1. Field of the Invention
The present invention relates to a medical support device, a method for controlling the medical support device, and a medical support system that analyze effects of introduction of a medical material.
2. Description Related to the Prior Art
In recent years, in medical institutions such as hospitals, a clinical path is introduced in order to improve the quality and efficiency of medical care. The clinical path is a medical care schedule table in a chart form that represents standardized medical care content for each disease. Since a plurality of medical care scheduled items such as medical examination, treatment, and test are set along a time axis according to a type of disease in the clinical path in advance, it is possible to simply create a medical care schedule of a patient. Since medical care items necessary for each disease become clear due to the clinical path, the quality and efficiency of the medical care is improved by performing medical care of the patient based on the clinical path. Further, the clinical path is used for confirmation of the medical care scheduled items. Further, medical care information on specific content, results, or the like of medical examination, treatment, and test performed on the patient is recorded in the clinical path, which is also used for management of medical care record of the patient.
In medical institutions, a medical material such as a medical device or a drug is newly introduced, or an old medical material is appropriately replaced with a new one. Since the new medical material has been enhanced as compared with a conventional one, various introduction effects such as a decrease in the number of days of hospitalization or the number of days of hospital visit, and normalization of test results of medical test can be obtained. Thus, in a case in which a new medical material has been introduced, content of a medical care scheduled item of a clinical path or a medical care schedule is changed according to the new medical material.
Incidentally, in medical institutions, in a case in which a new medical material is introduced, quantifying the introduction effects has conventionally been desired. If the introduction effects of the medical material can be quantified, the introduction effects can be referred to, for example, when it is determined whether the introduction results are good or when a new medical material is introduced. JP2001-319041A discloses a management support system that data-analyzes record information collected from a medical institution using a benchmarking scheme and provides a result of the analysis to the medical institution. In this management support system, the average number of days of hospitalization of a patient can be presented as a result of the data analysis so that the average number can be compared with that in another hospital. For example, if the average numbers of days of hospitalization before and after introduction of a medical material are compared, effects of introduction of a new medical material can be recognized.
In the management support system disclosed in JP2001-319041A, various information such as receipt information, discharge summary, payroll data, income data, ordering data, and electronic medical record data is collected as record information, and this record information is analyzed in order to obtain the average number of days of hospitalization. Accordingly, since the average number of days of hospitalization obtained as a result of analysis of the record information is changed according to a medical skill of a doctor or a nurse responsible for medical care or a type of a selected method of treatment, accurate introduction effects of a medical material cannot be analyzed in the management support system in JP2001-319041A.
An object of the present invention is to provide a medical support device, a method for controlling the medical support device, and a medical support system capable of analyzing effects of introduction of a newly introduced medical material.
In order to solve the above problem, a medical support device of the present invention includes a material correspondence information storage unit, a clinical path information storage unit, an operation reception unit, a material search unit, a clinical path information search unit, a record information acquisition unit, and an introduction effect analysis unit. In the material correspondence information storage unit, identification information of a first medical material and identification information of a second medical material used prior to introduction of the first medical material are stored in association with each other. In the clinical path information storage unit, clinical path information including a medical care schedule of a patient, medical care information on medical care performed on the patient, and the identification information of the first medical material or the second medical material used for the medical care as one of the medical care information is stored. The operation reception unit receives an analysis request of introduction effects of the first medical material on a clinical path display screen on which the medical care schedule, the medical care information, and the identification information of the first medical material as one of the medical care information are displayed. The material search unit searches for the second medical material corresponding to the first medical material received by the operation reception unit from the material correspondence information storage unit. The clinical path information search unit searches for first clinical path information in which the first medical material received by the operation reception unit is used for medical care, and second clinical path information in which the second medical material searched for by the material search unit is used for medical care from the clinical path information storage unit. The record information acquisition unit acquires first record information and second record information indicating treatment effects of the first medical material and the second medical material from the first clinical path information and the second clinical path information. The introduction effect analysis unit compares the first record information with the second record information to analyze the effects of introduction of the first medical material.
It is preferable for the clinical path information to be classified for each disease name or attribute of the patient in the clinical path information storage unit. It is preferable for the clinical path information search unit to search for the first clinical path information and the second clinical path information for each attribute. It is preferable for the record information acquisition unit to acquire the first record information and the second record information for each attribute. It is preferable for the introduction effect analysis unit to analyze the effects of introduction of the first medical material for each attribute.
It is preferable for the first record information and the second record information to be any one of the number of days of hospitalization, the number of days of hospital visit, and a test value of medical test performed on the patient. It is preferable for the introduction effect analysis unit to divide the second record information by the first record information to obtain the effects of introduction of the first medical material relative to the second medical material. It is preferable for the attribute of the patient to include at least one of gender, age, and a body measurement value.
It is preferable for the medical support device to further include a screen creation unit that creates the clinical path display screen and an introduction effect display screen on which introduction effects of the first medical material are displayed. It is preferable for the screen creation unit to create a graph in which the first record information and the second record information are compared with each other, and display the graph on the introduction effect display screen. The screen creation unit may display values of the first record information and the second record information together with the graph. It is preferable for the medical support device to further include a distribution unit that distributes the clinical path display screen and the introduction effect display screen to a client terminal connected over a network.
A method for controlling a medical support device of the present invention analyzes effects of introduction of a first medical material through a comparison with a second medical material used prior to the introduction of the first medical material. The method of controlling a medical support device includes an operation reception step, a material search step, a clinical path information search step, a record information acquisition step, and an introduction effect analysis step. The operation reception step receives an analysis request of the introduction effects of the first medical material on a clinical path display screen on which clinical path information including a medical care schedule of a patient, medical care information on medical care performed on the patient, and identification information of the first medical material or the second medical material used for the medical care as one of the medical care information is displayed. The material search step searches for the second medical material corresponding to the first medical material received in the operation reception step from a material correspondence information storage unit in which identification information of the first medical material and identification information of the second medical material are stored in association with each other. The clinical path information search step searches for first clinical path information in which the first medical material received in the operation reception step is used for medical care, and second clinical path information in which the second medical material searched for in the material search step is used for medical care, from a clinical path information storage unit in which the clinical path information is stored. The record information acquisition step acquires first record information and second record information indicating treatment effects of the first medical material and the second medical material from the first clinical path information and the second clinical path information. The introduction effect analysis step compares the first record information with the second record information to analyze the effects of introduction of the first medical material.
A medical support system of the present invention includes a medical support device, and a client terminal connected to the medical support device over a network. The medical support device includes a screen distribution unit that distributes a clinical path display screen to the client terminal, and an analysis result distribution unit that distributes results of the analysis of the introduction effects to the client terminal, in addition to a material correspondence information storage unit, a clinical path information storage unit, an operation reception unit, a material search unit, a clinical path information search unit, a record information acquisition unit, and an introduction effect analysis unit.
According to the present invention, it is possible to acquire treatment effects of the newly introduced first medical material and treatment effects of the second medical material used prior to introduction of the first medical material from the clinical path information, and analyze the effects of introduction of the first medical material by comparing the acquired treatment effects. In the clinical path information, since content of the medical care scheduled item or the medical care schedule is changed due to the introduction of the new first medical material, it is possible to analyze accurate introduction effects of the first medical material by using treatment effects acquired from the clinical path information.
For more complete understanding of the present invention, and the advantage thereof, reference is now made to the subsequent descriptions taken in conjunction with the accompanying drawings, in which:
A medical support system 10 illustrated in
The medical support system 10 includes a medical support device 11 that manages the clinical path information, and a plurality of client terminals 12 used for, for example, viewing of the clinical path information. The medical support device 11 and the client terminals 12 are connected by a network 13 built by an intranet.
The medical support device 11 is, for example, a desktop type personal computer in which an application program for performing management of the clinical path information has been installed. The medical support device 11 is installed in, for example, an information processing room of a medical institution. The medical support device 11 has a function of receiving login or logout from the client terminal 12, a function of creating, updating, and deleting the clinical path information in response to a request from the client terminal 12, and a function of analyzing effects of introduction of the medical material. Further, the medical support device 11 has, for example, a function of creating a clinical path display screen in which the clinical path information is displayed, and an introduction effect display screen in which introduction effects of a medical material is displayed, and distributing the screen to the client terminal 12. The medical material refers to various medical devices, medical products, or drugs.
The client terminal 12 is, for example, a desktop type personal computer in which an application program used for viewing of the clinical path information has been installed. A plurality of client terminals 12 are installed, for example, in each medical care department or each medical care room, and are used, for example, for the medical staffs such as doctors and nurses to view the clinical path information. The client terminal 12 includes a terminal body 12a including, for example, a CPU, a memory, and a data storage, a display 12b, and an input device 12c including a mouse or a keyboard. The client terminal 12 includes a function of logging in and out the medical support device 11, a function of requesting the medical support device 11 to, for example, create, update, and delete the clinical path information, and a function of requesting analysis of the effects of introduction of a medical material. Further, the client terminal 12 includes a function of displaying the clinical path display screen and the introduction effect screen distributed from the medical support device 11 on the display 12b, and a function of performing an updating operation for the clinical path information.
As illustrated in
The storage device 21 is a device that stores various data and includes, for example, a hard disk drive. Various programs such as an operating system (not illustrated) or a medical support program 26 for causing the computer to function as the medical support device 11 are stored in the storage device 21.
The memory 20 is a work memory used for the CPU 19 to execute a process. The CPU 19 loads the operating system stored in the storage device 21 into the memory 20, and executes the process according to the program to generally control each unit of the computer. The communication I/F 22 is a communication interface that connects to the network 13 and communicates with each client terminal 12.
Various databases (hereinafter, the database is referred to as DB), such as a user information database 29, a path template information DB 30, a clinical path information DB 31, and a material correspondence information DB 32, are also stored in the storage device 21.
As illustrated in
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As illustrated in
When the clinical path information is created, a patient information DB, a staff information DB, or the like may be stored in the storage device 21 in order to simplify input of patient information or information on staffs such as doctors or nurses. Further, various databases such as the user information DB 29, the path template information DB 30, the clinical path information DB 31, and the material correspondence information DB 32 may be stored in an external data server connected to the medical support device 11.
As illustrated in
The operation reception unit 40 receives various operations of the medical support device 11 by the client terminal 12. In a case in which the operation reception unit 40 receives a login request from the client terminal 12, the operation reception unit 40 distributes a login screen with an input field of a user ID and password to the client terminal 12 which is a request source. Further, the operation reception unit 40 receives the user ID and password input in the login screen.
The authentication unit 41 determines, through search, whether or not an ID and a password of the user input in the login screen exist in the user information DB 29. The authentication unit 41 authenticates the client terminal 12 in a case in which the input user ID and the input password are found from the user information DB 29, and transmits non-authentication notification without authenticating the client terminal 12 in a case in which the input user ID and the input password are not found.
In a case in which the client terminal 12 has logged in, the operation reception unit 40 distributes a menu screen in which operation buttons for creation, updating, deletion, viewing, or the like of the clinical path information 31a are provided, to the client terminal 12. If the menu screen is operated in the client terminal 12, an operation signal representing content of the operation is input to the operation reception unit 40.
In a case in which the creation button is operated in the menu screen, the operation reception unit 40 distributes a clinical path creation screen to the client terminal 12. Input fields of patient name and ID, date of birth, gender, name of disease, attendant doctor name and ID, attendant nurse name and ID, medical care start date, and the like are provided in the clinical path creation screen. Various information input in the clinical path creation screen is transmitted from the client terminal 12 to the medical support device 11 and input to the operation reception unit 40.
Further, in a case in which the updating button or the viewing button is operated in the menu screen, the operation reception unit 40 distributes a clinical path updating screen or a viewing screen to the client terminal 12. Input fields in which a path ID, a patient name and a patient ID, an attendant doctor name and doctor ID, an attendant nurse name and nurse ID, and the like can be input are provided in the clinical path updating screen or the viewing screen so that the clinical path information 31a can be searched for from the clinical path information DB 31 in various aspects. Various information input in the clinical path updating screen and the viewing screen is transmitted from the client terminal 12 to the medical support device 11 and input to the operation reception unit 40.
The operation reception unit 40 receives an updating operation from the client terminal 12 at the time of updating of the clinical path information 31a. For example, an input of medical care information on the medical care performed on the patient is included in this updating operation, in addition to change, addition, and deletion of the medical care scheduled item for the medical care schedule. Identification information of the new medical material or the old medical material used for medical care is also included in the input medical care information. Further, the operation reception unit 40 receives a selection of the new medical material of which the introduction effects are analyzed, and an analysis request in the clinical path display screen.
The clinical path information management unit 42 performs creation, updating, deletion, or the like of the clinical path information 31a. In a case in which the operation reception unit has received a creation request for the clinical path information 31a, the clinical path information management unit 42 creates the clinical path information 31a using the path template information 30a stored in the path template information DB 30 based on various information input to the clinical path creation screen. The created clinical path information 31a is stored in the clinical path information DB 31 and classified based on the disease name and the patient attribute.
In a case in which the operation reception unit 40 has received an updating request for the clinical path information 31a, the clinical path information management unit 42 searches the clinical path information DB 31 based on various information input to the clinical path updating screen, reads the created clinical path information 31a, and updates the clinical path information 31a according to the updating operation from the client terminal 12. The updated clinical path information 31a is stored in the clinical path information DB 31.
Further, in a case in which the operation reception unit 40 has received a viewing request for the clinical path information 31a, the clinical path information management unit 42 searches the clinical path information DB 31 based on various information input to the clinical path viewing screen, and reads the created clinical path information 31a.
The screen creation unit 43 performs creation of a clinical path display screen and an introduction effect display screen. In a case in which the operation reception unit 40 has received a creation request for the clinical path information 31a, the screen creation unit 43 creates the clinical path display screen based on the created clinical path information 31a. Further, in a case in which the operation reception unit 40 has received an updating request or a viewing request for the clinical path information 31a, the screen creation unit 43 creates a clinical path display screen based on the created clinical path information 31a. In a case in which the operation reception unit 40 has received an analysis request for introduction effects of the new medical material, the screen creation unit 43 creates the introduction effect display screen based on the analysis result.
The distribution unit 44 is a screen distribution unit and an analysis result distribution unit of the present invention, and distributes the clinical path display screen and the introduction effect display screen created by the screen creation unit 43 to the client terminal 12 over the network 13. For example, in a case in which the same clinical path information 31a and the same introduction effect display screen are viewed in a plurality of client terminals 12, the distribution unit 44 distributes the same clinical path display screen and the same introduction effect display screen to the respective client terminals 12. Further, in a case in which different clinical path information 31a and different introduction effect display screens are viewed in a plurality of client terminals 12, the distribution unit 44 distributes the different clinical path display screens and different introduction effect display screens to the respective client terminals 12.
The material search unit 45, the clinical path information search unit 46, the record information acquisition unit 47, and the introduction effect analysis unit 48 are used to analyze the effects of introduction of a new medical material. As illustrated in
The clinical path information search unit 46 searches for the first clinical path information in which the new medical material included in the analysis request is used for medical care, and the second clinical path information in which the old medical material searched for by the material search unit 45 is used for medical care from the clinical path information DB 31. This search is performed for each of the large classification 35, the middle classification 36, and the small classification 37 of the clinical path information 31a. Accordingly, in a case in which the new medical material and the old medical material are used for a plurality of diseases such as stroke, myocardial infarction, and gastric cancer, the first clinical path information and the second clinical path information are searched for the middle classification 36 and the small classification 37 of each large classification 35 for each large classification 35 corresponding to each disease.
The record information acquisition unit 47 acquires first record information and second record information indicating treatment effects of the new medical material and the old medical material from the first clinical path information and the second clinical path information that have been searched for. For example, the number of days of hospitalization of the patient is used as the first record information and the second record information. The record information acquisition unit 47 specifies hospitalization date and discharge date from the medical care schedule of the first clinical path information and the second clinical path information, and acquires the number of days of the hospitalization from the hospitalization date to the discharge date as the first record information and the second record information. The acquisition of the first record information and the second record information is performed for each of the large classification 35, the middle classification 36, and the small classification 37 of the clinical path information 31a.
The introduction effect analysis unit 48 compares the first record information with the second record information to analyze the effects of introduction of the new medical material. Specifically, the introduction effect analysis unit 48 calculates an average of the first record information and the second record information, that is, the average number of days of hospitalization for each of the large classification 35, the middle classification 36, and the small classification 37 of the clinical path information 31a. Then, the introduction effect analysis unit 48 divides the average number of days of hospitalization of the old medical material by the average number of days of hospitalization of the new medical material, and calculates a rate of decrease in the average number of days of hospitalization of the new medical material to the old medical material as the effects of introduction of the new medical material. Results of the analysis of the introduction effect analysis unit 48 are input to the screen creation unit 43.
As illustrated in
A storage button 51a, a deletion button 51b, an analysis button 51c, and an end button 51d are provided in an upper right portion of the clinical path display screen 51. The storage button 51a is operated in a case in which the clinical path information 31a displayed on the clinical path display screen 51 is stored in the clinical path information DB 31. The deletion button 51b is operated in a case in which the clinical path information 31a displayed on the clinical path display screen 51 is deleted from the clinical path information DB 31. The end button 51d is operated in a case in which end is performed without storing the clinical path information 31a displayed on the clinical path display screen 51 in the clinical path information DB 31. The analysis button 51c is operated when the effects of introduction of a new medical material is analyzed.
The medical care schedule table 52 is a schedule table in a chart form in which a plurality of medical care scheduled items are arranged along a time axis arranged on a horizontal axis. A plurality of date fields 55 in which date on which the medical care of the patient is performed and a medical care situation of the patient on that date are recorded are provided in the time axis. The medical care situation represents the progress of the medical care, such as “hospitalization (day before surgery)”, “day of surgery”, “N number of days after surgery”, and “hospital discharge”.
Under each date field 55, a plurality of medical care item fields 57 are provided in which medical care scheduled items set for each disease according to the standard medical care schedule of the path template information 30a and the medical care information on the performed medical care are provided. This medical care item fields 57 are divided into, for example, a plurality of medical care items such as “medical examination”, “treatment, medical action, and drug”, “test”, and “observation and record”, as illustrated in a plurality of heading fields 58 to the left. Each medical care item field 57 is divided into two upper and lower stages. The upper stage is the scheduled item field in which the medical care scheduled items are displayed, and the lower stage is a medical care information field in which the medical care information is displayed.
For example, the medical care scheduled item “medical examination before hospitalization” is displayed in a scheduled item field 57a of the medical care item field 57 corresponding to the medical care situation “hospitalization (day before surgery)” and the medical care item “medical examination”, and medical care information “no problem” which is a result of the medical examination before hospitalization is displayed in a medical care information field 57b. The medical care scheduled item “X-ray imaging” is displayed in a scheduled item field 57c of the medical care item field 57 corresponding to the medical care situation “hospitalization (day before surgery)” and the medical care item “test”, and medical care information, a model name “XR100C” of the new medical material used for X-ray imaging, is displayed in a medical care information field 57d. Further, a medical care scheduled item “vital” is displayed in a scheduled item field 57e of a medical care item field 57 corresponding to the “hospitalization (day before surgery)” of the medical situation and “observation and record” of the medical care item, and vital data such as body temperature (BT), pulse rate (P), and blood pressure (BP) is displayed in the medical care information field 57f. Thus, a model name of the medical material used for medical care is also displayed in the medical care information field, in addition to the medical care result.
Since the medical care schedule table 52 can be scrolled in a horizontal direction by a scroll bar 52a provided in a lower portion, it is possible to cope with disease with a large number of medical care days. Further, since the medical care schedule table 52 can be scrolled in a vertical direction by a scroll bar 52b provided at a right end, it is possible to cope with disease with a large number of medical care scheduled items. Therefore, in a case in which there are further medical care item fields under “observation and record”, it is possible to review all the medical care item fields by scrolling the medical care schedule table 52.
A medical care scheduled item and medical care information from the client terminal 12 can be input to the scheduled item field and the medical care information field of each medical care item field 57. When the medical care information field is double-clicked with a mouse constituting the input device 12c of the client terminal 12, the medical care information input screen 61 illustrated in
Further, although not illustrated in detail, it is possible to input the medical care scheduled item in the scheduled item field of each medical care item fields 57 in the same procedure as the medical care information field. In a case in which the medical care scheduled item based on the standard medical care schedule is input to the scheduled item field in advance, it is possible to correct or delete the medical care scheduled item.
In a case in which the effects of introduction of a new medical material is analyzed, a medical care information field in which identification information of the new medical material is displayed on the clinical path display screen 51 is selected by the mouse, and the analysis button 51c on an upper right portion of the screen is operated. Then, analysis of the effects of introduction of the selected new medical material is performed by the material search unit 45, the clinical path information search unit 46, the record information acquisition unit 47, and the introduction effect analysis unit 48 described above, and an introduction effect display screen is created by the screen creation unit 43.
The graph 65 is a bar graph in which an average number of days of hospitalization and each classification are set in a vertical axis and a horizontal axis. The average numbers of days of hospitalization for the new medical material and the old medical material input from the introduction effect analysis unit 48 is displayed for each of the large classification 35, the middle classification 36, and the small classification 37 of the clinical path information 31a. Further, a scroll bar 65a for scrolling the graph 65 in a horizontal direction is provided in a lower portion of the graph 65 so that the effects of the introduction of each of a large number of classifications can be displayed.
In the table 66, the new medical material, the old medical material, and the introduction effects are set on a vertical axis, and each classification is set on a horizontal axis. The average number of days of hospitalization of each classification input from the introduction effect analysis unit 48 is displayed in a cell corresponding to each classification of the new medical material and the old medical material of the table 66. Further, a rate in a decrease the average number of days of hospitalization for the new medical material to the old medical material, which is obtained by dividing the average number of days of hospitalization of the old medical material by the average number of days of hospitalization for the new medical material, is displayed in a cell corresponding to the introduction effects. Further, a scroll bar 66a for scrolling the table 66 in a horizontal direction is provided in a lower portion of the table 66 so that the effects of the introduction of each of a large number of classifications can be displayed. Thus, in the introduction effect display screen 64, since the effects of introduction of the new medical material can be confirmed through the graph 65 and the table 66, it becomes easy to contrast or comparison of the introduction effects.
A button 64b for returning from the introduction effect display screen 64 to the original clinical path display screen 51 is provided in an upper right portion of the introduction effect display screen 64. Further, an end button 64c for ending, for example, viewing of the clinical path information is also provided adjacent to the button 64b.
Next, an operation of the above embodiment will be described with reference to
The material search unit 45 searches the material correspondence information DB 32, and specifies the old medical material corresponding to the identification information of the new medical material included in the analysis request (S11). The clinical path information search unit 46 searches for the first clinical path information in which the new medical material included in the analysis request is used for medical care, and the second clinical path information in which the old medical material searched for by the material search unit 45 is used for medical care from the clinical path information DB 31 for each of the large classification 35, the middle classification 36 and, the small classification 37 of the clinical path information DB 31 (S12).
The record information acquisition unit 47 acquires the number of days of hospitalization representing treatment effects of the new medical material and the old medical material as the first record information and the second record information from the first clinical path information and the second clinical path information that have been searched for (S13). The introduction effect analysis unit 48 analyzes the introduction effects of the new medical material for each of the large classification 35, the middle classification 36, and the small classification 37 of the clinical path information DB 31 (S14). Specifically, the introduction effect analysis unit 48 calculates an average of each of the first record information and the second record information, that is, each of average numbers of days of hospitalization, and divides the average number of days of hospitalization of the old medical material by the average number of days of hospitalization of the new medical material to calculate a rate of a decrease in the average number of days of hospitalization of the new medical material to the old medical material as introduction effects of the new medical material.
The screen creation unit 43 creates the introduction effect display screen 64 based on the analysis result of the introduction effect analysis unit 48 (S15). The distribution unit 44 distributes the created introduction effect display screen 64 to the client terminal 12 (S16).
According to the above embodiment, it is possible to acquire treatment effects of the newly introduced new medical material and treatment effects of the old medical material used prior to introduction of the new medical material from the clinical path information 31a, and analyze the effects of introduction of the new medical material by comparing the acquired treatment effects. In the clinical path information 31a, since content of the medical care scheduled item or the medical care schedule is changed due to the introduction of the new medical material, it is possible to analyze accurate introduction effects of the new medical material by using treatment effects acquired from the clinical path information 31a. The analyzed introduction effects can be referred to, for example, when it is determined whether the introduction results are good or when a new medical material is introduced.
While the clinical path information DB 31 is classified into the large classification 35 of each disease, the middle classification 36 for each patient attribute, and the small classification 37 of each content of the attribute in advance, and the introduction effects are analyzed for each classification in the above embodiment, the clinical path information 31a may be stored in the clinical path information DB 31 without being classified. In this case, when the analysis of the introduction effects is requested, the large classification 35, the middle classification 36, and the small classification 37 described above may be designated as analysis conditions and the analysis may be performed according to the analysis conditions.
While the number of days of hospitalization has been used as the record information representing the treatment effects, the number of days of hospital visit, a test value for medical test, or the like may be used. Further, while the ratio of the weight/height has been used as a body measurement value for classifying the clinical path information, a blood pressure, a blood glucose level, and other test values may be used as classification items according to disease.
Although the present invention has been fully described by the way of the preferred embodiment thereof with reference to the accompanying drawings, various changes and modifications will be apparent to those having skill in this field. Therefore, unless otherwise these changes and modifications depart from the scope of the present invention, they should be construed as included therein.
Number | Date | Country | Kind |
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2013-204299 | Sep 2013 | JP | national |
This application is a Continuation of PCT International Application No. PCT/JP2014/074387 filed on Sep. 16, 2014, which claims priority under 35 U.S.C. §119(a) to Japanese Patent Application No. 2013-204299 filed Sep. 30, 2013. The above application is hereby expressly incorporated by reference, in its entirety, into the present application.
Number | Date | Country | |
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Parent | PCT/JP2014/074387 | Sep 2014 | US |
Child | 15083627 | US |