JP6995939B2 - Computer programs, devices and methods for running computers that manage orders or orders for products related to radiopharmaceuticals. - Google Patents

Description

The present invention relates to a technique for managing orders or orders for products related to radiopharmaceuticals.

With the expansion of the use of PET (positron emission tomography; image reconstruction device using positron emitting nuclides) inspection, the demand for PET preparations is increasing. Some PET formulations have a very short half-life and must be delivered to the testing facility for testing immediately after manufacture.

For example, Patent Document 1 describes a technique for producing a radiopharmaceutical in bulk and setting a schedule for efficiently delivering a product to which a bulk solution is dispensed to a plurality of facilities.

Japanese Unexamined Patent Publication No. 2013-121007

By the way, the radiopharmaceutical amount of a radiopharmaceutical such as a PET preparation decreases with the passage of time. Therefore, the amount of liquid to be dispensed from the bulk solution is determined only when the verification time and the amount of radioactivity are determined as a product. Therefore, the product quantity for each verification time and radioactivity that can be ordered further varies depending on the verification time, radioactivity amount, and quantity of each product that has already been ordered.

Therefore, an object of the present invention is to efficiently place an order or order for a product related to a radiopharmaceutical drug.

A computer program for causing a computer that manages an order or order for a product relating to a radiopharmaceutical according to one embodiment of the present invention to be executed by the computer is a first aspect of the radiopharmaceutical produced in the first production lot. It is designated based on the process of displaying a screen for accepting an order or an order having a display area of the first product for each radioactivity amount specified by at least the radiopharmaceutical amount and the test time, and the display of the display area. The processing related to the order or order based on the verification time and the amount of radioactivity is executed. The display area includes an area for displaying information indicating whether or not an order or order for the first product is possible based on the confirmed ordering information of the first production lot.

In a preferred embodiment, the information displayed in the display area indicating whether or not the order or order can be placed comes from the time when the first product can be shipped and the place where the product related to the radiopharmaceutical product is manufactured. It may be displayed corresponding to the test time after the first time determined from the time required to reach the facility where the radiopharmaceutical is used.

In a preferred embodiment, the information displayed in the display area indicating whether or not the order or order can be placed may be displayed by radioactivity amount and by test time.

In a preferred embodiment, the information displayed in the display area indicating whether or not the order or order can be placed may be the quantity of products that can be ordered or ordered.

In a preferred embodiment, the information displayed in the display area indicating whether or not the order or order can be placed may be the liquid amount of the first product.

In a preferred embodiment, the display area further comprises a time available for shipment of the second product relating to the radiopharmaceutical product of the second production lot produced at a time after the first production lot, and the required time. With respect to the verification time after the second time determined from the above, there may be an area for displaying whether or not the second product can be ordered or ordered.

In a preferred embodiment, the first product and the second product may be identifiablely displayed in the display area.

In a preferred embodiment, in the product quantity display area, the verification time and the amount of radioactivity for which either the first product and the second product can be ordered or ordered are the same as those of the first product. Information indicating whether or not an order or order can be placed may be displayed.

In a preferred embodiment, the second product is ordered or ordered for the verification time and radioactivity at which both the first product and the second product can be ordered or ordered in the display area. Information indicating whether or not is possible may be displayed.

In a preferred embodiment, the first product and the second product can be ordered or ordered for the verification time and the amount of radioactivity in the display area. May be displayed as the sum of the quantity that can be ordered and the quantity that can be ordered or ordered for the second product.

In a preferred embodiment, the first product has a first expiration date determined based on the production time of the first production lot, and the second product is the production of the second production lot. It has a second expiration date that is determined based on the time of day. Then, in the display area, the information indicating whether or not the first product can be ordered or ordered is displayed for the verification time before the first expiration date, and the second product can be ordered or ordered. The information indicating whether or not it is possible may be displayed for the test time before the second expiration date.

In a preferred embodiment, the computer may further perform a process of outputting information relating to a confirmed order or order.

It is a radiopharmaceutical management system according to an embodiment of the present invention. An example of the facility table 121 and the production schedule table 123 is shown. An example of the product table 125 and the order table 127 is shown. It is a flowchart which shows the processing procedure of the product table generation part 11. An example of the ordering screen 400 is shown. An example of the ordering screen 400 is shown. It is a flowchart which shows the processing procedure of a screen generation part 13. It is a flowchart which shows the processing procedure of order processing part 15.

Hereinafter, a radiopharmaceutical ordering system for managing orders or orders for radiopharmaceuticals according to an embodiment of the present invention will be described with reference to the drawings.

FIG. 1 shows the overall configuration of the radiopharmaceutical management system according to the present embodiment.

In this system, a radiopharmaceutical drug management device (hereinafter, simply referred to as a management device) 1 and one or more facility terminals 7 are connected via a network 9.

The management device 1 may be located, for example, in a pharmaceutical company that manufactures radiopharmaceuticals. The facility terminal 7 may be arranged in a facility such as a medical institution that administers a product related to a radiopharmaceutical to a patient, for example. The facility orders a product related to radiopharmaceuticals from a pharmaceutical company, and the pharmaceutical company receives the order. The management device 1 performs processing related to ordering of this product. When an order is received from a facility, the pharmaceutical company manufactures the ordered radiopharmaceutical product and delivers it from the manufacturing site (manufacturing factory) to the facility by a predetermined transportation means.

In this specification, the order is expressed from the viewpoint of the pharmaceutical company, and the order is expressed from the viewpoint of the facility, and both are substantially the same act. Therefore, in the specification of the present application, the processes corresponding to the order, the order, and the order received in the management device 1 are common.

The management device 1 includes a management device main body 10, an input device 2 such as a keyboard or a pointing device, and a display device 3 such as a liquid crystal display. A touch panel type display in which the input device 2 and the display device 3 are integrated may be used.

The facility terminal 7 may be a terminal device having a communication function, and may be, for example, a mobile phone, a mobile information terminal, or a general-purpose personal computer. The facility terminal 7 has a display device such as a liquid crystal panel and an input device such as a keyboard or a pointing device.

The management device main body 10 is configured by, for example, a general-purpose computer system including a processor and a memory, and individual components or functions in the management device main body 10 described below are, for example, by executing a computer program. It will be realized.

The management device main body 10 has a product table generation unit 11, a screen generation unit 13, an order processing unit 15, and a data storage unit 120.

The data storage unit 120 has a facility table 121, a production schedule table 123, a product table 125, and an order reception table 127.

The facility table 121 has information about the facility where the product is ordered.

FIG. 2A shows an example of the data structure of the facility table 121. That is, the facility table 121 has the facility name 1211, the facility address 1212, the required time 1213, and the transportation means 1215 as data items.

The facility name 1211 is the name of the facility, and each facility name 1211 is unique.

The required time 1213 is the time required from the place where the radiopharmaceutical is manufactured to each facility where the drug is used. For example, the required time 1213 may include the time required when using a predetermined transportation means such as a vehicle or an aircraft and the time required for the drug to be ready for use in the facility. The required time 1213 may be set in consideration of delays due to traffic jams in the case of vehicle transportation, timetable disturbance and time required for procedures in the case of air transportation. Further, the required time 1213 may be set in consideration of the difference in road conditions depending on the season and time zone, the difference in the time required for the procedure for mounting on an aircraft, and the like.

The transportation means 1215 is a means for delivering a product, and includes, for example, transportation by vehicle and transportation by aircraft. For facilities that require transportation by aircraft, a maximum transportation index that indicates the amount of radioactivity that can be loaded is set for each aircraft, so order restrictions may be set based on that maximum transportation index.

The production schedule table 123 has information on a schedule for manufacturing a drug.

Here, the radiopharmaceutical of the present embodiment is a liquid. In this embodiment, the radiopharmaceutical is produced as a bulk solution, from which a predetermined amount of solution is dispensed into vial bottles to produce individual products. The production of the bulk solution may be carried out multiple times a day. In this embodiment, the bulk solution is produced three times from the first production lot to the third production lot.

FIG. 2B shows an example of the data structure of the production schedule table 123. That is, the production schedule table 123 shows the date of production 1231 and the lot No. It has 1232, an item 1233, a production amount 1234, a concentration 1235, a production time 1236, a shippable time 1237, a remaining amount 1238, and an expiration date 1239.

Item 1233 indicates the type of pharmaceutical product and may include the type of radionuclide.

Production 1234 is the volume of bulk solution produced in each lot. The production amount 1234 of the bulk solution may be changed depending on the production lot. For example, the production volume 1234 of a production lot with an early production time 1236 may have a larger capacity than a late production lot, or the production volume 1234 of a production lot with a late production time 1236 may have a larger capacity than an early production lot. As a result, the production volume can be adjusted according to the expected demand.

Concentration 1235 is the production radioactivity concentration of the bulk solution of each production lot. The concentration of the bulk solution 1235 may be varied depending on the production lot. For example, a production lot with an early production time 1236 may have a higher concentration than a production lot with a later production time, or a production lot with a late production time 1236 may have a higher concentration than a production lot with an earlier production time. Thereby, for example, one production lot may be suitable for a facility in the suburbs by reducing the concentration 1235, and another production lot may be suitable mainly for a distant facility by increasing the concentration 1235.

Production time 1236 is the time when the bulk solution of each lot is produced.

The shipable time 1237 is a time when individual products can be shipped after dispensing, packing, etc. from the bulk solution of each lot.

The remaining amount of 1238 is the remaining amount of the solution that can be used as a product obtained by subtracting the amount of liquid used in the already ordered product from the bulk solution of each lot. Every time the order processing unit 15 receives an order for a product, the amount of liquid required for this product is calculated based on the verification time and the amount of radioactivity of the ordered product, and the amount of liquid is subtracted from the remaining amount of 1238. good. Further, as for the remaining amount 1238, the liquid amount for a predetermined loss may be subtracted from the production amount 1234 in advance.

When subtracting the amount of liquid required for the ordered product from the remaining amount of 1238, a slight excess may be added to the amount of liquid theoretically required. This is due to the following reasons. That is, the vial bottle is suitable for stably enclosing a drug, but when the content liquid is taken out with a syringe or the like, the drug adheres to the inner surface of the container, so that the entire amount cannot be taken out. It should be noted that this excess amount does not have to be constant and may be set stepwise according to the theoretically required amount of liquid.

Expiration date 1239 is the expiration date of the solution in each production lot. The expiration date 1239 may be determined based on the production time 1236. The range of verification times that the products manufactured from each lot can cover is from the shipable time 1237 to the expiration date 1239.

The product table 125 has a quantity of products that can be ordered or ordered as products.

For products related to radiopharmaceuticals, product specifications are specified by the item, certification time, and amount of radioactivity. Therefore, at facilities that use products related to radiopharmaceuticals, the item, verification time, radioactivity amount, and quantity will be specified before placing an order. In addition, since the radiopharmaceutical radioactivity decreases from moment to moment, products with the desired radioactivity at the test time are manufactured by dispensing the volume calculated based on the half-life of the radionuclide from the bulk solution. To. The amount of liquid to be dispensed from the same production lot differs depending on the amount of radioactivity and the verification time, and if the verification time is the same, the amount increases according to the amount of radioactivity. Furthermore, if the amount of radioactivity is the same, the later the test time, the larger the amount of liquid to be dispensed is required.

Therefore, for each production lot, the quantity of products can be obtained from the remaining amount 1238 of the production schedule table 123 according to the amount of radioactivity according to the verification time. The product table 125 stores the quantity of products that can be ordered for each production lot according to the amount of radioactivity according to the verification time.

FIG. 3A shows an example of the data structure of the product table 125. That is, the product table 125 has a production date 1251, lot No. 1252, item 1253, a verification time 1254, a radioactivity amount 1255, and a quantity 1256.

The order table 127 has the order status of products from each facility.

FIG. 3B shows an example of the data structure of the order table 127. That is, the order table 127 has a date 1271, a facility name 1272, an item 1273, a verification time 1274, a radioactivity amount 1275, and a quantity 1276.

The product table generation unit 11 calculates the quantity of products related to radiopharmaceuticals that can be ordered based on the production schedule of radiopharmaceuticals. For example, the product table generation unit 11 generates the product table 125 with reference to the production schedule table 123.

FIG. 4 is a flowchart showing a processing procedure of the product table generation unit 11.

When the manufacturing date is specified, the product table generation unit 11 reads the production schedule data for that day from the production schedule table 123 stored in the data storage unit 120 (S101).

Next, the product table generation unit 11 selects a production lot to be processed (S103).

The product table generation unit 11 calculates the quantity of products that can be ordered based on the production schedule data of the selected production lot (S105).

For example, there are a plurality of test times prepared as a product, and there are also a plurality of radioactivity amounts at each test time, all of which may be predetermined. At this time, the product table generation unit 11 calculates the number of products that can be manufactured from the concentration 1235 and the remaining amount 1238, taking into consideration the attenuation of the radioactivity amount for each predetermined test time-specific radioactivity amount. At this time, the amount of liquid required for each product may be calculated, for example, based on the time decay characteristic of the amount of radioactivity determined by the nuclide of the radiopharmaceutical drug. Further, it is not necessary to calculate the quantity for the test time after the expiration date of 1239. The calculated product quantity by radioactivity amount by test time is stored in the product table 125. Here, the upper limit value and the lower limit value of the amount of liquid to be dispensed may be predetermined. For example, if the size of the vial bottle is predetermined, the range of the amount of liquid to be dispensed is also determined accordingly. As a result, the range of the test time and the amount of radioactivity that can be produced from each production lot is determined.

The product table generation unit 11 repeats the processes of steps S103 and S105 until the calculation of the quantity that can be ordered for all production lots is completed (S107).

The product table generation unit 11 may perform the above processing at an arbitrary timing.
For example, when the production schedule of the production date in the production schedule table 123 is registered, the product table generation unit 11 may perform this process. Alternatively, when the order processing unit 15 processes the order and the remaining amount 1238 of the production schedule table 123 is updated, the product table generation unit 11 may perform the above processing for the order date.

The screen generation unit 13 generates an ordering screen.

5 and 6 show an example of the ordering screen 400.

As shown in the figure, the ordering screen 400 has a condition input unit 410, a product quantity display unit 420, an ordering condition display unit 430, and an ordering button 440.

The ordering screen 400 may be displayed on the display device 3 connected to the management device main body 10 or may be displayed on the display device of the facility terminal 7. When it is displayed on the display device 3, an order is received from the facility by telephone, facsimile or the like, and the staff of the pharmaceutical company inputs the order to the order screen 400. When it is displayed on the facility terminal 7, the staff of the facility inputs to the ordering screen 400.

The condition input unit 410 has input areas for the facility 411, the item 412, and the test date 413. Facility 411, item 412, and certification date 413 accept input by the operator.

Facility 411 accepts the designation of the facility to which the product is delivered. For example, the name of the facility where the drug is ordered is input to the facility 411. In the facility 411, the facility registered in the facility table 121 in advance may be selected. In FIG. 5, facility X is selected, which takes 180 minutes from the product manufacturing site. In FIG. 6, the facility Y, which also has a required time of 300 minutes, is designated.

If the facility is designated by another means, the facility 411 can be omitted. For example, when the ordering screen 400 is displayed on the facility terminal 7, the facility to place an order is the facility where the terminal 7 is installed. The facility may be specified by using, for example, a terminal-specific MAC address, an IP address, or the like, or by using the location information acquired by using the GPS of the terminal. Therefore, in that case, the display of the facility 411 may be omitted on the ordering screen 400, and it may be determined that the order is placed from the facility where the facility terminal 7 to which the order processing unit 15 has sent the ordering request is located. ..

The product quantity display unit 420 determines whether or not it is possible to place an order or place an order for a product with respect to the verification time after the time determined by the ready shipping time of the product produced in each production lot and the time required to reach the designated facility. Display the information shown. In the example of this figure, the information indicating whether or not the product can be ordered or ordered is the product quantity, but other than this, for example, the liquid amount (remaining amount) of the product may be used.

The product quantity display unit 420 is a matrix of the test time and the amount of radioactivity (unit: MBq). The radiation dose gradually increases from the upper stage to the lower stage of the matrix (for example, A (MBq) <B (MBq)). The quantity of products that can be ordered is displayed at each intersection of the matrix. Blank indicates that ordering is not possible. The product quantity displayed on the product quantity display unit 420 may be a numerical value stored in the product table 125. That is, the quantity 1256 of the product table 125 is copied to the corresponding test time and radiation dose area.

The product quantity display unit 420 has a display area 42 of the product quantity that can be manufactured from the first production lot.
1. The display area 422 of the product quantity that can be manufactured from the second production lot, and the display area 423 of the product quantity that can be manufactured from the third production lot are included. The display of the product quantity display unit 420 may or may not be possible for the operator who operates the screen to identify the difference in the production lot.

By the way, in the present embodiment, it is necessary to deliver the product from the place where the product is manufactured to each facility where the product is used. Therefore, it is necessary to consider the time required for delivery to each facility for the verification time when orders can be placed and received at each facility. That is, the earliest inspection time that can be ordered at each facility is determined by the shipping time of each production lot and the time required from the manufacturing place for each production lot. Then, the ordering screen 400 accepts orders for each production lot only after the earliest verification time in which orders can be placed.

For example, when the shipping time of the second production lot is 7:30 am, the time required to reach the facility X is 120 minutes and the time required to reach the facility Y is 240 minutes, so that the facility X shown in FIG. 5 is the earliest. The test time is 9:30, and the earliest test time is 11:30 for the facility Y shown in FIG.

The latest verification time is determined by the expiration date of each production lot. That is, the ordering screen 400 accepts orders only for the verification time before the expiration date. Therefore, the product quantity display unit 420 displays the quantity for the verification time before the expiration date of each production lot, and does not display the verification time after the expiration date. When the expiration date of the first production lot is 11:50 am, the latest verification time is 11:30 am in both the facility X shown in FIG. 5 and the facility Y shown in FIG.

In addition, the area of each production lot is rising to the right because the upper and lower limits of the amount of dispensed liquid are set. That is, for a product having a liquid amount at the lower limit of the dispensing amount, the radiation dose decreases with the passage of time, so that the upper diagonal line is defined. For example, in the area of the third production lot in FIG. 5, the minimum radioactivity amount at 13:00, 13:30, 14:00, and 14:30 is reduced. Similarly, a product having a liquid volume of the upper limit of the dispensing amount also has a radioactive amount that decreases with the passage of time, so that the lower diagonal line is defined. For example, in the area of the third production lot in FIG. 5, the maximum amount of radioactivity from 14:00 to 16:00 is reduced.

Further, since the production is performed a plurality of times a day in the present embodiment, the products related to the first production lot and the products having the same production date and the same test time and the amount of radioactivity are after the first production lot. It may be possible to place an order for any of the products related to the second production lot produced. The screen generation unit 13 may determine the quantity to be displayed on the product quantity display unit 420 in accordance with a predetermined policy for the overlapping verification times and radioactivity quantities that can be supplied from such a plurality of production lots.

For example, a policy may be adopted in which the number of products in the second production lot with a late production time 1236 is prioritized and displayed. In this case, for overlapping verification times and radioactivity quantities that can be supplied from such two lots, the product quantity display unit 420 displays the number of products in the production lot whose production time 1236 is late. As a result, it is possible to prioritize orders for products related to production lots with late production times. By using a production lot with a late production time of 1236, a smaller amount of dispensing is required for a product having the same verification time and radioactivity, so that more products can be secured.

In addition, different policies may be adopted depending on the facility. For example, in the case of a facility where the required time for transportation is longer than the specified time, the number of products in the first production lot with the earlier production time is prioritized and displayed, and in the case of the facility where the required time is shorter than the specified time, the production time is late. The number of products in the production lot of 2 may be displayed with priority.

On the other hand, a policy may be adopted in which the number of products in the first production lot with an earlier production time of 1236 is prioritized and displayed. In this case, for the overlapping verification times and radioactivity quantities that can be supplied from the two lots, the product quantity display unit 420 displays the number of products in the production lot with the earlier production time 1236. As a result, it is possible to prioritize orders for products related to production lots with earlier production times. As a result, the bulk solution of the production lot with the late production time is preserved, and it is more likely that more orders will be accepted just before the certification time.

Furthermore, regarding the overlapping verification times and radioactivity quantities that can be supplied from the two lots, the product quantity display unit 420 receives the orderable quantity of the product related to the first production lot and the product related to the second production lot. A policy that displays the sum of the quantities that can be ordered may be used. This makes it possible to present the maximum quantity that can be ordered for overlapping test times and radioactivity quantities.

In the matrix of the product quantity display unit 420, it is possible to place an order or place an order for a product having a verification time and a radioactivity amount on which a number is displayed within a range not exceeding the number. Therefore, as described below, the operator may select the verification time and the amount of radioactivity in the product quantity display unit 420, specify the numerical values in the range that can be ordered in the quantity input area 431, and place an order or place an order. good. The test time and the amount of radioactivity may be specified by other methods.

Each area of the matrix of the product quantity display unit 420 can be selected by the operator. When any area of the product quantity display unit 420 is selected, the selection display 425 surrounding the selected area is displayed.

The order condition display unit 430 displays the verification time and the amount of radioactivity corresponding to the selection display 425. Further, the order condition display unit 430 has an area 431 that accepts input of a quantity. The test time and the amount of radioactivity selected on the selection display 425 and the quantity input in the quantity input area 431 are the conditions for placing and receiving an order. The order quantity may be set to the default setting (for example, "1"), and the quantity input area 431 may be omitted from the ordering screen 400.

When the order button 440 is pressed, the ordering screen 400 accepts the ordering request under the ordering conditions shown in the condition input unit 410 and the quantity display unit 420 at that time.

In the facility X of FIG. 5 and the facility Y of FIG. 6, the time required from the manufacturing place of the product to the facility Y 1213 is 120 minutes and 240 minutes, respectively. Therefore, due to this difference, the quantity of products that can be ordered from each facility changes.

FIG. 7 is a flowchart showing the processing procedure of the screen generation unit 13.

The screen generation unit 13 first displays the ordering screen 400. At this time, the display of the condition input unit 410, the quantity display unit 420, and the order condition display unit 430 is arbitrary. Here, the screen generation unit 13 accepts the facility, item, and verification date designated by the condition input unit 410 (S201).

Next, the screen generation unit 13 acquires the required time 1213 of the facility specified in step S201 from the facility table 121 (S203).

Then, the screen generation unit 13 acquires the shippable time 1237 of each production lot from the production schedule table 123 based on the item 1233 and the date 1231 corresponding to the test date. Then, the earliest time when the product of each production lot can arrive at the facility is specified (S205).

Further, the screen generation unit 13 specifies the expiration date 1239 of each production lot with reference to the production schedule table 123 (S207).

With reference to the product table 125, the screen generation unit 13 specifies the product quantity by radioactivity for the verification time after the earliest arrival time and before the expiration date for each production lot, and displays the product quantity display unit 420. Generate (S209). At this time, the overlapping verification times and the amount of radioactivity that can be supplied from the two production lots may be processed according to a predetermined policy. In this embodiment, a policy is adopted in which the display of the production lot after the production time is prioritized.

The screen generation unit 13 causes the display device to display the ordering screen 400 having the product quantity display unit 420 generated according to the above process (S211).

The screen generation unit 13 may execute the above-mentioned process every time any one or more of the facility, the item, and the test date is updated in the condition input unit 410.

When the ordering button 440 is pressed on the ordering screen 400, the order processing unit 15 processes the order. The order processing unit 15 processes the order based on the verification time, the amount of radioactivity, and the quantity designated based on the display of the product quantity display unit 420.

FIG. 8 is a flowchart showing a processing procedure of the order processing unit 15.

The order processing unit 15 receives an ordering request from the ordering screen 400 (S301). The ordering request may include, for example, ordering information including the facility name, item, verification date, verification time, radioactivity amount, and order quantity specified on the ordering screen 400.

The order processing unit 15 refers to the product table 125 and determines whether or not the order can be placed or received based on the acquired ordering information (S303). For example, the order processing unit 15 determines whether or not only the requested quantity of the product of the item, the verification date, the verification time, and the radioactivity amount related to the ordering request can be secured.

When it is determined in step S303 that an order can be received (S303: Yes), the order processing unit 15 updates the product table 125 and the order table 127 to complete the order (S305). For example, the order processing unit 15 reduces the quantity 1256 of the records in the product table 125 corresponding to the order processing information by the ordered quantity as the order processing. Further, the order processing unit 15 adds the ordered quantity to the quantity 1276 of the record in the order table 127 corresponding to the order processing information.

At this time, if the ordered facility is a facility that requires air transportation, whether or not the maximum transportation index of the aircraft used for transportation is exceeded based on the radiation dose 1275 and quantity 1276 of the ordered product. If it exceeds the limit, the order may not be accepted.

After the order is completed, the order processing unit 15 instructs to output the predetermined ordering / receiving information related to the ordering or the ordering (S307). For example, based on the instruction from the order processing unit 15, the management device 1 may output the production instruction information including the product information related to the ordering to the system that manages the production equipment, or the ordering may be performed from a printer or the like (not shown). The delivery information including the product information related to the above may be printed on an invoice, a delivery slip, or the like.

If it is determined in step S303 that ordering is not possible (S303: No), the process ends. At this time, the order processing unit 15 may output some error message to the operator.

The embodiments of the present invention described above are examples for the purpose of explaining the present invention, and the scope of the present invention is not limited to those embodiments. Those skilled in the art can practice the invention in various other embodiments without departing from the gist of the invention.

10 Management device main unit 11 Product table generation unit 13 Screen generation unit 15 Order processing unit 120 Data storage unit 121 Facility table 123 Production schedule table 125 Product table 127 Ordering table 400 Ordering screen

Claims (10)

A computer program that is executed by a computer that manages orders or orders for products related to radiopharmaceuticals.
To the computer having access to a production schedule table having a concentration and a residual amount of the bulk solution serving as a radiopharmaceutical product for each production lot of the bulk solution and further having a shipping time of the production lot .
Based on the production schedule table, a product table generation process for generating a product table in which the quantity of the product that can be manufactured according to the test time and the amount of radioactivity is specified is executed .
The product table generation process is
The facility that uses the radiopharmaceutical and the process of accepting the certification date,
Based on the production schedule table, a process of specifying the earliest time when a product of the production lot can arrive at the facility, which is determined from the ready time of the production lot corresponding to the certification date,
A computer program comprising a process of identifying a product corresponding to a test time after the earliest time as the manufacturable product . A computer program that is executed by a computer that manages orders or orders for products related to radiopharmaceuticals.
To the computer having access to a production schedule table having the concentration and remaining amount of the bulk solution as the radiopharmaceutical for each production lot of the bulk solution.
Based on the production schedule table, a product table generation process for generating a product table in which the quantity of the product that can be manufactured according to the test time and the amount of radioactivity is specified is executed.
The production lot is a first production lot and a second production lot produced after the first production lot, and the product related to the first production lot and the product related to the second production lot. A computer program with overlapping test times and radioactivity. The computer program according to claim 2 , wherein the concentration of the bulk solution of the first production lot and the concentration of the bulk solution of the second production lot are different from each other. The product according to the radiopharmaceutical product is any of claims 1 to 3 , which is a product manufactured by dispensing from the bulk solution for each of the plurality of predetermined test times and the plurality of radioactivity amounts. The computer program described in one paragraph . The computer program according to any one of claims 1 to 4, wherein the product table generation process identifies the manufacturable product whose liquid amount is within a predetermined range. The production schedule table further has an expiration date for the product.
The computer program according to any one of claims 1 to 5 , wherein the product table generation process includes a process of specifying a product corresponding to a test time before the expiration date as a product that can be manufactured. A management device that manages orders or orders for products related to radiopharmaceuticals.
A data storage unit that stores a production schedule table that has the concentration and remaining amount of the bulk solution serving as a radiopharmaceutical product for each production lot of the bulk solution and further has a shippable time of the production lot .
It has a product table generation unit that generates a product table that specifies the quantity of the product that can be manufactured according to the test time and the amount of radioactivity based on the production schedule table .
The product table generation unit
The facility that uses the radiopharmaceutical and the certification date are accepted, and based on the production schedule table, the product of the production lot that can be reached at the facility is the most determined from the shipping time of the production lot corresponding to the certification date. A management device that identifies an early time and identifies a product corresponding to the verification time after the earliest time as the product that can be manufactured . A management device that manages orders or orders for products related to radiopharmaceuticals.
A data storage unit that stores a production schedule table having the concentration and remaining amount of the bulk solution serving as a radiopharmaceutical for each production lot of the bulk solution.
It has a product table generation unit that generates a product table that specifies the quantity of the product that can be manufactured according to the test time and the amount of radioactivity based on the production schedule table.
The production lot is a first production lot and a second production lot produced after the first production lot, and the product related to the first production lot and the product related to the second production lot. Management device with overlapping test time and amount of radioactivity. A method performed by a computer that manages orders or orders for products related to radiopharmaceuticals.
A production schedule table having a concentration and a remaining amount of the bulk solution serving as a radiopharmaceutical product for each production lot of the bulk solution and further having a shippable time of the production lot is stored.
Based on the production schedule table, a product table that specifies the quantity of the product that can be manufactured by the test time and the amount of radioactivity is generated .
In the generation of the product table,
Accepting facilities and certification dates that use the radiopharmaceuticals,
Based on the production schedule table, the earliest time when the product of the production lot can arrive at the facility, which is determined from the ready time of the production lot corresponding to the certification date, is specified.
A method for identifying a product corresponding to a test time after the earliest time as a product that can be manufactured . A method performed by a computer that manages orders or orders for products related to radiopharmaceuticals.
A production schedule table having the concentration and remaining amount of the bulk solution serving as the radiopharmaceutical product for each production lot of the bulk solution is stored.
Before it can be manufactured according to the test time and the amount of radioactivity based on the production schedule table.
Generate a product table that specifies the quantity of the listed products,
The production lot is a first production lot and a second production lot produced after the first production lot, and the product related to the first production lot and the product related to the second production lot. The method in which there is an overlap in the test time and the amount of radioactivity.

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