration in which comments can be input to medical data may also be used. For example, when a predetermined operation is performed on the medical care data displayed in the data display area G12, the display control function 155 causes the input area W2 to be displayed in association with the medical care data as shown in FIG.

FIG. 10 is a diagram showing an example of a screen displayed by the display control function 155, and shows a screen example when a comment input instruction is given to the panel P11 of FIG. When the display control function 155 accepts a predetermined operation from the panel P11, the display control function 155 displays the input area W2 in association with the panel P11. Similar to the input area W1, the input area W2 can input characters via the input interface 130 or the like. The user of the medical information processing apparatus 100 can input a comment regarding the item A2, medical care data, and the like into the input area W1 by operating the input interface 130 and the like.

For example, the content (reason for non-adoption) explaining that the medical treatment content related to the item A2 was not reflected in the medical treatment data may be input as a comment regarding the item A2 or the medical treatment data. The comment input to the input area W2 is stored as comment data by the data management function 151 in association with, for example, medical care data. It is also possible to edit the medical treatment content itself of the medical treatment data before the completion of the creation of the medical treatment data is instructed.

Further, the number of medical data displayed in the data display area G12 is not limited to one, and may be plural. For example, when there are a plurality of medical care data being created, the display control function 155 may display the plurality of medical care data in the data display area G12. Further, for example, the display control function 155 may display the past medical care data designated from the timeline display area G11 in the data display area G12 together with the medical care data being created. The past medical care data may be excluded from the processing targets of the first extraction function 152, the second extraction function 153, and the determination function 154, or may be processed as the newly created medical care data. ..

FIG. 11 is a diagram showing an example of a screen displayed by the display control function 155, and shows a screen example when a plurality of medical care data are displayed. Here, on the left panels P11, P12, P13, and P14 of the data display area G12, medical care data at different time points are displayed. Further, in the panels P2 and P3 on the right side of the data display area G12, the test data extracted by the second extraction function 153 based on the medical care data of the panels P11, P12, P13 and P14 is displayed. The contents of the panel P11 and the panel P2 are the same as those in FIG.

In FIG. 11, the panel P3 displays the contents of three test data (specimen tests) related to the medical care contents of the medical care data of the panels P12 to P14. Specifically, the item A3'displayed on the panel P3 corresponds to the item A3 included in the medical data of the panel P12. Further, the item A4'displayed on the panel P3 corresponds to the item A4 included in the medical data of the panel P13. Further, the item A5'displayed on the panel P3 corresponds to the item A5 included in the medical data of the panel P14. Here, the display control function 155 displays, as in FIG. 7, the two items for which the correspondence relationship has been established can be identified.

In FIG. 10, since the test data related to the medical data on the panels P12 to P14 show the same type of test results (sample test, blood test), they are displayed in the same panel. The form is not limited to this. For example, the inspection data may be displayed in the same panel in a display form such as a graph format. Further, for example, the panel may be displayed individually for each inspection data.

Further, for example, when the inspection data is numerical data such as a measured value, the display control function 155 displays the inspection data according to which of the reference range of the measured value the measured value represented by the inspection result of the inspection data belongs to. The display form of may be switched. Here, the reference range is an index for determining the condition (or condition) of the subject, such as normal / abnormal determination and severity determination, and is preset for each test type and measured value. And.

For example, the display control function 155 determines the severity, which is an example of the condition of the subject, by comparing the reference range of the measured value with the measured value represented by the test result of the test data, and the determined severity. The display form of the inspection data is changed according to the above. Here, various methods can be adopted regardless of the method of changing the display form. For example, the display control function 155 may switch the display color of the test data or the color of the panel according to the condition of the subject such as the severity. Further, for example, the display control function 155 may display an icon or a message indicating the state of the subject in association with the test data. As a result, the user of the medical information processing apparatus 100 can easily grasp the state of the subject by looking at the test data displayed in the data display area G12.

Next, an operation example of the medical information processing apparatus 100 described above will be described with reference to FIG. FIG. 12 is a flowchart showing an example of processing executed by the medical information processing apparatus 100. As a premise of this process, it is assumed that the screen shown in FIG. 6 is displayed on the display 140 after the patient ID of the subject is input (step S11). In addition, in this process, an operation example when new medical care data is created will be described.

The display control function 155 waits until the creation of new medical data is instructed (step S12; No). Upon receiving an instruction to create new medical care data (step S12; Yes), the display control function 155 displays data in an area (panel) into which medical care contents can be input in cooperation with the data management function 151. It is displayed in the area G12 (step S13). The user of the medical information processing apparatus 100 can also display desired medical data in the data display area G12 via the timeline display area G11 until the user gives an instruction to create medical data.

Subsequently, when the data management function 151 receives a check instruction for the newly input medical treatment content via the input interface 130 or the like (step S14; Yes), the data management function 151 stores the input medical treatment content as new medical treatment data in the storage circuit 120. Remember in. If the check is not instructed (step S14; No), the process proceeds to step S25.

When new medical care data is stored in the storage circuit 120, the first extraction function 152 extracts the first data representing the medical care content from the medical care data (step S15). In addition, the second extraction function 153 includes the second data representing the test contents related to the first data extracted in step S15 from the medical care data of the subject managed by the integrated data server 400. Medical data is extracted (step S16). Next, the determination function 154 determines the correspondence between the items by comparing the items included in the first data with the items included in the second data (step S17).

The display control function 155 displays the inspection data in the data display area G12 based on the processing results of steps S15 to S17. Specifically, the display control function 155 displays the newly created medical care data and the examination data extracted by the second extraction function 153 in the data display area G12 (step S18). Further, the display control function 155 displays items that are determined to have a correspondence relationship in step S17 so that they can be identified (step S19).

Subsequently, the display control function 155 determines in the determination process of step S17 whether or not there is an item for which the correspondence relationship is determined to be unsuccessful (step S20). When there is an item for which the correspondence relationship is determined to be unsuccessful (step S20; Yes), the display control function 155 highlights the item determined to be unsuccessful (step S21), and proceeds to step S22. If there is no item for which the correspondence relationship is determined to be unsuccessful (step S20; No), the process proceeds to step S25.

Subsequently, the display control function 155 determines whether or not the comment input is instructed via the input interface 130 or the like (step S22). When the display control function 155 receives the comment input instruction (step S22; Yes), the display control function 155 displays the comment input area in the data display area G12 (step S23). Then, upon receiving the instruction to complete the comment input, the data management function 151 stores the content input in the input area as comment data (step S24), and proceeds to step S25. If the comment input instruction is not given (step S22; No), the process immediately proceeds to step S25.

Subsequently, the data management function 151 determines whether or not the user has instructed the completion of creating the medical care data (step S25). When the completion of creation is not instructed (step S25; No), the data management function 151 continues the creation of medical care data by returning the process to step S15. In this case, since the state of the medical information data is being created, the user of the medical information processing apparatus 100 can directly edit the description of the item for which the correspondence relationship is determined to be unsuccessful with respect to the medical information processing device being created. ..

On the other hand, when the user instructs the completion of creation (step S25; Yes), the data management function 151 stores the completed medical care data in the storage circuit 120 and transmits the medical care data to the integrated data server 400. Is stored in the integrated DB 410 (step S26).

As described above, in the present embodiment, the test data in which the test results related to the medical care content described in the medical care data of the subject are described is extracted, and the medical care data and the extracted test data are displayed on the same screen. Let me. Further, in the present embodiment, the correspondence relationship between the items included in the medical care data and the examination data is determined, and the items having a correspondence relationship between the two data are displayed so as to be distinguishable. As a result, the user of the medical information processing apparatus 100 can easily grasp the test data including the test result that is the basis of the medical care content described in the medical care data, and the test result that is the basis of the medical care content can be obtained. , It is possible to easily grasp where it exists in the inspection data. Therefore, in the present embodiment, it is possible to improve the convenience of creating and decoding medical data.

Further, in the present embodiment, when there is an independent item for which a correspondence relationship is not established among the items included in the medical care data and the examination data, the item is displayed in an identifiable manner. As a result, in the present embodiment, when there is an omission of the test result in the medical care data, or when the medical care content with insufficient grounds is described in the medical care data, the user can be made to grasp the corresponding item. Therefore, it is possible to prevent incomplete medical data from being created.

Further, in the present embodiment, when there is an item for which it is determined that the correspondence relationship is not established between the medical care data and the examination data, a user interface for inputting a comment regarding the item is provided, and the input comment content is provided. Is associated and saved. As a result, the user of the medical information processing apparatus 100 can leave as a comment the reason why the test result is not reflected in the medical care data and the reason why the medical care content with insufficient grounds is described in the medical care data. Further, when the user of the medical information processing device 100 has doubts about the accuracy of the test result described in the test data and therefore does not reflect it in the medical treatment content, the user of the medical information processing device 100 provides an interface provided by the medical information processing device 100. You can request a re-examination through. Therefore, in the present embodiment, it is possible to improve the convenience of creating and decoding medical data.

It should be noted that the above-described embodiment can be appropriately modified and implemented by changing a part of the configuration or function of the medical information processing apparatus 100. Therefore, in the following, some modifications according to the above-described embodiment will be described. In the following, points different from the above-described embodiment will be mainly described, and detailed description of points common to the contents already described will be omitted. Moreover, the modification described below may be carried out individually or in combination as appropriate.

(Modification example 1)
In the above-described embodiment, the mode of notifying the deficiency of the medical treatment content described in the medical treatment data (missing description, insufficient grounds) based on the judgment result of the judgment function 154 has been described. It may be used for other purposes. For example, in order to determine the proficiency level and the reliability level related to the creation of medical data, the number of items for which the correspondence relationship is determined to be unsuccessful by the determination function 154 may be recorded.

Specifically, the data management function 151 determines the number of items for which the correspondence relationship is not established for the medical care data for each medical care data creator (medical worker) each time new medical care data is created. Accumulate to. The accumulated value is stored in the storage circuit of the integrated data server 400 or the like in association with, for example, the medical worker ID of the creator.

As a result, in this modified example, the proficiency level and reliability of each medical worker involved in the creation of medical care data can be determined by referring to the accumulated values. The data management function 151 may be in a form of recording the total number of created medical care data, the number of times a comment is input, and the like, in addition to the above-mentioned cumulative value.

(Modification 2)
In the above-described embodiment, the embodiment in which the test data extracted by the second extraction function 153 is displayed on the screen on which the first extraction function 152 displays the medical care data from which the first data has been extracted has been described. However, depending on the number or amount of information of the inspection data extracted by the second extraction function 153, it may not be possible to display all the inspection data on the screen.

Therefore, the display control function 155 may display, for example, the screens shown in FIGS. 13 and 14 instead of the screen example described in the above-described embodiment. Here, FIGS. 13 and 14 are diagrams showing an example of a screen displayed by the display control function 155 of this modification.

As shown in FIG. 13, the screen G2 has a timeline display area G11 and a data display area G12, similarly to the screen G1 described in the first embodiment. Further, in the data display area G12, medical care data is displayed as in the first embodiment. Although FIG. 13 shows an example in which one medical care data is displayed on the panel P11, it is also possible to display a plurality of medical care data as described with reference to FIG.

Further, the data display area G12 is provided with an inspection data display area G21 for displaying the inspection data extracted by the second extraction function 153. Specifically, in the inspection data display area G21, each of the inspection data extracted by the second extraction function 153 is displayed on a panel. FIG. 13 shows an example in which six inspection data are extracted, and each of the inspection data is displayed side by side as panels P41 to P46. Note that, in FIG. 13, of the panels P41 to P46, the panels P41 to P44 are displayed, and the remaining panels P45 and 46 are in a non-display state. Hereinafter, panels P41 to P46 are collectively referred to as panel P4.

Here, the inspection data display area G21 is provided with a scroll bar G21a. The scroll bar G21a can be scrolled in the arrangement direction of the panel P4, and the panel P4 in the inspection data display area G21 is moved according to the user operation (scrolling operation). For example, in the inspection data display area G21 of FIG. 13, when the scroll bar G21a is scrolled downward on the screen, the panels P41 to P46 arranged in the inspection data display area G21 are moved upward on the screen. As a result, as shown in FIG. 14, the user of the medical information processing apparatus 100 can display the panels P45 and P46, which were hidden in FIG. 13, in the examination data display area G21.

Further, the display control function 155 displays the items in the medical care data and the examination data for which the correspondence relationship is determined by the determination function 154 so as to be distinguishable, as in the above-described embodiment. For example, in FIGS. 13 and 14, the display control function 155 can distinguish between the item A11 in the panel P11 and the item A11'in the panels P41 to P46, which are determined by the determination function 154 to establish a correspondence relationship. I'm letting you. As a result, the medical information processing apparatus 100 according to the present modification can achieve the same effect as that of the above-described embodiment. As a result, the user of the medical information processing apparatus 100 can easily find out where in the examination data the examination result, which is the basis of the medical treatment content, exists by confirming the medical treatment data and the examination data displayed in an identifiable manner. Can be grasped.

Further, the display control function 155 causes the determination function 154 to identifiable the items for which the correspondence relationship is determined to be unsuccessful, as in the above-described embodiment. For example, in FIGS. 13 and 14, the display control function 155 adds the mark MK1 to the items A12 and A13 in the panels P22 and P24 that are determined by the determination function 154 that the correspondence relationship is not established. As a result, the medical information processing apparatus 100 according to the present modification can achieve the same effect as that of the above-described embodiment. As a result, the user of the medical information processing apparatus 100 can easily grasp the items described in the examination data that are not reflected in the medical care data.

Further, in the data display area G12, an operator for instructing the display of the inspection data extracted by the second extraction function 153 is displayed. 13 and 14 show an example in which operation panels P51 to P56, which are examples of operators, are displayed on the right side of the inspection data display area G21. Hereinafter, the operation panels P51 to P56 are collectively referred to as the operation panel P5.

The operation panel P5 is provided for each inspection data extracted by the second extraction function 153. Information that can identify the corresponding inspection data is displayed on the operation panel P5. For example, information such as an inspection data creation date, an inspection data type, and a data name is displayed on the operation panel P5. Here, each of the operation panels P51 to P56 corresponds to each of the inspection data represented by the panels P41 to P46. As an example, on the operation panel P51, in addition to the creation date of the corresponding inspection data (inspection data of the panel P41), the data name “inspection X1” of the inspection data is displayed. As a result, the user of the medical information processing apparatus 100 can easily grasp which test data is instructed to be displayed by each of the operation panels P5.

Further, when the inspection data extracted by the second extraction function 153 includes an item for which the correspondence relationship is determined to be unsuccessful, the display control function 155 indicates that the operation panel P5 corresponding to the inspection data is unsuccessful. Information indicating that the determined item exists is added and displayed. As described above, in the examples of FIGS. 13 and 14, the inspection data related to the panels P43 and P45 include items A12 and A13 for which it is determined that the correspondence relationship is not established. Therefore, the display control function 155 adds a mark MK3 indicating that an item determined to be unsuccessful exists to the operation panels P53 and P55 corresponding to the inspection data of the panels P43 and P45 to be displayed. As a result, the user of the medical information processing apparatus 100 can easily grasp the operation panel P5 of the examination data having items that are not reflected in the medical treatment data.

When the display control function 155 receives the selection operation for the operation panel P5, the display control function 155 displays the inspection data corresponding to the selected operation panel P5 in the inspection data display area G21. Here, the display method of the inspection data via the operation panel P5 is not particularly limited, and various display methods can be used.

For example, as shown in FIG. 13, when the inspection data extracted by the second extraction function 153 is displayed in advance in the inspection data display area G21 in a scrollable form, any of the following display methods or You can use all of them. As an example, the display control function 155 may automatically scroll the inspection data panel P4 corresponding to the selected operation panel P5 so that it is displayed in the inspection data display area G21. In this case, the display control function 155 may automatically scroll the inspection data panel P4 corresponding to the selected operation panel P5 so as to be located at the center of the inspection data display area G21. Further, the display control function 155 may display the inspection data panel P4 corresponding to the selected operation panel P5 in an identifiable manner.

Further, as another display method, as shown in FIG. 15, the display control function 155 may display only the inspection data panel P4 corresponding to the selected operation panel P5 in the inspection data display area G21. Here, FIG. 15 is a diagram showing an example of a screen displayed by the display control function 155 of this modification, and shows a display example when the operation panel P53 is selected.

As shown in FIG. 15, when the selection of the operation panel P53 is accepted, the display control function 155 displays the panel P43 representing the inspection data corresponding to the operation panel P53 in the inspection data display area G21. In this case, for example, the operation panel P5 may be a toggle button or the like so that selection and deactivation can be switched alternately.

In the case of the display method of FIG. 15, the number of inspection data that can be selected via the operation panel P5 is not limited to one, and may be a plurality. For example, when the operation panels P53 and P55 are selected, the display control function 155 displays the inspection data panels P43 and P45 corresponding to these operation panels P53 and P55 side by side in the inspection data display area G21. .. Here, the arrangement order of the panel P4 may be the order of the creation date or the order of the inspection data selected on the operation panel P5.

As described above, according to the present modification, even if it is not possible to display all the inspection data extracted by the second extraction function 153 on the same screen at once, the hidden portion Inspection data can be displayed with a simple operation. Therefore, in this modification, the convenience related to the creation and decoding of medical data can be improved.

(Modification 3)
In the above-described embodiment, the medical information processing apparatus 100 includes a data management function 151, a first extraction function 152, a second extraction function 153, a determination function 154, and a display control function 155. A part or all of the device may be provided by a device other than the medical information processing device 100.

For example, the integrated data server 400 may have a part or all of the above-mentioned functions. In this case, the integrated data server 400 functions as a medical information processing device, for example, displaying various screens described above in the form of a Web service or the like on the display 140 of the medical information processing device 100. Further, the medical information processing device is not limited to one computer device, and may be realized by a plurality of computer devices connected to a network.

In each of the above-described embodiments, the data management unit, the first extraction unit, the second extraction unit, the determination unit, and the display control unit in the present specification are the data management functions 151 and the first of the processing circuit 150, respectively. Although the case of being realized by the extraction function 152, the second extraction function 153, the determination function 154, and the display control function 155 of the above is described, the embodiment is not limited to this. For example, the data management unit, the first extraction unit, the second extraction unit, the determination unit, and the display control unit in the present specification include the data management function 151, the first extraction function 152, and the second In addition to being realized by the extraction function 153, the determination function 154, and the display control function 155, the same function may be realized only by the hardware or by mixing the hardware and the software.

Further, the word "processor" used in the above description is, for example, a CPU (Central Processing Unit), a GPU (Graphics Processing Unit), an integrated circuit for a specific application (Application Specific Integrated Circuit: ASIC), or a programmable logic device. (For example, it means a circuit such as a simple programmable logic device (Simple Programmable Logic Device: SPLD), a compound programmable logic device (Complex Programmable Logic Device: CPLD), and a field programmable gate array (Field Programmable Gate Array: FPGA). The processor realizes the function by reading and executing the program stored in the storage circuit 120. Instead of storing the program in the storage circuit 120, the program may be directly incorporated in the circuit of the processor. In this case, the processor realizes the function by reading and executing the program embedded in the circuit. Further, the processor of the present embodiment is not limited to the case where it is configured as a single circuit, and a plurality of independent circuits may be combined to be configured as one processor to realize its function.

Here, the program executed by the processor is provided in advance in a ROM (Read Only Memory), a storage circuit, or the like. This program is a file in a format that can be installed or executed on these devices, such as CD (Compact Disk) -ROM, FD (Flexible Disk), CD-R (Recordable), DVD (Digital Versatile Disk), etc. It may be recorded and provided on a computer-readable storage medium. Further, this program may be provided or distributed by being stored on a computer connected to a network such as the Internet and downloaded via the network. For example, this program is composed of modules including the above-mentioned functional parts. In actual hardware, the CPU reads a program from a storage medium such as a ROM and executes it, so that each module is loaded on the main storage device and generated on the main storage device.

According to at least one embodiment and modification described above, it is possible to easily grasp the correspondence between the medical treatment content described in the medical treatment data and the test result that is the basis of the medical treatment content.

Although some embodiments of the present invention have been described, these embodiments are presented as examples and are not intended to limit the scope of the invention. These embodiments can be implemented in various other embodiments, and various omissions, replacements, and changes can be made without departing from the gist of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention as well as the invention described in the claims and the equivalent scope thereof.

1 Medical information processing system 100 Medical information processing device 151 Data management function 152 First extraction function 153 Second extraction function 154 Judgment function 155 Display control function

Claims (11)

1. A first extraction unit that extracts the first data representing the medical treatment content from the medical treatment data in which the medical treatment content of the subject is described, and a first extraction unit.
   A second extraction unit that extracts test data including second data representing the test results related to the first data from one or more test data in which the test results of the subject are described. When,
   The items included in the first data extracted by the first extraction unit and the items included in the second data of the inspection data extracted by the second extraction unit are compared, and between the two items. And the judgment unit that determines the correspondence between
   A display control unit that displays the medical data and the inspection data extracted by the second extraction unit on the same screen, and displays items that are determined by the determination unit to have a correspondence relationship in an identifiable manner. ,
   Medical information processing device equipped with.
2. A claim that the determination unit determines that a correspondence relationship is established between the items included in the first data and the items included in the second data when the contents match or are similar. Item 1. The medical information processing apparatus according to item 1.
3. When the determination unit has an independent item for which a correspondence relationship is not established between the item included in the first data and the item included in the second data, the correspondence relationship of the item is not established. Judge,
   The medical information processing device according to claim 1, wherein the display control unit displays items for which a correspondence relationship is determined to be unsuccessful by the determination unit in an identifiable manner.
4. In the determination unit, when the content corresponding to the item included in the second data is not included in the first data, or the content corresponding to the item included in the first data is the second. If it is not included in the data of, it is judged that the correspondence of the item is not established, and
   The medical information processing device according to claim 1, wherein the display control unit displays items for which a correspondence relationship is determined to be unsuccessful by the determination unit in an identifiable manner.
5. The medical information processing device according to claim 3 or 4, wherein the display control unit displays a user interface on the screen capable of inputting a comment regarding an item for which the correspondence relationship is determined not to be established by the determination unit.
6. The display control unit displays on the screen an operator for instructing the display of the inspection data for each of the inspection data extracted by the second extraction unit, and the operator responds to an operation on the operator. The medical information processing apparatus according to claim 1, wherein the test data corresponding to the above is displayed on the screen.
7. When the inspection data extracted by the second extraction unit includes an item for which the correspondence relationship is determined not to be established by the determination unit, the display control unit causes the operator corresponding to the inspection data. The medical information processing apparatus according to claim 6, wherein information indicating that an item determined to be unsuccessful exists is added and displayed.
8. When the test data is numerical data, the display control unit determines by comparing the measured value represented by the test result of the test data with the reference range of the measured value related to the condition determination of the subject. The medical information processing apparatus according to claim 1, wherein the display form of the test data is switched according to the condition of the subject.
9. Further equipped with a data management unit that executes processing related to the creation of the new medical care data,
   The medical information processing apparatus according to claim 1, wherein the first extraction unit extracts the first data from the medical data when the data management unit executes a process related to the creation of the medical data. ..
10. The medical information processing device according to claim 9, wherein the data management unit accumulates the number of the items for which the correspondence relationship is determined by the determination unit for each medical worker who created the medical data.
11. From the medical care data in which the medical care contents of the subject are described, the first data representing the medical care contents is extracted, and the first data is extracted.
    From one or more test data in which the test results of the subject are described, test data including the second data representing the test results related to the first data is extracted.
    The item included in the first data is compared with the item included in the second data of the extracted inspection data, and the correspondence between the two items is determined.
    The medical care data and the extracted test data are displayed on the same screen, and items determined to have a correspondence relationship are displayed in an identifiable manner.
    Medical information processing methods including that.

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