JP2541954B2 - Processing method in inspection data processing equipment - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to an inspection data processing method in a processing device for processing inspection data.

[Prior Art] Conventionally, there is only a medical chart owned by a doctor as a method for managing the test values that a patient has undergone a medical examination, and it is not easy to grasp the history of past health conditions. There wasn't. Further, although it is considered that the inspection values are recorded in a storage medium, these are merely recorded inspection values, and it is difficult to utilize them effectively.

[Object] The present invention has been made in view of the above points, and provides a processing method in an inspection data processing device that facilitates searching for desired inspection data and can display the searched inspection data in an optimum method. That is the purpose.

That is, the present invention is an inspection data process for processing inspection data indicating inspection results in a plurality of inspection items recorded in a storage medium and inspection result determination data indicating determination results determined according to the values of each inspection data. In the processing method of the device, a reading step of reading the inspection result determination data from the storage medium, a first display step of displaying the read inspection result determination data as a matrix of inspection time and inspection items on a display device, A recognition step for recognizing a position in the matrix indicated by an operator, a search step for searching a plurality of inspection data corresponding to the recognized position, and a plurality of searched inspection data in the specified matrix A second display step of displaying on the display device in the form of a table or a graph according to the position of
And a processing method in an inspection data processing device having

Embodiments Embodiments of the present invention will be described in detail below with reference to the drawings.

1 to 13 show an embodiment of the present invention, and FIG. 1 is a perspective view showing the configuration of the system. 1-1 is a central processing unit of a terminal or work station, 1-2 is a display unit (CRT display), 1-3 is a printing device, 1-4 is an input keyboard, and 1-5 is a cursor on the CRT. Pointing device for moving the
Reference numeral -6 denotes an optical card read / write device which records data stored in the memory of the central processing unit (1-1) on the optical card, or conversely, records data on the optical card. Central processing unit (1-1) by reading data
It has a function to transfer to. An optical card 1-7 is used for recording and reading data.

FIG. 2 is a block diagram showing the configuration of the system shown in FIG. The same parts as those in FIG. 1 are designated by the same reference numerals. 2-1 is a CPU that controls the central processing unit (1-1) as a whole, 2-2 is a keyboard controller that controls the input from the keyboard (1-4), 2-3 is an optical card read / write device ( 1-6), an interface for controlling input / output data, 2-4 is a printer controller for controlling the printer (1-3), 2-5
Is a memory that temporarily stores data and the like and serves as a work area of the CPU (2-1), and includes a ROM storing a control program of the CPU (2-1). 2-6
Is a timer calendar backed up by a battery, which electronically measures a clock from an internal oscillator and informs the CPU (2-1) of time information. 2-
7 is a hard disk controller for controlling the hard disk drive 2-8, 2-9 is a floppy disk controller for controlling the floppy disk drive 2-10, and 2-11 is control display data to the CRT (1-2). A CRT controller 2-12 is a VRAM (video random access memory) for developing data to be displayed on the screen of the CRT (1-2) on a bit map. In addition, data indicating the amount of movement of the cursor is sent from the pointing device (1-5) to the CPU (2-1) via the keyboard (1-4), and the CPU (2-1) performs processing based on the data. Controls the display position of the cursor on the CRT.
2-13, a CPU for controlling the optical card read / write device (1-6); 2-14, an interface for controlling input / output data with the central processing unit (1-1); 2-15, various drive circuits In order to write information at a certain address on the optical card or to read information from a certain address on the optical card, various operations such as movement of a read / write head and transfer means of the card are performed.

FIG. 3 is a diagram showing the structure of an optical card data recording format. 3-1 indicates a card substrate, and the first
This corresponds to 1-7 in FIG. Reference numeral 3-2 indicates a recording area in which data is recorded by laser light. 3-3 is the first
After showing the area of the data (DATA-1) recorded the third time, the data is recorded up to DATA-n in the area from the bottom to the top of the card from the second time, the third time to the nth time. -4, 3-5, 3-6. The recording addresses of these recording data on the card are indicated by AD-1-1 to AD-n-1 at 3-7 to 3-10, respectively. The hatched portions 3-15 and 3-16 have addresses AD-1-2, AD-1-3, and AD-2- of the recording data in the same manner as 3-7 to 3-10.
2, Δ, AD-n-3, etc. are recorded. 1 like this
A plurality of addresses are assigned to the recording data of the times. D-1 to dn represented by 3-11 to 3-14
Is called a directory, and when calling out any information recorded on the card, its data address (AD-
1-1 to AD-n-3) are used, and are recorded each time data (3-3 to 3-6) is written to the card. The structure of the directory according to the present invention is as shown in FIG.

4 corresponds to each of d-1 to dn (3-11 to 3-14) in FIG. 4-1 to 4-6 show examples of the internal structure of one directory. A file name including date information such as an inspection date is written in 4-1 and an address (3-7 to 3-10 in FIG. 3) of data belonging to the equal directory on the optical card is written in 4-2. Either) is written. 4-3 to 4-6, a code "1" indicating whether the inspection result of the item to be inspected is "normal", "caution", "abnormal", or "no data (not inspected)" , "2", "3", "0", etc., respectively.

Next, the present invention will be described by taking an example of recording and retrieving patient's health history data in the above configuration.

First, a doctor in charge (hereinafter simply referred to as a doctor) operating the system shown in FIG. 1 inputs an instruction to start a health history management program to the keyboard (1-4),
The health history management application program stored in the floppy disk (2-10) or the hard disk (2-8) is transferred (loaded) to the memory (2-5).

Next, read the optical card (1-7) that the individual patient's personal health history is recorded on.
It is inserted into the writing device (1-6) to read the directories d-1 to dn (3-11 to 3-14) of the optical card,
This is shown in the interface (2-14 and 2) shown in FIG.
-3) to the memory (2-5). When the transfer of all directories is completed, the application program in the memory (2-5) displays the fifth screen on the screen of the CRT (1-2) via the CRT controller (2-11).
A search screen as shown in the figure is displayed. At this time, VRAM (2-
In 12), memory development equivalent to the bit map of the screen shown in FIG. 5 is performed so that the screen data can be searched by the pointing device (1-5).

Here, the CRT screen having the functions of “list” and “search” of the health history shown in FIG. 5 will be described. This screen
The matrix is composed of a matrix indicating inspection dates in the vertical direction and inspection items in the horizontal direction. In addition, in each column (column), if each test result is "normal", mark "." If abnormal, it is indicated by a symbol such as a “■” mark. All of this information utilizes the directory shown in FIG. That is, in addition to the file name 4-1 (inspection date) of each directory shown in FIG. 4, the normal code "1" written as described above in the result code column of the inspection items 4-3 to 4-6. , The caution code “2”, the abnormal code “3”, and the no data (untested) code “0” are read, The symbol "@" is converted into a blank symbol by an application program and displayed in each column of FIG.

The control flowchart at the time of reading the personal card is described in the sixth.
Shown in the figure.

First, when an optical card is inserted into the read / write device, an instruction to read the data in the directory portion of the optical card is output (step 101), and the information of the read directory portion is developed in the memory (step 102). Then, one directory of data is read from the memory (step 10).
3) Store the file name (inspection date) 4-1 in the specified area of the memory (step 104), and further inspect item 1
One result code is read (step 105). If the result code is 0 (step 106), display data corresponding to a blank in a specified area of the memory is stored (step 110). If the result code is 1 (step 107), display data corresponding to "." Is stored in the designated area of the memory (step 111). If the result code is 2 (step 108), the Store the display data corresponding to (step 11
2). If the result code is 3 (step 109), display data corresponding to "@" is stored in the designated area of the memory (step 113). If the result code is other than 0 to 3, it is regarded as an error. Then, the result codes of all the inspection items are processed in the same manner as in steps 105 to 113, and when the processing is completed (step 114), the same processing as in steps 103 to 114 is performed in all the directories. Upon completion (step 115), the data in the designated area is stored in the VRAM (step 116), and displayed on the display as an inspection result list (step 117).

The display data may be stored in the VRAM every time a result code of one inspection item is read from the memory.

FIG. 14 shows an outline of the application program. When the application program starts,
At step 200, it is determined whether or not the patient card has been inserted into the read / write device, and a process of displaying the examination result is performed (step 201). Then, it is determined whether or not there is an instruction to search for the medical examination data, register the medical examination data, change the doctor card data, perform other processing, and end the processing (steps 202 to 207).

Next, a method of using the CRT screen shown in FIG. 5 will be described. First of all, the doctor can easily know "when, where, how much, and how bad" by just looking at the screen by displaying a list of the long-term health history of the patient with a symbol.

Next, the doctor uses a pointing device to
You can access necessary patient examination data.

For example, the doctor puts the cursor linked to the movement of the pointing device on the diabetes column (5-1), clicks the button of the pointing device, and then
By performing the same operation in column (5-2), 5-1 and 5-
The data between 2 and the blood glucose level history can be seen as shown in FIG. 7-1. This operation is performed in the following procedure. First, the VRAM (2-12) detects two positions of the cursor at the time of clicking, and when the CPU (2-1) detects it, the directory (3) of the optical card already stored in the memory (2-5) is detected. The recording address of the target data recorded in the optical card (1-7) is detected by -11 to 3-14). As a result, the optical card read / write device (1-6) is connected to the interface (2-4 and 2).
-14), necessary card information is read and transferred to the memory (2-5), and is converted into a graph as shown in FIG. 7-1 based on the application program.

Further, according to the above operation procedure, if the doctor positions the cursor on one of the examination date columns (5-3) and then on (5-4) and clicks each button of the pointing device, 5
The data between -3 and 5-4, that is, the blood pressure, liver function, and blood lipid test values of 1986 can be read and displayed. Furthermore, applying this principle, (5
If you move the pointer to -3) and click the mouse button twice, only the blood pressure data of 1986 is displayed on the CRT.

When the user clicks on the examination item, the examination data of the designated examination item from the age of 30 to 39 is read from the optical card with only one click, and the history is displayed as a graph. Similarly, when the user clicks on the examination day, the examination data of all items on the designated examination day are read out and displayed in a table as shown in FIG. 7-2 with only one click.

FIG. 8 shows a control flowchart of the above search operation. First, the pointing device determines whether or not there is a click on the display screen (step 1), and if there is a click, the position is identified from the VRAM (step 2). If the identified position is the examination result column (step 3), the input of the next click is waited (step 4), and if there is the input, the position of the click is recognized (step 5).
Then, if the recognized examination dates of the two positions are common (step 6), the directory of the area in which the corresponding data of the target column is recorded is recognized (step 7). That is, when accessing the range of items as shown in FIG. 9, the doctor specifies the items of X ₂ and Y _{2 and} the items of X ₅ and Y ₂ with the pointing device.

CPU of the stored received from the VRAM _{X 2, Y 2, X 5} , Y 2, four in the coordinate information "Y ₂ in common" can recognize that it is.

Then X-axis coordinate is between "coordinate information X ₂ and X ₅ except Y _2"
The CPU recognizes that X ₃ and X ₄ are also symmetrical to access, and the coordinates with common Y _2, that is, X ₂ Y ₂ , X ₃ Y ₂ , X ₄ Y ₂ , X ₅ Y ₂ , are symmetrically accessed. Range.

Similarly, when a range is specified in the vertical direction, since the X-axis coordinates are common, it is possible to access using a pointing device based on the same access principle. Then, the recording address of the target data on the optical card is obtained from the data recorded in the directory, a read command is output to the optical card read / write device (step 8), and the read data is input. It is displayed in a table (step 9). Also,
If the examination items at the two recognized positions are common (step 10), the data of the optical card is read (steps 11 and 12) in the same manner as in steps 7 and 8, and the data is input and displayed in a graph. (Step 13). If the examination items are not common, it is determined that there is a mistake in the specification (step 1).
4) Return to waiting for click input. If the recognized position is the examination item column (step 15), step 11
As in the case of ~ 13, the medical examination data is graphed and displayed. If the recognized position is the screening date column (Step 1
6) In the same manner as in steps 7 to 9, the data is displayed in a table as shown in FIG. 7-2. At this time, it is only necessary to read out the recording data area of the designated examination date. If any other position is specified, processing corresponding to the position is performed (step 17).

Next, in FIG. 10, the inspection result codes "1", "2", "3", and "0" to be recorded in the inspection item result code columns (4-3 to 4-6) of the directory are shown. 4 shows a flowchart of a creation method.

First, when the doctor's card is inserted into the read / write device, the doctor's reference data (attention value, abnormal value, etc. of the examination result data) recorded on the card is read (step 11), and the doctor card data is stored in the memory. Store in (2-5) (step 12). Then, the patient's examination data is input from the keyboard (step 13). If the item has not been searched (step 14), the unchecked code "0" is stored in the memory (step 17). If the value requires attention (step 15), the caution code "2" is stored in the memory. (Step 18) If the value is abnormal (Step 16), the abnormal code "3" is stored in the memory (Step 19). Otherwise, the normal code “1” is stored in the memory (step 2
0). Then, it is judged whether or not all the items have been input (step 21). When the input is completed, the code indicating the examination result stored in the memory is output to the optical card read / write device, and the directory of the optical card is output. (Step 22). Then, the data in the memory is cleared.

Next, multiple masking of test data for protecting patient privacy will be described.

FIG. 11 is a diagram in which double masking is performed on the CRT screen in FIG. 6, and FIG. 12 is a diagram in which single masking is similarly performed. FIG. 13 is a block diagram showing an example of data recorded on a doctor's optical card.

In this embodiment, when the optical card held by the patient is simply read by the optical card read / write device (1-6),
The CRT display is double masking 10- as shown in Fig. 11.
We perform 1, 10-2 to protect the confidentiality of data. If the doctor wants to remove the masks 11-1 and 11-2, the doctor inserts his / her "doctor's optical card" into the optical card read / write device (1-6) in advance.
When 3 is clicked with the pointing device, the data of the doctor card is read, and this information is stored in the memory (2-5). As a result, the double (11-2) or single (11-1) mask is removed according to the value of the "mask removal code" (13-3) recorded on the optical card for the doctor. The doctor can obtain information with the mask removed as shown in FIG. 5 or FIG.

Next, an embodiment of data processing using a doctor's optical card will be described. In FIG. 13, the doctor sets the cautionary value (13-4) and the abnormal value (13-5) of each test item which he believes most appropriate for each of the test items 1 to n, and sets his / her own card. To record. In addition, the doctor records his or her unique search method and test data display method as a program in 13-9. If this optical card is read and stored in the memory (2-5), the doctor can process the patient data according to his / her own method as needed.

The setting of the caution value (7-1) and the abnormal value (7-2) in FIG. 7 and the display by a graph are created by this method.

Next, an embodiment of a method of mutually utilizing transaction evidence records (logs) by mutually using a patient card and a doctor card will be described.

If the optical card read / write device (1-6) has two card insertion slots, a patient card and a doctor card are inserted at the same time here (however, the card insertion slot is provided in the optical card read / write device). If there is only one, it can be realized by inserting the patient card and the doctor card alternately).

First, on the doctor card, date and time data indicating when the medical treatment was performed are stored in the timer / calendar of the central processing unit (2-6).
As a result, the date and time column (13-
The patient information recorded in 7) and who examined the patient is recorded by the optical card read / write device in the patient code column (13-8) of the doctor card, with the patient code recorded on the patient optical card being read. .

Next, the patient code is also recorded with the date and time information from the timer / calendar (2-6) and the doctor code (doctor license number) from the doctor card.

Thus, the information on the doctor card and the information on the patient card are mutually recorded for later evidence. In particular, in this case, the optical card cannot perform overwriting (Re-Write) on the same area, so that the evidence ability is very high.

In the above embodiment, when the optical card is inserted into the read / write device, only the data in the directory section is read, and the examination data is read from the card at the time of the search. You may read from a memory.

Although the embodiment has been described using an optical card as a recording medium, a medium such as an IC card or a floppy disk,
And also in data storage memories.

Further, in the embodiment, the use example in the medical field has been described. However, the present invention can be applied to all applications for recording the maintenance history of machines and the like, shopping, finance, work status management, and other individual actions.

[Effect] As described above, according to the present invention, a plurality of inspection result determination data read from the storage medium is displayed on the display device as a matrix of inspection time and inspection items, and the matrix instructed by the operator is displayed. By confirming the position of, and searching for a plurality of inspection data corresponding to the confirmed position, and displaying a plurality of inspection data in the form of a table or a graph on the display device according to the position in the designated matrix. The desired inspection data can be easily searched by a simple operation, and the display form of the plurality of searched inspection data can be displayed in an appropriate display form without specifying each display form.

[Brief description of drawings]

FIG. 1 is a system external view showing the configuration of the present invention, FIG. 2 is a block diagram showing the system configuration, FIG. 3 is a diagram showing a recording format of an optical card, FIG. FIG. 5 is a view showing a display screen of the examination result, and FIG.
The figure is a flowchart showing the display operation of the examination result, 7th-
1 and 7-2 are views showing a display screen of medical examination data, FIG. 8 is a flowchart showing a search operation of the medical examination data, FIG. 9 is a diagram for explaining medical examination data search, and FIG. 10 is a medical examination. Flowchart showing data registration operation, FIG. 11, FIG.
FIG. 13 is a diagram showing a display screen of the examination result, FIG. 13 is a diagram showing the configuration of the doctor card, and FIG. 14 is a flowchart showing the operation of the entire examination process. 1-2 is a CRT display, 1-5 is a pointing device, 1-6 is an optical card, and 1-7 is an optical card read / write device.

Claims (4)

(57) [Claims] 1. An inspection data processing apparatus for processing inspection data representing inspection results of a plurality of inspection items recorded in a storage medium and inspection result determination data representing determination results determined according to the values of each inspection data. A reading step of reading inspection result determination data from the storage medium; a first display step of displaying the read inspection result determination data on a display device as a matrix of inspection time and inspection items; A recognition step for recognizing a position in the matrix indicated by a person, a search step for searching a plurality of inspection data corresponding to the recognized position, and a plurality of searched inspection data in the specified matrix. A second display step for displaying on the display device in the form of a table or a graph according to the position of Processing method in the inspection data processing apparatus according to. 2. The method according to claim 1, wherein
In the display step of, when the designated position in the matrix is the column of the inspection time, the inspection data of a plurality of inspection items at the designated inspection time are displayed as a table, and the position in the designated matrix is the inspection item. Column, the processing method in the inspection data processing device is characterized by displaying a history of a plurality of inspection data of the instructed inspection item in a graph. 3. The second aspect of the present invention as set forth in claim 1
In the display step of, when the designated position in the matrix is two inspection result determination data at a common inspection time, a plurality of inspection data at a common inspection time is displayed in a table,
A processing method in an inspection data processing device, wherein a plurality of inspection data items of a common inspection item are displayed in a graph when two designated inspection result judgment data items of the same inspection item are located in the matrix. 4. The inspection data processing device according to claim 1, wherein the inspection result determination data is data indicating whether the value of the inspection data is normal, caution, or abnormal. Processing method in.