JP2012177976A - Medical information processing system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a medical information processing system for enabling a doctor or a person in charge of business to easily operate, and to analyze information with a free perspective.SOLUTION: This medical information processing system includes: user terminal equipment for inputting medical information; a medical information management server for storing the plurality of medical information; an information processor for extracting desired items from among the plurality of medical information stored in the medical information management server, and for generating secondary medical information by mutually connecting the extracted items; and a network for mutually connecting the user terminal equipment, medical information management server and information processor. The user terminal equipment includes: an operation part for inputting the medical information; and a display control part for displaying the secondary medical information. The display control part is configured to display the secondary medical information individually and concretely by the operation of the operation part.

Description

  The present invention relates to a medical information processing system.

  In current medical institutions, hospital information systems that collectively manage medical information as electronic data using a computer have been introduced. This hospital information system is constituted by, for example, a user terminal device and a medical information management server. When a doctor or a hospital office worker or the like inputs medical information on the user terminal device side, the medical information management server The entered medical information is stored as a database.

  For example, when managing a medical record that records a medical practice of a doctor as medical information, an electronic medical record is used as a hospital information system (see, for example, Patent Document 1).

  An attempt has been made to analyze medical information by using such a hospital information system and to use it for hospital management or the like. For example, doctors and hospital clerks are trying to analyze medical information using spreadsheet software such as Microsoft Excel.

JP 2004-145571 A

  However, the above-mentioned electronic medical record is not the only hospital information system used in medical institutions. For example, medical accounting systems, departmental systems, DPC (Diagnosis Procedure Combination; diagnosis group classification), document management systems, and the like are also used as hospital information systems. In addition, information systems used in medical institutions include personnel salary systems and attendance management systems. Therefore, in a medical institution, since a plurality of hospital information systems and information systems are used to manage medical information and the like, a plurality of pieces of medical information having different data formats are accumulated in the medical information management server.

  Each medical information has an enormous amount of information. For example, in an electronic medical record log, the amount of information is about 1.5 million in a month.

  Therefore, analysis of medical information requires knowledge about the database in addition to frequent operations such as extraction of necessary items in medical information, pivot table, data reprocessing and migration. For this reason, when actually analyzing medical information, information analysis specialists are often requested to design routine analysis methods.

However, there are limits to the typical analysis methods designed by information analysis experts. For example,
When trial and error analysis is performed from the viewpoint of a medical doctor or the like in the medical field, it is necessary to change the point of view based on a free idea, and a new analysis method must be designed each time. Therefore, there is a problem that it is difficult to efficiently perform information analysis using medical information.

  The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a medical information processing system that can be easily operated by doctors and office workers and that can perform information analysis from a free perspective.

  In order to achieve the above object, a medical information processing system according to the present invention is stored in a user terminal device for inputting medical information, a medical information management server for storing a plurality of the medical information, and the medical information management server. An information processing apparatus that extracts desired items from a plurality of pieces of medical information and generates secondary medical information by interconnecting the extracted items, the medical user terminal device, the medical information management server, and the information A network that connects processing devices to each other, and the user terminal device includes an operation unit that inputs medical information, and a display control unit that displays the secondary medical information, and the display control unit includes: The secondary medical information is individually and specifically displayed by operating the operation unit.

  According to the present invention, a plurality of pieces of medical information having different data formats can be easily integrated, and the integrated medical information can be displayed by a simple operation by a user such as a doctor or an office worker. A system can be provided.

It is a figure showing composition of a medical information processing system concerning one embodiment of the present invention. It is a figure which shows the block configuration of a user terminal device. It is a figure which shows the block configuration of a medical information management server. It is a figure which shows the block configuration of information processing apparatus. It is a figure which shows an example of a structure of the display screen of the electronic medical record which concerns on Example 1. FIG. It is a figure which shows an example of a structure of the display screen of the secondary medical information which concerns on Example 1. FIG. It is a figure which shows an example of a structure of the display screen of the secondary medical information which concerns on Example 1. FIG. It is a figure which shows an example of a structure of the display screen of the secondary medical information which concerns on Example 1. FIG. It is a figure which shows an example of a structure of the display screen of the secondary medical information which concerns on Example 1. FIG. It is a figure which shows an example of a structure of the display screen of the secondary medical information which concerns on Example 1. FIG. It is a figure which shows an example of a structure of the display screen of the secondary medical information which concerns on Example 1. FIG. It is a figure which shows an example of a structure of the display screen of the secondary medical information which concerns on Example 1. FIG. It is a figure which shows an example of a structure of the display screen of the secondary medical information which concerns on Example 1. FIG. It is a figure which shows an example of a structure of the display screen of the secondary medical information which concerns on Example 2. FIG. It is a figure which shows an example of a structure of the display screen of the secondary medical information which concerns on Example 2. FIG. It is a figure which shows an example of a structure of the display screen of the secondary medical information which concerns on Example 2. FIG. It is a figure which shows an example of a structure of the display screen of the secondary medical information which concerns on Example 2. FIG. It is a figure which shows an example of a structure of the display screen of the secondary medical information which concerns on Example 2. FIG.

  An embodiment of the present invention will be described in detail with reference to the drawings.

[1. Configuration of medical information processing system]
As shown in FIG. 1, the medical information processing system 1 according to this embodiment includes a user terminal device 2, a medical information management server 3, and an information processing device 4. Are connected by a network 5 such as the Internet.

  In this medical information processing system 1, a user such as a doctor or a hospital clerk inputs medical information in the user terminal device 2, and the input medical information is stored in the medical information management server 3. At this time, the medical information management server 3 stores a plurality of pieces of medical information having different data formats separately for each data format. Then, the information processing device 4 extracts necessary items from a plurality of pieces of medical information having different data formats stored in the medical information management server 3 and combines the extracted items with each other. Is generated. The generated secondary medical information data is acquired by the user terminal device 2 by a user operation in the user terminal device 2, and information based on the acquired secondary medical information data is displayed.

  Hereinafter, each component which comprises the medical information processing system 1 is demonstrated concretely.

(Configuration of user terminal device 2)
First, the configuration of the user terminal device 2 will be described. FIG. 2 is a diagram illustrating a block configuration of the user terminal device 2 in the medical information processing system 1 of the present embodiment.

  The user terminal device 2 is a device for a user such as a doctor or an office worker to input medical information in a medical institution such as a hospital, and is also a device having a function of displaying the input medical information. The user terminal device 2 can be configured using a general-purpose server computer. As shown in FIG. 2, a rewritable main memory that stores a CPU (Central Processing Unit) 21, a user terminal device program 22a, and the like. A first storage unit 22 as a storage device, a second storage unit 23 composed of an HDD (Hard Disk Drive) or the like for storing various information, and the medical information management server 3 and the information processing device 4 via the network 5 And a communication interface (hereinafter referred to as “communication IF”) 24, an operation unit 25, and a display unit 26. These various components are connected to each other via a system bus 27. In the present embodiment, the control unit 28 is configured by the CPU 21 and the first storage unit 22.

(About the first storage unit 22)
Further, the first storage unit 22 provides a basic function as a computer of the user terminal device 2 and stores a user terminal device program 22a for causing the user terminal device 2 to function as various means. The user terminal device program 22a is read by the CPU 21, and the function according to the user terminal device program 22a is executed by the CPU 21.

  Note that the user terminal device program 22a may be downloaded to the first storage unit 22 via a communication IF 24, for example, from a server connected to a network, or a recording medium such as a CD-ROM. May be read into the first storage unit 22 via a recording medium drive (not shown).

(About the second storage unit 23)
The second storage unit 23 temporarily stores medical information data related to medical information input by a doctor or office worker. The medical information data stored in the second storage unit 23 is transferred to the medical information management server 3 via the communication IF 24 for a predetermined period, for example, every hour.

  For example, the medical information is not limited to the electronic medical record and the electronic medical record described above. For example, medical accounting systems, departmental systems, DPC (Diagnosis Procedure Combination; diagnosis group classification), document management systems, and the like are also used as hospital information systems. In addition, information systems used in medical institutions include personnel salary systems and attendance management systems.

(Regarding the control unit 28)
The control unit 28 includes the CPU 21 and the first storage unit 22 as described above, and the control unit 28 reads and executes the user terminal device program 22a stored in the first storage unit 22 so that the control unit 28 can execute the control. The user terminal device 2 as a whole is controlled overall and functions as a communication processing means and a display control means.

  The communication processing means controls the communication IF 24 to perform medical information transmission / reception processing with the medical information management server 3 or the information processing apparatus 4 via the network.

  The display control unit displays a medical information input screen on the display unit 26 when the doctor or the office worker inputs medical information, and displays the secondary medical information generated by the information processing apparatus 4 on the display unit 26. . The display control means also has a function of individually and specifically displaying the secondary medical information displayed by operating the operation unit 25.

(Configuration of medical information management server 3)
Next, the configuration of the medical information management server 3 will be described. FIG. 3 is a diagram showing a block configuration of the medical information management server 3 in the medical information processing system 1 of the present embodiment.

  The medical information management server 3 is a device for accumulating medical information input in the user terminal device 2. The medical information management server 3 can be configured by using a general-purpose server computer. As shown in FIG. 3, the medical information management server 3 is a first rewritable main storage device that stores a CPU 31, a management server device program 32a, and the like. Communication is performed between the first storage unit 32, the second storage unit 33 configured by an HDD or the like that stores various types of information, and the user terminal device 2 and the information processing device 4 connected via the network 5. The communication IF 34 is configured. These various components are connected to each other via a system bus 35. In the present embodiment, the CPU 31 and the first storage unit 32 constitute a control unit 36.

(About the first storage unit 32)
The first storage unit 32 stores a management server device program 32a for providing the basic functions of the medical information management server 3 as a computer and for causing the medical information management server 3 to function as various means. The management server device program 32a is read by the CPU 31, and the function according to the management server device program 32a is executed by the CPU 31.

  The management server device program 32a may be downloaded to the first storage unit 32 via a communication IF 34, for example, from a server connected to a network, or a recording medium such as a CD-ROM. May be read into the first storage unit 32 via a recording medium drive (not shown).

(About the second storage unit 33)
The second storage unit 33 stores medical information input by the user in the user terminal device 2. Since medical information is generated by a plurality of hospital information systems, each medical information has a different data format. Therefore, in a medical institution, since a plurality of hospital information systems and information systems are used to manage medical information and the like, a plurality of pieces of medical information having different data formats are accumulated in the medical information management server.

(Regarding the controller 36)
The control unit 36 includes the CPU 31 and the first storage unit 32 as described above, and the control unit 36 reads out and executes the management server device program 32a stored in the first storage unit 32 so that the control unit 36 can execute the control unit 36. The medical information management server 3 as a whole is controlled and functions as a communication processing means.

  The communication processing means controls the communication IF 34 to perform medical information transmission / reception processing with the user terminal device 2 or the information processing device 4 via the network.

(Configuration of information processing apparatus 4)
Next, the configuration of the information processing apparatus 4 will be described. FIG. 4 is a diagram illustrating a block configuration of the information processing apparatus 4 in the medical information processing system 1 of the present embodiment.

  The information processing apparatus 4 is an apparatus for generating secondary medical information in which medical information data accumulated in the medical information management server 3 is extracted by connecting desired items. The information processing apparatus 4 can be configured using a general-purpose server computer. As shown in FIG. 4, the information processing apparatus 4 is a first rewritable main storage apparatus that stores a CPU 41, an information processing apparatus program 42a, and the like. To communicate between the storage unit 42, the second storage unit 43 configured by an HDD or the like for storing various information, and the user terminal device 2 or the medical information management server 3 connected via the network 5. Communication IF44. These various components are connected to each other via a system bus 45. In the present embodiment, the CPU 41 and the first storage unit 42 constitute a control unit 46.

(About the first storage unit 42)
The first storage unit 42 stores a basic function of the information processing apparatus 4 as a computer and stores an information processing apparatus program 42a for causing the information processing apparatus 4 to function as various means. The information processing apparatus program 42a is read by the CPU 41, and the function according to the information processing apparatus program 42a is executed by the CPU 41.

  The information processing apparatus program 42a may be downloaded to the first storage unit 42 via a communication IF 44 from, for example, a server connected to a network, or a recording medium such as a CD-ROM. May be read into the first storage unit 42 via a recording medium drive (not shown).

(About the second storage unit 43)
The second storage unit 43 stores secondary medical information generated by processing medical information.

(About the control unit 46)
The control unit 46 includes the CPU 41 and the first storage unit 42 as described above, and the control unit 46 reads out and executes the information processing apparatus program 42a stored in the first storage unit 42 so that the control unit 46 can execute the processing. The information processing apparatus 4 as a whole is controlled overall and functions as information processing means and communication processing means.

  The information processing means combines the medical information data stored in the medical information management server 3, extracts data of a desired item from a plurality of medical information data having different data formats, and connects these extracted data. Generate secondary medical information. Since this secondary medical information is generated by concatenating the data of the extracted items, further detailed information can be extracted from the extracted items by the user's operation on the user terminal device 2.

  The communication processing means controls the communication IF 44 to perform transmission / reception processing of medical information with the user terminal device 2 or the medical information management server 3 via the network.

  As described above, the medical information processing system 1 includes the user terminal device 2, the medical information management server 3, and the information processing device 4, so that the medical information input in the user terminal device 2 is managed as medical information data. Accumulated in the server 3. In the information processing apparatus 4, the medical information data stored in the medical information management server 3 is processed to generate secondary medical information data. And the information based on secondary medical information data is displayed on the display part 26 of the user terminal device 2, and the information displayed on the display part 26 by a user's operation is displayed individually concretely.

  Hereinafter, an embodiment in which the above-described medical information processing system 1 is applied to “electronic medical record analysis” and “regional cooperation system” will be described.

[Example 1]
First, an example in which the medical information processing system 1 is applied to an electronic medical record will be described. In the medical information processing system 1 of the present embodiment, an access log generated by introduction of an electronic medical chart (shown in FIG. 5) is analyzed. That is, an item related to basic patient information is extracted from the electronic medical record as medical information stored in the medical information management server 3, and secondary medical information about the basic patient information extracted from the electronic medical record is generated. Then, on the display unit 26 of the user terminal device 2, access based on the generated secondary medical information, usage graph by day of the week / time zone, usage status by job type, usage status by department, usage status by location, terminal Designing the output of the top 10 users, etc., and performing various analyzes by displaying them in a graph or the like.

  The analysis using the secondary medical information includes, for example, the history display of the accessor and access time of the user terminal device 2, the prevention of unauthorized access, the asset usage frequency analysis of the user terminal device 2, and the collection of unused terminals. , Effective use of user terminal 2 and prevention of meaningless terminal expansion, measurement of hospital stay time, analysis for review of clinics and hospital flow, and time studies (nursing time, care time, recording time) Etc.), team medical situation survey, analysis of hospital / medical staff resource drop time, visualization of medical resource drop for each hospital, and visualization of the efficiency of critical path.

  Hereinafter, a specific processing method will be described. In the medical information processing system 1 according to this embodiment, electronic medical record information as medical information is input to the user terminal device 2. The input electronic medical record information is stored in the medical information management server 3 as electronic medical record information data.

  Next, the information processing device 4 extracts data on items of basic patient information from the electronic medical record information data stored in the medical information management server 3 and connects the extracted data to secondary medical information data. Is generated.

  Next, secondary medical information (see FIGS. 6 to 9) based on the secondary medical information data generated in the information processing device 4 is displayed on the display unit 26 of the user terminal device 2. The displayed secondary medical information includes a plurality of tabs, for example, a main tab and a staff usage status tab.

  As shown in FIG. 6, in the main tab, as the secondary medical information, “use date”, “job system name”, “family name”, “use time”, “Count (patient number)”, “department name” ”,“ Place ”,“ classification in place ”,“ room name ”, etc. are displayed.

  As shown in FIG. 7, “use date” indicates a use date and time when the user terminal device is used. For example, a date and time such as “2010/02/08” is displayed.

  Further, the “job system name” indicates the job system of a staff member belonging to a medical institution, and for example, a job system name such as “ME technician” or “Clark” is displayed.

  “Department name” indicates the department where the used user terminal device is installed. For example, the name of the department such as “ME center” or “rehabilitation” is displayed.

  “Usage time” indicates the usage time of the user terminal device, and for example, usage times such as “00” and “01” are displayed. The unit is time (h).

  Further, as shown in FIG. 8, “Department name” indicates a department in which the used user terminal device is installed, and for example, “3 West”, “3 South”, and the like are displayed.

  The “location” indicates a location where the used user terminal device is installed. For example, a location name such as “day care building” or “lifesaving emergency center” is displayed.

  The “classification in place” indicates the classification of “location” described above, and for example, “first floor”, “3 west”, and the like are displayed.

  The “room name” indicates a medical room in which the used user terminal device is installed. For example, “(0) number photographing room operation room”, “(10) photographing room operation room”, and the like are displayed. Is done.

  In addition, as shown in FIGS. 10 to 13, the usage status tab for each employee includes “use date”, “employee name”, “family name”, “use time”, “department name”, “location”, “ “In-place classification”, “Room name”, “Terminal usage status” are displayed. In addition, “use date”, “employment name”, “family name”, “usage time”, “department name”, “location”, “classification in location”, and “room name” are duplicated, so the explanation is omitted. To do.

  As shown in FIG. 13, “terminal usage status” indicates the usage time of the user terminal device for each staff member.

  Based on the information of the above-mentioned items, output of general access graph, usage graph by day of the week / time zone, usage status by job category, usage status by department, usage status by location, terminal specification, top 10 usage counts, etc. We designed and created graphs from various angles based on various items.

  In this way, by using the medical information system of this embodiment, the accessor, job type, department / department name, identity, access terminal, access time, rough location of the terminal, detailed location, terminal management department, etc. Analysis can be performed. Thereby, it is possible to graph and compare the use time period comparison, the number of occupations according to medical departments, the outpatient department, the ward use comparison, the student use frequency, and the like.

(1. Number of accesses by job type by time zone)
As shown in FIG. 9, for example, when analyzing the number of accesses by job type time zone, the following analysis results can be obtained. In other words, it showed bimodality with a small valley during lunch break, but the nursing department had constant access at night and showed night shift activities. The doctor's access peaked in the morning, but there was a gentle access in the afternoon, and the use gradually increased from 19:00 to 20:00. The office clerk system showed a trapezoidal pattern starting at 8 o'clock and ending at 17:00.

(2. Number of accesses per day by department)
In addition, when analyzing the number of accesses on the day of the week according to the department, the following analysis results can be obtained. In other words, regardless of the outpatient outpatient, all doctors' access was counted and divided for each department. The most common was fire extinguisher surgery, followed by pediatrics and gastroenterology. The distinctive feature was that there were fewer operations on Gastrointestinal Internal Medicine and Cardiology on Sunday compared to the high access on Gastrointestinal Surgery on Sunday. The lifesaving center had the smallest difference from holidays and seemed to be always in medical care. However, since the total number of accesses is related to the number of doctors and the number of hospitalized beds, the number of accesses per doctor is not high.

(3. School of Medicine, Department of Nursing, Pharmacist Practice Comparison)
In addition, the following analysis results can be obtained when comparing the medical department, the nursing department, and the pharmacist practical training. In other words, students were used in the order of the most frequent access: nursing department> drug practice> medical students. ○ × The hospital is outpatient treatment on Saturday and there is a doctor's access as a matter of course, but the student has no access because the weekend is closed. Exceptional medical students' use at night and early morning reflected ward training, including first aid.

  Thus, according to the medical information processing system 1 according to the present embodiment, the accessor, job title, department / department name, identity, access terminal, access time, rough location of the terminal, detailed location, terminal management department Etc. can be analyzed.

  As a result, it is possible to display in an easy-to-understand manner how the electronic medical record use time and day of the week differ depending on the department or department, and the tendency of the work situation. Also, from the viewpoint of the terminal installation location, the usage density and time zone, the tendency of the occupations that use it can be presented in a graph, and it can be used to optimize the arrangement and number of terminals.

  In this way, when analyzing an enormous amount of medical information, the process of repeated data filtering, re-extraction and re-uptake is eliminated, and an environment that can be drawn in a graph at a stretch is obtained. From the above question to the confirmation of the analysis result is shortened, the PDCA cycle moves effectively, and a useful result can be obtained.

  In addition, by introducing a system that is easy to handle and flexible even for users who do not have special knowledge of information processing, it is possible to answer the detailed demands of each site and improve the level of analysis at the site. It can contribute to hospital management and improvement of medical care.

[Example 2]
Next, an example in which the medical information processing system 1 is applied to regional cooperation analysis will be described as another embodiment. As shown in FIGS. 14-15, in a present Example, based on the introduction patient basic information produced | generated by the regional cooperation system as medical information, the number of patients classified by area of the patient introduced to the medical institution is visualized. .

  In the medical information processing system of the present embodiment, introduction patient basic information in the regional cooperation system is input as medical information. As this referral patient basic information, as shown in FIGS. 16 to 18, there are a patient name, ID, date of birth, sex, date of introduction, referral source medical facility, clinical department, and patient address zip code.

  In the medical information processing system of this example, the number of patients introduced by year, age distribution, number of departments by medical department, number of cases by referral medical facility, number of patients by area by postal code using map drawing software using the Internet, etc. To display and visualize. Thereby, the following analysis can be performed.

(4.1 Number of patients referred by year)
For example, as shown in the column A of FIG. 14 and the column A of FIG. 15, when analyzing the number of patients introduced by year, the following analysis results can be obtained. In other words, the number of referral patients has increased year by year, and the number of referral patients in the future could be estimated using an approximate curve. Also, depending on the department, the number of referral patients varied greatly from year to year, which was thought to be due to the transfer of doctors.

(4.2 Number of patients introduced by clinical department)
Moreover, when analyzing the number of patients introduced by medical department, the following analysis results can be obtained. That is, as shown in the B column of FIG. 14 and the B column of FIG. 15, the top five clinical departments for referral patients are orthopedics, pediatrics, obstetrics / gynecology, otolaryngology, and ophthalmology, and there is a large variation even by year. There was no.

(4.3 Age distribution)
Age distribution patterns differed greatly depending on the department.
As shown in the column C in FIG. 14 and the column C in FIG. 15, the unimodality has a peak in the 30s, the gynecology department, the bimodality has no liver, collagen disease internal medicine or cardiovascular internal medicine, and no peak is seen. Was a dermatology critical care center.

(4.4 Number of referral medical facilities)
When analyzing the number of cases by referral medical facility, the following analysis results can be obtained. That is, as shown in the D column of FIG. 14 and the D column of FIG. 15, referrals from neighboring core hospitals occupied the top. The referrals from clinics and clinics are fixed every year, with many referrals to dialysis, gastroenterology, obstetrics and gynecology, pediatrics, and cardiovascular medicine.

(4.5 Number of patients referred by area)
In addition, when analyzing the number of patients introduced by area, the following analysis results can be obtained. That is, as shown in the E column of FIG. 14 and the E column of FIG. 15, the latitude and longitude are obtained from the zip code of the patient address and developed on the map drawing software, and the number of the same position points is shown in a bubble chart. . Overall, it was introduced mainly in the southwestern part of △ □ city and XX Maehara area, but there were many introductions from XX and □□, and the land pattern of △ □ was also considered.

  Thus, according to the medical information processing system according to the present embodiment, the number of patients introduced by year, the age distribution, the number of cases by clinical department, the number of cases by introduction medical facility, and the postal code using the map drawing software using the Internet. By displaying and visualizing the number of patients by area with a graph or the like, it is possible to make secondary use of the introduced patient basic information of the regional cooperation system.

  The present invention has been described with reference to the embodiment and the first and second examples. However, the present invention is not limited to this embodiment, and various modifications can be made. For example, the application of the medical information processing system according to the present invention is not limited to electronic medical record analysis and regional medical cooperation, and can be applied to, for example, hospital management analysis, DPC analysis, and inventory management. Alternatively, it is possible to analyze drugs by visualizing information such as side effects of drugs, drugs applied according to age, diversion drugs, and drug ingestion.

DESCRIPTION OF SYMBOLS 1 Medical information processing system 2 User terminal device 3 Medical information management server 4 Information processing device 5 Network 21, 31, 41 CPU
22, 32, 42 First storage unit 22a User terminal device program 23, 33, 43 Second storage unit 24, 34, 44 Communication IF
25 Operation unit 26 Display unit 27, 35, 45 System bus 28, 36, 46 Control unit 32a Management server device program 42a Information processing device program

Claims (2)

A user terminal device for inputting medical information;
A medical information management server for storing a plurality of the medical information;
An information processing apparatus that extracts desired items from a plurality of pieces of medical information stored in the medical information management server, and generates secondary medical information by connecting the extracted items to each other;
A network connecting the medical user terminal device, the medical information management server, and the information processing device to each other;
The user terminal device
An operation unit for inputting medical information;
A display control unit for displaying the secondary medical information,
The medical information processing system, wherein the display control unit displays the secondary medical information individually and specifically by operation of the operation unit.   The medical information processing system according to claim 1, wherein the medical information includes a plurality of pieces of information having different data formats.

Images