JP6250967B2 - Automatic analyzer - Google Patents

Description

  Embodiments described herein relate generally to an automatic analyzer that analyzes a component contained in a sample collected from a subject by a reaction with a component contained in a reagent.

  The automatic analyzer is intended for biochemical test items, immunological test items, etc., and changes in color tone and turbidity caused by the reaction between the test item components contained in the sample collected from the subject and the components contained in the reagent of the test item Is measured optically to generate analytical data expressed by concentration, enzyme activity, and the like.

  The reagent for each test item deteriorates after a long period of time since it was manufactured, and correct analytical data cannot be obtained, so the expiration date when the reagent container containing the reagent is stored unopened is written . Then, the unopened reagent container is placed on an automatic analyzer after being opened and used for analysis.

JP 2010-281845 A

  However, there is a reagent whose deterioration is accelerated when the remaining amount in the reagent container decreases after the reagent container is opened. When analysis is performed using a deteriorated reagent, there is a problem that analysis data deteriorates. Therefore, careful management of the reagent is necessary.

  The embodiment has been made to solve the above-described problems, and an object thereof is to provide an automatic analyzer that can easily manage reagents.

In order to achieve the above object, an automatic analyzer according to an embodiment dispenses a reagent contained in a sample and a reagent container into a reaction container, and measures a mixed solution of the sample and the reagent in the reaction container. in unsealing before the reagent containers housed reagent first expiration before opening of the day, storing a plurality of available number of days corresponding to the amount of reagent contained in the reagent container after opening 及 beauty Calculating a second expiration date based on any one of the reagent information storage unit, the opening date of the reagent container, and the plurality of usable days, and the second expiration date among the first of the expiration date and, characterized in that a time limit management part for setting the better to quickly reach the third expiration date after the opening.

The block diagram which shows the structure of the automatic analyzer which concerns on embodiment. The perspective view which shows the structure of the analysis part which concerns on embodiment. The figure which shows the reagent information setting screen by which reagent information was displayed on the display part which concerns on embodiment. The flowchart which shows operation | movement of the automatic analyzer which concerns on embodiment.

  Hereinafter, embodiments will be described with reference to the drawings.

  FIG. 1 is a block diagram illustrating a configuration of an automatic analyzer according to the embodiment. The automatic analyzer 100 includes an analysis unit 24 that generates a standard data and test data by measuring a mixture of a sample such as a standard sample or test sample for each test item and a reagent for each test item, and an analysis unit. 24 includes a drive unit 26 that drives each analysis unit related to 24 measurements, and an analysis control unit 30 that controls the drive unit 26 to activate each analysis unit of the analysis unit 24.

  The automatic analyzer 100 also includes a reagent management unit 40 that manages the reagents used in the analysis unit 24 by setting an expiration date, and calibration data and analysis from standard data and test data generated by the analysis unit 24. A data processing unit 50 that generates data and an output unit 60 that outputs calibration data and analysis data generated by the data processing unit 50 are provided.

  The automatic analyzer 100 also inputs analysis parameters such as the amount of each test item used for measurement in the analysis unit 24, the amount of reagent, input of reagent information of the reagent used in the analysis unit 24, and a test sample. System control for controlling the analysis control unit 30, the reagent management unit 40, the data processing unit 50, and the output unit 60 based on the input information input from the operation unit 70 Part 80.

  FIG. 2 is a perspective view showing the configuration of the analysis unit 24. The analysis unit 24 includes a sample container 17 that stores a sample such as a standard sample or a test sample for each inspection item, a sample disk 5 that holds the sample container 17 so as to be movable, and components of the inspection item included in the sample. And a reagent container 6 containing a first reagent or a two-reagent first reagent containing a component to be reacted. In the reagent container 6, a reagent ID for identifying the reagent container 6 and the first reagent accommodated in the reagent container 6 is written, for example, by a barcode.

  In addition, a reagent rack 1a that holds the reagent container 6 movably, a reader 18 that reads the reagent ID of the reagent container 6 held in the reagent rack 1a, and a reagent warehouse that keeps the reagent container 6 held in the reagent rack 1a cold. 1 and a reagent container 7 for storing a second reagent that forms a pair with the first reagent of the two-reagent system. In the reagent container 7, a reagent ID for identifying the reagent container 7 and the second reagent accommodated in the reagent container 7 is written in a barcode.

  In addition, a reagent rack 2a that holds the reagent container 7 movably, a reader 19 that reads the reagent ID of the reagent container 7 held in the reagent rack 2a, and a reagent warehouse that cools the reagent container 7 held in the reagent rack 2a 2 are provided. In addition, a plurality of reaction vessels 3 arranged on the circumference and a reaction disk 4 that holds the reaction vessels 3 in a movable manner are provided.

  In addition, a sample dispensing probe 16 for dispensing the sample in the sample container 17 held on the sample disk 5 and sucking it into the reaction container 3, and a sample portion for holding the sample dispensing probe 16 movably. A note arm 10 is provided. Also, a first reagent dispensing probe 14 for dispensing the first reagent in the reagent container 6 whose reagent ID has been read by the reader 18 and discharging it into the reaction container 3 into which the sample has been dispensed, and a reagent A liquid level detector 14a for detecting the liquid level of the first reagent in the container 6 by contact between the first reagent and the first reagent dispensing probe 14, and a first reagent dispensing probe 14 that holds the first reagent dispensing probe 14 movably. 1 reagent dispensing arm 8 is provided.

  In addition, the second reagent dispensing is performed in which the second reagent in the reagent container 7 whose reagent ID is read by the reader 19 is aspirated and dispensed into the reaction container 3 into which the paired first reagent is dispensed. The probe 15, the liquid level detector 15 a that detects the second reagent liquid level in the reagent container 7 by the contact between the second reagent and the second reagent dispensing probe 15, and the second reagent dispensing probe 15 can be moved. And a second reagent dispensing arm 9 to be held. Moreover, the measurement part 13 which irradiates light to the reaction container 3 and measures a liquid mixture, and the washing nozzle 12 which wash | cleans the inside of the reaction container 3 which complete | finished the measurement by the measurement part 13 are provided.

  Then, the measurement unit 13 irradiates the reaction container 3 with light at the timing of rotating and passing through the measurement position, and the mixture of the sample and the first reagent in the reaction container 3 or the sample, the first reagent, and the second reagent. Light transmitted through the reagent mixture is detected. And the signal which detected the transmitted light of the liquid mixture containing a standard sample or a test liquid is processed, and the standard data and test data which are represented, for example by the light absorbency are produced | generated.

  1 moves the sample container 17, the reagent container 6 and the reagent container 7 by rotating the sample disk 5, the reagent rack 1a and the reagent rack 2a of the analyzer 24, respectively. Further, the reaction disk 4 is rotated to move the reaction vessel 3. In addition, the sample dispensing arm 10, the first reagent dispensing arm 8, and the second reagent dispensing arm 9 are rotated and driven up and down, respectively, so that the sample dispensing probe 16, the first reagent dispensing probe 14, and the second reagent are driven. The dispensing probe 15 is moved horizontally and vertically.

  The analysis control unit 30 detects the amounts of the first and second reagents in the reagent containers 6 and 7 whose reagent IDs have been read by the drive control unit 31 that controls the drive unit 26 and the readers 18 and 19 of the analysis unit 24. The remaining amount detection unit 32 is provided.

  The drive control unit 31 analyzes the analysis parameters of each inspection item input from the operation unit 70, the reagent ID read by the readers 18 and 19 of the analysis unit 24, and the first and first detected by the liquid level detectors 14a and 15a. 2. The drive unit 26 is controlled based on the detection signal of the reagent liquid level. The first and second reagents can be aspirated in the reagent containers 6 and 7 whose reagent IDs are read by the readers 18 and 19 using the first and second reagent dispensing probes 14 and 15. After moving to the upper stop position above the suction position, it is moved downward from the upper stop position. Next, the liquid level detectors 14a and 15a are stopped at the first and second reagent suction positions based on the detection signals for detecting the first and second reagent liquid levels in the reagent containers 6 and 7.

  In addition, the drive control unit 31 among the first reagents stored in the opened reagent container 6 held in the reagent rack 1a has passed the expiration date after opening set by the reagent management unit 40. Stop reagent dispensing. In addition, among the second reagents stored in the opened reagent container 7 held in the reagent rack 2a, the dispensing of the second reagent past the expiration date after opening set by the reagent management unit 40 is stopped. Let

  The remaining amount detection unit 32 detects a first reagent liquid level in the reagent container 6 by the liquid level detector 14a and information on, for example, driving pulses supplied for moving the first reagent dispensing probe 14. Based on the above, the distance that the first reagent dispensing probe 14 has moved from the upper stop position to the detection position of the first reagent liquid level in the reagent container 6 is calculated. Then, based on the calculated distance, the size and height of the reagent container 6, and the information on the amount of the first reagent set as the analysis parameter, the amount of the first reagent in the reagent container 6 is distributed to the reaction container 3. Detected in terms of possible number of times.

  Further, based on the detection signal for detecting the second reagent liquid level in the reagent container 7 by the liquid level detector 15a and the information on the drive pulse supplied for the movement of the second reagent dispensing probe 15, the second The distance that the reagent dispensing probe 15 has moved from the upper stop position to the detection position of the second reagent liquid level in the reagent container 7 is calculated. Based on the calculated distance, the size and height of the reagent container 7, and the amount of the second reagent set as the analysis parameter, the amount of the second reagent in the reagent container 7 can be dispensed into the reaction container 3. Detected in terms of number of times.

  The reagent management unit 40 includes a reagent information storage unit 41 that stores the reagent information of the first and second reagents of each inspection item input from the operation unit 70, and the first reagent stored in the opened reagent container 6. An expiration date management unit for managing the expiration date after opening and the expiration date after opening the second reagent contained in the opened reagent container 7;

  The reagent information storage unit 41 includes a reagent ID to be managed input from the operation unit 70, an expiration date before opening the first reagent contained in the reagent container 6 before opening identified by the reagent ID, The reagent information of the first reagent indicating the relationship between the amount of the first reagent accommodated in the opened reagent container 6 identified by the reagent ID and the usable days in this amount is stored. Further, the date when the reagent ID same as the reagent ID is first read by the reader 18 of the analysis unit 24 is set as the opening date of the reagent container 6 identified by the reagent ID, and the opening date is associated with the reagent ID and the first reagent. As reagent information.

  The reagent information storage unit 41 also includes the reagent ID to be managed input from the operation unit 70 and the expiration date before opening the second reagent stored in the reagent container 7 before opening identified by the reagent ID. And the reagent information of the second reagent indicating the relationship between the amount of the second reagent accommodated in the opened reagent container 7 identified by the reagent ID and the usable days in this amount. Further, the date when the reagent ID same as the reagent ID is first read by the reader 19 of the analysis unit 24 is set as the opening date of the reagent container 7 identified by the reagent ID, and the opening date is associated with the reagent ID and the second reagent. As reagent information.

  When the same reagent ID as the reagent ID read by the reader 18 is stored in the reagent information storage unit 41, the time limit management unit 42 is based on the reagent information of the first reagent stored in the reagent information storage unit 41. The expiration date of use of the first reagent stored in the opened reagent container 6 in which the reagent ID to be managed is written is managed. Further, when the same reagent ID as the reagent ID read by the reader 18 is not stored in the reagent information storage unit 41, the first reagent in the reagent container 6 identified by the reagent ID cannot be used in the analysis unit 24. The output unit 60 outputs warning information notifying that the reagent container 6 that is not a management target is held in the reagent rack 1a of the analysis unit 24.

  Further, when the same reagent ID as the reagent ID read by the reader 19 is stored in the reagent information storage unit 41, the reagent to be managed based on the reagent information of the second reagent stored in the reagent information storage unit 41 The expiration date for use of the second reagent stored in the opened reagent container 7 in which the ID is written is managed. In addition, when the same reagent ID as the reagent ID read by the reader 19 is not stored in the reagent information storage unit 41, the second reagent in the reagent container 7 identified by the reagent ID cannot be used in the analysis unit 24. The output unit 60 outputs warning information notifying that the reagent container 7 not to be managed is held in the reagent rack 2a of the analysis unit 24.

  The unopened reagent containers 6 and 7 are sealed at the openings into which the first and second reagent dispensing probes 14 and 15 are aspirated and are installed on the reagent racks 1a and 2a of the analysis unit 24. It is also possible to input the opening date as the opening date and store it in the reagent information storage unit 41. Also, an opening unit that can open the sealed openings of the unopened reagent containers 6 and 7 by pressing or the like is provided, and the date opened by the opening unit is stored in the reagent information storage unit 41 as the opening date. You may carry out like this.

  Further, the time limit management unit 42 sets the reagent information of the first and second reagents stored in the reagent information storage unit 41 and the amounts of the first and second reagents detected by the remaining amount detection unit 32 of the analysis control unit 30. Based on this, the expiration date for use after opening the first and second reagents stored in the reagent containers 6 and 7 is set. Then, the set expiration date after opening is stored in the reagent information storage unit 41 as the reagent information of the first and second reagents.

  In addition, the expiration date management unit 42 outputs to the analysis control unit 30 the reagent IDs and expiration dates of the first reagent and the second reagent that have passed the expiration date after opening. The analysis control unit 30 stops dispensing the first reagent and the second reagent whose expiration date has passed after opening.

  In this way, by setting the expiration date after opening the first and second reagents accommodated in the reagent containers 6 and 7, dispensing of the first and second reagents after the expiration date after opening has passed. Therefore, it is possible to prevent deterioration of analysis data obtained using the first and second reagents whose expiration date has passed.

  The data processing unit 50 calculates the standard data and analysis data generated by the calculation unit 51 and the calculation unit 51 that generates calibration data and analysis data from the standard data and test data generated by the measurement unit 13 of the analysis unit 24. A data storage unit 52 for saving is provided.

  The calculation unit 51 generates calibration data indicating the relationship between the standard data of each inspection item generated by the measurement unit 13 and a standard value preset in the standard sample, and outputs the calibration data to the data storage unit 52 and the output unit 60. Further, based on the test data generated by the measurement unit 13 and the calibration data of the test item corresponding to the test data, analysis data expressed as a concentration value or an enzyme activity value is generated. Then, the generated analysis data is output to the data storage unit 52 and the output unit 60.

  The first reagent and the second reagent that have passed the expiration date after opening set by the reagent management unit 40 are dispensed, and the mixture obtained by measuring the mixed solution containing the first reagent and the second reagent. The analysis data may be generated based on the inspection data. In this case, an error flag is added to the analysis data and output to the output unit 60.

  The data storage unit 52 includes a memory device such as a hard disk, and stores the calibration data output from the calculation unit 51 for each inspection item. Moreover, the analysis data output from the calculating part 51 are preserve | saved for every test sample.

  The output unit 60 includes a printing unit 61 that prints out the calibration data and analysis data generated by the calculation unit 51 of the data processing unit 50 and a display unit 62 that outputs the display data. The printing unit 61 includes a printer or the like, and prints the calibration data and analysis data from the calculation unit 51 on printer paper or the like according to a preset format.

  The display unit 62 includes a monitor such as a CRT or a liquid crystal panel, and displays the calibration data and analysis data generated by the calculation unit 51. In addition, an analysis parameter setting screen for setting analysis parameters such as the amount of sample to be dispensed into the reaction container 3 for each inspection item, the amount of the first reagent, and the amount of the second reagent is displayed. In addition, a reagent information setting screen for setting the reagent information of the first and second reagents identified by the reagent ID to be managed is displayed. Further, based on the reagent ID read by the readers 18 and 19 of the analysis unit 24, a reagent container that stores the first reagent that has passed the expiration date after opening set by the expiration management unit 42 of the reagent management unit 40 6 is held in the reagent rack 1a, or when the reagent container 7 containing the second reagent that has passed the expiration date after opening is held in the reagent rack 2a, Warning information for notifying the expiration date of use of the first reagent or the second reagent is displayed.

  The operation unit 70 includes input devices such as a keyboard, a mouse, a button, and a touch key panel, and performs input for setting analysis parameters for each inspection item. Further, an input for setting the reagent information of the first and second reagents to be managed is performed on the reagent information setting screen displayed on the display unit 62.

  The system control unit 80 includes a CPU and a storage circuit, and includes input information such as analysis parameters of each test item, reagent information of the first and second reagents, ID of the test sample, and test items input from the operation unit 70. Based on this, the analysis control unit 30, the reagent management unit 40, the data processing unit 50, and the output unit 60 are integrated to control the entire system.

  Next, referring to FIG. 1 to FIG. 3, when the amount of the first reagent accommodated in the opened reagent container 6 and the second reagent accommodated in the opened reagent container 7 decreases, the reagent deteriorates. For example, the first and second reagents according to the amount in the reagent containers 6 and 7 based on an example of the reagent information setting screen of the display unit 62 displaying the reagent information of the test item A and the reagent information of the test item A The expiration date management unit 42 of the reagent management unit 40 that sets the expiration date for use after the opening will be described.

  FIG. 3 is a diagram showing a reagent information setting screen in which reagent information is displayed on the display unit 62. This reagent information setting screen 63 is a column of “item name” in which “A” which is an abbreviated name of the test item A is displayed, and “reagent information of the first and second reagents of the test item A”. R1 "and" R2 "columns. And the reagent information of the 1st and 2nd reagent of the test item A preserve | saved in the reagent information storage part 41 of the reagent management part 40 by the input from the operation part 70 is displayed on each column.

  The “R1” column includes an “ID” column for setting the reagent ID of the first reagent of the inspection item A set in the “item name” column, and a reagent ID set in the “ID” column. The column of “before opening” and “after opening” for setting the expiration date of use of the first reagent before opening and after opening the reagent container 6 identified in FIG.

  In the “ID” column, “113589703” that is the reagent ID of the management target written in the reagent container 6 of the inspection item A installed in the reagent rack 1a is displayed. In the “before opening” column, the expiration date before opening the first reagent contained in the reagent container 6 identified by the reagent ID displayed in the “ID” column is September 14, 2013. "2013-09-14" indicating that

  The “after opening” column has an “amount” column for setting the amount after opening of the first reagent contained in the reagent container 6 identified by the reagent ID set in the “ID” column; It is composed of a “days” column for setting the number of days that can be used corresponding to the amount set in the “amount” column.

  “Unused amount” is displayed in the “Amount” column, and “30” corresponding to “Unused amount” is displayed in the “Days” column. The “unused amount” is an unused amount (first amount) in which the amount of the first reagent contained in the reagent container 6 of the reagent ID displayed in the “ID” column has not been dispensed. ). In addition, “30” indicates that the number of days that can be used in the first amount is the first number of days, for example, 30 days including the opening date.

  Therefore, the expiration date management unit 42 sets the expiration date after opening based on the expiration date before opening and the first number of days corresponding to the first amount. Here, based on the opening date and the first number of days, the date 29 days after the opening date is calculated as the expiration date. Next, among the calculated expiration date and the expiration date before opening, the earlier arrival date is set as the first expiration date that is the expiration date after opening.

  In this way, the number of days that can be used in a state in which the first reagent accommodated in the opened reagent container 6 is unused is set in the reagent information storage unit 41, which is set by obtaining in advance. An expiration date can be set.

  Further, “50” is displayed in the “Amount” column, and “20” corresponding to “50” is displayed in the “Days” column. “50” is a second amount smaller than the first amount in which the first reagent contained in the reagent container 6 of the reagent ID displayed in the “ID” column is dispensed. It shows that the amount can be dispensed 50 times in terms of the number of times that can be poured. In addition, “20” indicates that the number of days that can be used in the second amount is 20 days including the day when the number of days decreased to the second amount, which is the second number of days shorter than the first number of days. Yes.

  Therefore, the expiration date management unit 42 sets the first expiration date as the expiration date after opening until the amount decreases from the first amount to an amount that can be dispensed 51 times, for example, greater than the second amount. And when it reduces to the 2nd quantity, the expiration date after opening is set based on the 2nd number of days corresponding to the 1st expiration date and the 2nd quantity. Here, based on the date reduced to the second amount and the second number of days, the day after 19 days from the date reduced to the second amount is calculated as the expiration date. Next, among the calculated expiration date and first expiration date, the earlier arrival date is set as the second expiration date that is the expiration date after opening.

  As described above, the number of days that can be used when the amount of the first reagent stored in the opened reagent container 6 is reduced to the second amount, which is set by obtaining in advance, is stored in the reagent information storage unit 41. Thus, when the amount is reduced to the second amount, the expiration date after opening the first reagent can be reviewed and updated.

  Also, “20” is displayed in the “Amount” column, and “5” corresponding to “20” is displayed in the “Days” column. Then, “20” is a dispensing amount in which the first reagent contained in the reagent container 6 of the reagent ID displayed in the “ID” column is dispensed and is a third amount smaller than the second amount. It shows that the amount can be dispensed 20 times in terms of the possible number of times. In addition, “5” indicates that the number of days that can be used in the third amount is five days including the day when the number of days decreased to the third amount, which is the third number of days shorter than the second number of days. Yes.

  Therefore, the expiration date management unit 42 sets the second expiration date as the expiration date after opening until the amount is reduced from the second amount to an amount that can be dispensed 21 times more than the third amount. And when it reduces to the 3rd quantity, the expiration date after opening is set up based on the 2nd expiration date and the 3rd number of days corresponding to the 3rd quantity. Here, based on the date reduced to the third amount and the third number of days, the date when four days have elapsed from the date reduced to the third amount is calculated as the expiration date. Next, among the calculated expiration date and the second expiration date, the earlier arrival date is set as the third expiration date that is the expiration date after opening.

  As described above, the number of days that can be used when the amount of the first reagent stored in the opened reagent container 6 is reduced to the third amount, which is set by obtaining in advance, is stored in the reagent information storage unit 41. Thus, when the amount is reduced to the third amount, the expiration date after opening the first reagent can be reviewed and updated.

  Also, “10” is displayed in the “Amount” column, and “2” corresponding to “10” is displayed in the “Days” column. “10” is a dispensing amount in which the first reagent contained in the reagent container 6 of the reagent ID displayed in the “ID” column is dispensed and is a fourth amount smaller than the third amount. It shows that the amount can be dispensed 10 times in terms of the possible number of times. In addition, “2” indicates that the number of days that can be used in the fourth amount is two days including the day that has decreased to the fourth amount, which is the fourth number of days that is shorter than the third number of days. Yes.

  Therefore, the expiration date management unit 42 sets the third expiration date as the expiration date after opening until the amount decreases from the third amount to an amount that can be dispensed 11 times more than the fourth amount. And when it reduces to the 4th quantity, the expiration date after opening is set based on the 4th number of days corresponding to the 3rd due date and the 4th quantity. Here, based on the date reduced to the fourth amount and the fourth number of days, the date one day has elapsed from the date reduced to the fourth amount is calculated as the expiration date. Next, among the calculated expiration date and the third expiration date, the earlier arrival date is set to the fourth expiration date, which is the expiration date after opening.

  As described above, the number of days that can be used when the amount of the first reagent stored in the opened reagent container 6 is reduced to the fourth amount, which is set by obtaining in advance, is stored in the reagent information storage unit 41. Thus, when the amount is reduced to the fourth amount, the expiration date after opening the first reagent can be reviewed and updated.

  The expiry date before opening, the first amount and the first number corresponding to this amount, the second amount and the second number corresponding to this amount, the third amount and the first amount corresponding to this amount 3, and the first identification information obtained by adding the fourth amount and the fourth number corresponding to the amount to the reagent ID to the reagent container 6 and causing the reader 18 to read the first identification information read by the reader 18 When the same reagent ID as the reagent ID included in the information is stored in the reagent information storage unit 41, the first identification information is stored in the reagent information storage unit 41 as the reagent information of the first reagent in association with the reagent ID. May be implemented.

  As described above, the reagent information of the first reagent set so that the usable days are shortened according to the decrease in the amount of the first reagent in the opened reagent container 6 is stored in the reagent information storage unit 41. Can do. Then, based on the reagent information of the first reagent stored in the reagent information storage unit 41 and the amount of the first reagent in the reagent container 6 detected by the remaining amount detection unit 32, the first reagent accommodated in the reagent container 6 is stored. The expiration date for use after opening can be updated according to the decrease in the amount of the reagent. As a result, when the amount of the first reagent in the reagent container 6 is reduced, it is possible to prevent deterioration of analysis data obtained by using the first reagent, which deteriorates quickly, and the first reagent can be easily managed. .

  The “R2” column includes an “ID” column for setting the reagent ID of the second reagent of the inspection item A set in the “item name” column and a reagent ID set in the “ID” column. The column of “before opening” and “after opening” for setting the expiration date of use of the second reagent before and after opening of the reagent container 7 identified in FIG.

  In the “ID” column, “123589704”, which is the reagent ID of the management target written in the reagent container 7 of the inspection item A installed in the reagent rack 2a, is displayed. In the “before opening” field, the expiration date before opening the second reagent contained in the reagent container 7 identified by the reagent ID displayed in the “ID” field is October 9, 2013. “2013-10-09” is displayed indicating that this is the case.

  The “after opening” column has an “amount” column for setting the amount after opening of the second reagent contained in the reagent container 7 identified by the reagent ID set in the “ID” column; It is composed of a “days” column for setting the number of days that can be used with the amount set in the “amount” column. Then, the expiration date management unit 42 sets the expiration date for use after opening the second reagent, in the same manner as in the case of the first reagent.

  “Unused amount” is displayed in the “Amount” column, and “30” corresponding to “Unused amount” is displayed in the “Days” column. Therefore, the time limit management unit 42 calculates the date when 29 days have passed from the opening date as the expiration date. Next, among the calculated expiration date and the expiration date before opening, the earlier arrival date is set as the first expiration date that is the expiration date after opening.

  As described above, the number of days that can be used when the second reagent stored in the opened reagent container 7 is unused is stored in the reagent information storage unit 41 and set in advance. The expiration date for use after opening can be set.

  Further, “50” is displayed in the “Amount” column, and “20” corresponding to “50” is displayed in the “Days” column. Therefore, the expiration date management unit 42 sets the first expiration date as the expiration date after opening until the amount decreases from the first amount to an amount that can be dispensed 51 times more than the second amount. And when it reduces to the 2nd quantity, the day when 19 days passed from the day when it decreased to the 2nd quantity based on the 1st due date and the 2nd number of days corresponding to the 2nd quantity is made into an expiration date calculate. Next, among the calculated expiration date and first expiration date, the earlier arrival date is set as the second expiration date that is the expiration date after opening.

  As described above, the number of days that can be used when the amount of the second reagent stored in the opened reagent container 7 is reduced to the second amount, which is set by obtaining in advance, is stored in the reagent information storage unit 41. Thus, when the amount is reduced to the second amount, the expiration date after opening the second reagent can be reviewed and updated.

  Also, “20” is displayed in the “Amount” column, and “5” corresponding to “20” is displayed in the “Days” column. Therefore, the expiration date management unit 42 sets the second expiration date as the expiration date after opening until the amount is reduced from the second amount to an amount that can be dispensed 21 times more than the third amount. And when it decreases to the third amount, the expiration date is the day when 4 days have elapsed from the date when the amount has decreased to the third amount based on the second expiration date and the third number of days corresponding to the third amount. calculate. Next, among the calculated expiration date and the second expiration date, the earlier arrival date is set as the third expiration date that is the expiration date after opening.

  As described above, the number of days that can be used when the amount of the second reagent stored in the opened reagent container 7 is reduced to the third amount, which is set by obtaining in advance, is stored in the reagent information storage unit 41. Thus, when the amount is reduced to the third amount, the expiration date after opening the second reagent can be reviewed and updated.

  Also, “10” is displayed in the “Amount” column, and “2” corresponding to “10” is displayed in the “Days” column. Therefore, the expiration date management unit 42 sets the third expiration date as the expiration date after opening until the amount decreases from the third amount to an amount that can be dispensed 11 times more than the fourth amount. And when it reduces to the 4th quantity, the day which passed 1 day from the day reduced to the 4th quantity based on the 3rd due date and the 4th number of days corresponding to the 4th quantity as the expiration date calculate. Next, among the calculated expiration date and the third expiration date, the earlier arrival date is set to the fourth expiration date, which is the expiration date after opening.

  As described above, the number of days that can be used when the amount of the second reagent stored in the opened reagent container 7 is reduced to the fourth amount, which is set by obtaining in advance, is stored in the reagent information storage unit 41. Thus, when the amount is reduced to the fourth amount, the expiration date after opening the second reagent can be reviewed and updated.

  The expiry date before opening, the first amount and the first number corresponding to this amount, the second amount and the second number corresponding to this amount, the third amount and the first amount corresponding to this amount The second identification information obtained by adding the fourth amount and the fourth amount and the fourth number corresponding to the amount to the reagent ID to the reagent container 7 and causing the reader 19 to read the second identification. When the same reagent ID as the reagent ID included in the information is stored in the reagent information storage unit 41, the second identification information is stored in the reagent information storage unit 41 as reagent information of the second reagent in association with the reagent ID. May be implemented.

  As described above, the reagent information of the second reagent set so that the usable days are shortened according to the decrease in the amount of the second reagent in the opened reagent container 7 is stored in the reagent information storage unit 41. Can do. Based on the reagent information of the second reagent stored in the reagent information storage unit 41 and the amount of the second reagent in the reagent container 7 detected by the remaining amount detection unit 32, the second reagent in the reagent container 7 The expiration date after opening can be updated according to the decrease in the amount. As a result, when the amount of the second reagent in the reagent container 7 is reduced, it is possible to prevent deterioration of analysis data obtained by using the second reagent whose deterioration is accelerated, and the second reagent can be easily managed. .

  Hereinafter, an example of the operation of the automatic analyzer 100 will be described with reference to FIGS. 1 to 4.

FIG. 4 is a flowchart showing the operation of the automatic analyzer 100.
The reagent information storage unit 41 of the reagent management unit 40 stores the reagent information and the like of the first and second reagents of the test item A displayed on the reagent information setting screen 63 of FIG. Then, the reagent container 6, in which the reagent ID displayed on the reagent information setting screen 63 is recorded on the date before the expiration date before opening the first reagent of the inspection item A displayed on the reagent information setting screen 63. 7 is opened and placed on the reagent racks 1a and 2a of the analysis unit 24 on the opening date, and then when the measurement start is input from the operation unit 70, the automatic analyzer 100 starts operation ( Step S1).

  The system control unit 80 instructs the analysis control unit 30, the reagent management unit 40, the data processing unit 50, and the output unit 60 to perform measurement. The drive control unit 31 of the analysis control unit 30 controls the drive unit 26 to operate each analysis unit of the analysis unit 24. Hereinafter, the operation related to the first reagent in the test item A will be described, and the operation related to the second reagent operates in the same manner as in the case of the first reagent, and thus description thereof will be omitted.

  The drive unit 26 drives the reagent rack 1a to move the reagent container 6 held in the reagent rack 1a. The reader 18 of the analysis unit 24 reads the reagent ID written in the reagent container 6 of the test item A held in the reagent rack 1a (step S2).

  When the same reagent ID as the reagent ID read by the reader 18 is stored in the reagent information storage unit 41, the expiration date management unit 42 of the reagent management unit 40 stores the first in the reagent container 6 identified by the reagent ID. The expiration date after opening is managed as the first reagent that can be used in the analysis unit 24. The date read by the reader 18 for the first time is taken as the opening date, and the opening date is associated with the reagent ID and stored in the reagent information storage unit 41 as the reagent information of the first reagent of the test item A.

  Further, the expiration date management unit 42 uses the expiration date before opening included in the reagent information of the first reagent of the test item A stored in the reagent information storage unit 41, the first number of days corresponding to the first amount, and the opening. The expiration date is calculated based on the date, and the earlier expiration date between the calculated expiration date and the expiration date before opening is set as the nth expiration date (n = 1) (step S3). Thereafter, the nth expiration date is stored in the reagent information storage unit 41 as the reagent information of the first reagent of the test item A.

  The first reagent dispensing probe 14 dispenses the first reagent in the reagent container 6 of the inspection item A into the reaction container 3. The remaining amount detection unit 32 detects the amount of the first reagent in the reagent container 6 dispensed by the first reagent dispensing probe 14 (step S4).

  When the amount of the first reagent in the reagent container 6 has decreased to the (n + 1) th amount (Yes in step S5), the process proceeds to step S6. If the amount of the first reagent in the reagent container 6 is larger than the (n + 1) th amount (No in step S5), the process returns to step S4.

  When the amount of the first reagent in the reagent container 6 is reduced to the (n + 1) th amount, the time limit management unit 42 is included in the reagent information of the first reagent of the test item A stored in the reagent information storage unit 41. The expiration date is calculated based on the second number of days corresponding to the second amount and the information on the date reduced to the (n + 1) th amount. Next, of the calculated expiration date and the nth expiration date, the earlier arrival date is set to the (n + 1) th expiration date which is the expiration date after opening (step S6). Thereafter, the (n + 1) th expiration date is stored in the reagent information storage unit 41 as the reagent information of the first reagent of the test item A.

  After step S6, when n is 3 (Yes in step S7), the process proceeds to step S8. If n is 2 or less (No in step S7), 1 is added to n and the process returns to step S4.

  After “Yes” in step S 7, the first reagent dispensing probe 14 finishes dispensing the first reagent in the reagent container 6 of the test item A, and all analysis data of the test item A is output from the output unit 60. When this is done, the automatic analyzer ends its operation (step S8).

  After “Yes” in step S7, the first reagent in the reagent container 6 of the inspection item A is dispensed into the reaction container 3 by the first reagent dispensing probe 14, and the first reagent in the reagent container 6 is dispensed. If it is insufficient, the dispensing operation of the first reagent dispensing probe 14 is stopped.

  According to the embodiment described above, the usable days of the first and second reagents in the unused state in the opened reagent containers 6 and 7, and the first and second reagents in the reagent containers 6 and 7 can be used. The reagent information of the first and second reagents in which usable days that become shorter according to the decrease in the amount are set can be stored in the reagent information storage unit 41. Based on the reagent information of the first and second reagents stored in the reagent information storage unit 41 and the amounts of the first and second reagents in the reagent containers 6 and 7 detected by the remaining amount detection unit 32, the reagent Set the expiration date after opening according to the amount of the first and second reagents in the containers 6 and 7, and update the expiration date after opening according to the decrease in the amount of the first and second reagents can do. As a result, when the amounts of the first and second reagents in the reagent containers 6 and 7 are reduced, it is possible to prevent deterioration of analysis data obtained using the first and second reagents, which deteriorates quickly. The second reagent can be easily managed.

  Although several embodiments of the present invention have been described, these embodiments are presented by way of example and are not intended to limit the scope of the invention. These novel embodiments can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the scope of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and are included in the invention described in the claims and the equivalents thereof.

3 Reaction containers 6 and 7 Reagent container 14 First reagent dispensing probe 15 Second reagent dispensing probe 24 Analysis unit 32 Remaining amount detection unit 40 Reagent management unit 41 Reagent information storage unit 42 Time limit management unit

Claims (8)

In an automatic analyzer that dispenses a reagent contained in a sample and a reagent container into a reaction container and measures a mixed solution of the sample and the reagent in the reaction container,
Before opening of the reagent container accommodating the reagent first expiration before opening of the day, and store a plurality of available number of days corresponding to the amount of reagent contained in the reagent container after opening 及 beauty A reagent information storage unit,
A second expiration date is calculated based on the opening date of the reagent container and any one of the plurality of usable days, and the calculated second expiration date and the first expiration date are calculated. among the expiration date, an automatic analyzer is characterized in that a time limit management part for setting the better to quickly reach the third expiration date after the opening. When the amount of reagent accommodated in the reagent container after opening is the first amount that has not been dispensed, the time limit management unit is configured to select the first of the opening date and the plurality of usable days . a number of days allowed corresponding amount of 1 based on the first day to calculate the second expiration date, among the calculated and the second expiration date and the first expiration date The automatic analyzer according to claim 1, wherein the first arrival date is set as the third expiration date that is the expiration date after the opening. Having a remaining amount detection unit for detecting the amount of reagent contained in the reagent container after opening;
The time limit management unit corresponds to the second amount of the plurality of usable days when the amount detected by the remaining amount detection unit is a second amount smaller than the first amount. based on the short second day than the first day it is available days to calculate the second expiration date, calculated to the second expiration date and the third expiration date The automatic analyzer according to claim 2, wherein the one that reaches earlier is set to a fourth expiration date, which is an expiration date after the opening. The expiration date management unit sets the third expiration date until the amount of the reagent stored in the reagent container decreases from the first amount to a predetermined amount larger than the second amount. 4. The automatic analyzer according to claim 3, wherein the expiration date after opening is set.   When a reagent that has passed the expiration date after opening set by the expiration management unit is stored in the reagent container, an output unit that outputs warning information for notifying that the expiration date of the reagent has expired is provided. The automatic analyzer according to any one of claims 1 to 4. Having a reagent dispensing probe that performs dispensing to suck and discharge the reagent contained in the reagent container after opening to the reaction container;
The automatic reagent according to any one of claims 1 to 5, wherein the reagent dispensing probe stops dispensing of a reagent that has passed an expiration date after opening that is set in the deadline management unit. Analysis equipment. A calculation unit that generates analysis data based on data obtained by measurement of the liquid mixture;
The said calculating part adds an error flag to the produced | generated analysis data, when it is the said liquid mixture containing the reagent which passed the expiration date after opening set in the said period management part. The automatic analyzer according to any one of claims 5 to 5. An expiration date before the opening written on the reagent container and a reader for reading the plurality of usable days ;
The reagent information storage unit, an automatic analyzer according to any one of claims 1 to 7, wherein the storing the plurality of available days read by the reader.

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