JP2003196404A - Radioactive drug delivery method and radioactive drug delivery system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To immediately and surely supply radioactive drugs to a medical facility when the demand for the radioactive drugs is raised in a hospital. <P>SOLUTION: This radioactive drug delivery system includes a base hospital 2 for manufacturing radioactive drugs and performing medical examination, an adjacent hospital 3 for receiving delivery of the radioactive drugs and performing medical examination, and a data management center connected to the base hospital 2, the adjacent hospital 3 and a subject 8 through the Internet 4. The data management center 1 gives the information including the radioactive drugs, their amount and examination dates required for examination to the respective hospitals 2, 3 according to the information from the respective hospitals 2, 3 and the subject 8, and according to the information, the base hospital 2 instructs the adjacent hospitals 3 to manufacture and deliver the radioactive drugs. <P>COPYRIGHT: (C)2003,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a delivery system and method for a radiopharmaceutical or a radionuclide as a raw material thereof, and more particularly to a method for screening cancer etc. using a radiopharmaceutical made of a radionuclide having a short half-life. The present invention relates to a radiopharmaceutical delivery method and a radiopharmaceutical delivery system which are used for PET (positron emission CT) screening and the like.

[0002]

2. Description of the Related Art At present, SPECT (single photon emission type CT) is known as a means of cancer diagnosis (cancer screening). This is to manufacture a drug for screening using nuclides ⁹⁹ Mo, ¹³¹ I, ¹²³ I, ²⁰¹ Tl and the like, and use this for screening cancer and the like. The half-life of these nuclides is relatively long, 2-3 days.

By the way, from the viewpoint of further enhancing the measurement performance, instead of SPECT, PET (positron emission type C
T) Screening is being adopted. Nuclides, which are the raw material for positron emission CT or PET, are produced by an accelerator, but their half-life is much shorter than that for SPECT (for example, 110 minutes for fluorine 18), and the time required for transportation is taken into consideration for screening. In order to secure the amount to be used for, a considerably large amount of nuclide must be produced, and it must be promptly used in consideration of its half-life.

[0004]

However, the production of nuclides requires not only nuclear-related equipment such as cyclotron but also technology. Therefore, (1) production of nuclides,
Only a limited number of hospitals and facilities can consistently perform (2) production of radiopharmaceuticals and (3) medical examinations using radiopharmaceuticals. And many hospitals will be screened by the supply of such nuclides and radiopharmaceuticals. PE
The circumstances of T adoption are, for example, “PE
T-Communication 1998 WINTER No. 25 ”page 15-
See page 17, etc.

It is assumed that radiation screening will become widespread in the future and a large amount of radiopharmaceutical will be required for screening in hospitals.
In the conventional supply of radiopharmaceuticals, there is a possibility that a nuclide having a short half-life cannot be effectively and reliably supplied to a medical facility and used for screening.

[0006] The main object of the present invention is to provide a radiopharmaceutical delivery method and a radiopharmaceutical delivery system which realize proper delivery and examination of radiopharmaceuticals.

[0007]

According to the present invention, a data management center obtains request information from a medical examiner and includes it in a temporal distance relationship between hospitals (base hospital-neighboring hospital, ...) and radiopharmaceuticals. Half-life of radioisotope (RI; Radio Isotope),
Considering the manufacturing capacity of the base hospital (manufacturing base) and the medical examination processing capacity of the hospital that performs the medical examination, a schedule is created so that an appropriate amount can be delivered at the medical examination date and time. The data management center then creates a radiopharmaceutical delivery schedule,
Notify the base hospital (for example, instruct production of RI and radiopharmaceutical).

[0008] More preferably, the data management center delivers the radiopharmaceutical to the base hospital, for example, the production amount of the radiopharmaceutical in consideration of the required amount in the own hospital and the required amount in the neighboring hospital. Notify the name of the nearby hospital and the delivery date and time.
On the other hand, for example, the delivery date and time of the radiopharmaceutical, the name of the base hospital to deliver the radiopharmaceutical, and the type of radiopharmaceutical are notified to the neighboring hospitals.
If there are multiple base hospitals that have the ability to deliver to nearby hospitals, for example, consider the distance between the deliverable base hospital and the nearby hospital to be delivered, and the transportation time, and supply from the hospital that is timely and economically efficient. To do.

[0009]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the drawings. In the following embodiments of the present invention, medical institutions such as radiation screening centers and hospitals are collectively referred to as hospitals, and radiopharmaceuticals or their materials are referred to as radiopharmaceuticals. When a hospital conducts a radiological examination, the radiopharmaceutical is manufactured and supplied in its own hospital or supplied from another facility. A hospital that manufactures the radiopharmaceutical in its own hospital and uses it in-house and supplies it to other hospitals is called a base hospital, and a hospital that receives the radiopharmaceutical from this base hospital is called a neighboring hospital. Facilities (manufacturing bases) that manufacture radiopharmaceuticals but do not carry out medical examinations shall fall under the category of a base hospital. By the way, the production of radionuclides as a raw material for radiopharmaceuticals requires nuclear-related equipment such as cyclotrons, which limits the number of hospitals that can consistently perform from the production of radionuclides to medical examinations.

[First Embodiment] FIG. 1 is a system configuration diagram of a radiopharmaceutical delivery system embodying the radiopharmaceutical delivery method of the present invention. In the figure, 1 is a data management center, 2 is a base hospital, 3 is a neighboring hospital, 4 is the Internet, 8 is a general name of the examiner, and 9 is an examination car.

The base hospital 2 is a community consisting of a hospital business body 6 which is the original business of the hospital and a medical examination support business body 5 which supports the medical examination operation. Collectively called both base hospitals). This base hospital 2 has a facility for producing a nuclide (for example, fluorine 18) and a radiopharmaceutical (for example, FDG [fluorodeoxyglucose] containing fluorine 18) and has a capability of supplying the radiopharmaceutical to another hospital. It is a hospital (corresponding to the "manufacturing base" in the claims). The medical examination support enterprise 5 is a terminal device and an operator for exchanging data with the data management center 1, which is a support business from the data management center 1 or a business associated with the hospital business body 6. Good.

The neighboring hospital 3 is a community consisting of a hospital business 7 and a medical examination support business 5 that supports medical examination operation, and both of them perform a medical examination business by PET (hereinafter, both will be collectively referred to as neighborhood. Called a hospital). Neighborhood hospital 3
It is a hospital that conducts radiation screenings from other sources without manufacturing radiopharmaceuticals. Although there are a plurality of examiners, they are collectively referred to as examiner 8.

The data management center 1 supplies medical examination information to the base hospital 2, the neighboring hospital 3, the medical examiner 8, and the medical examination car 9 via the Internet (communication line) 4. Specifically, the required amount of radiopharmaceutical is
The neighborhood hospital 3 is contacted, and the base hospital 2 is delivered to which neighborhood hospital 3 for delivery. For example, when the examiner 8 designates the neighboring hospital 3 to be examined, which base hospital 2
Whether to select is to consider a distance between the base hospital 2 that can be supplied and the neighboring hospital 3 that can be supplied, and a transportation time, which is a combination that is time and economically efficient, for example, the base hospital 2 that minimizes the transportation time. Choose. In addition, when the examiner 8 does not specify the neighboring hospital 3 to be examined, considering the address of the examiner 8 and the place of employment (see FIG. 4), the neighborhood is timely and economically efficient. Select Hospital 3 (If you select Neighborhood Hospital 3, then select Base Hospital 2). The data management center 1 can also introduce another hospital to the examiner 8 when the hospital selected by the examiner 8 is not convenient. In some cases, one medical examination support enterprise 5 plays the role of the data management center 1.

In order to realize such a function, the data management center 1 is provided with a server (computer) not shown. The server is installed with a WWW server program and is equipped with a router as a communication device so that communication can be performed by TCP / IP. In addition, a program for transmitting and receiving various data and information, a program for receiving examination request information (request information) and a program for scheduling are deployed and activated on the control device (control device composed of CPU and RAM) of the server. ing. Further, a Web page, various data and information, which will be described later with reference to FIGS. 4 and 5, are stored in the storage device.

FIG. 2 is a flow chart showing the flow of the radiopharmaceutical delivery system according to the embodiment of the present invention, and FIG. 3 is a sequence diagram.

It is assumed that there are a plurality of base hospitals 2 having facilities for manufacturing radiopharmaceuticals in the hospitals and capable of supplying radiopharmaceuticals to other hospitals. Here, base hospitals A and B are taken as an example. . Base hospital A, without manufacturing radiopharmaceuticals
Assuming that there are a plurality of neighboring hospitals 3 that carry out radiation screening by the supply from B, the neighboring hospitals C and D will be taken as an example here. Although there are a plurality of examiners, they are collectively referred to as examiner 8.

The data management center 1 uses the Internet 4 (see FIG. 1), for example, to check information about each base hospital 2 and the neighboring hospital 3 (radiation checkup recruitment information [checker 8
Information for soliciting] is provided to the examiner 8 (step S
1). Each base hospital 2 and the neighboring hospital 3 may also provide the checkup information to the examiner 8 independently, and the checkup information from the base hospital 2 and the neighboring hospital 3 is shown by a dashed line.
By the way, each base hospital 2, neighboring hospital 3 and examiner 8
It is assumed that a personal computer in which a browser for browsing the WWW and a mailer for sending and receiving electronic mail are installed is provided as a terminal and communicates with the server of the data management center 1, respectively.

Next, if the medical examiner 8 wishes for medical examination (PET medical examination) based on the information, he / she provides the medical examination desired information to either the base hospital 2, the neighboring hospital 3 or the data management center 1. Yes (step S2). This step 2
The check-up request information of (1) corresponds to the "request information" in the claims.
Note that FIG. 4 is a screen for inputting desired medical examination information. This screen is displayed as a screen (Web page) linked to the TOP page when the browser installed in the personal computer (personal computer) operated by the examiner 8 is started and the server of the data management center 1 is accessed.

The desired medical examination information of the medical examiner 8 obtained by each hospital 2 or 3 is notified to the data management center 1 (step S).
3). This is because the data management center 1 needs to create a schedule. The examination request information provided by the examiner 8 directly or indirectly to the data management center 1 includes, for example, “which hospital”, “when”, “who goes”, and “what kind of examination”. And the like (see FIG. 4). By the way, "which hospital" and "when" can be scheduled by the data management center 1 and notified to the examiner 8, the base hospital 2 and the neighboring hospital 3 (the intention that the examinee 8 wants the examination). As long as you can confirm
The data management center 1 can create a schedule).

The data management center 1 is installed in each hospital 2 and 3.
Taking into account the examination processing capabilities of each hospital 2 and 3, the contents of the examination, such as the number of persons to be examined (weight, name), the type of examination, the date and time of examination, etc. are notified to the person 8 to be examined. Informing the name of the hospital to be examined and the contents of the examination (step S4).

Specifically, the data management center 1 (server), in addition to the information obtained from the examiner 8 (examination request information, etc.), information on the half-life of the nuclide, which is stored in advance, and the base hospital. 2 Radiopharmaceutical production capacity (nuclide [R
I] Manufacturing capacity), screening processing capacity of neighboring hospital 3 (screening processing capacity of base hospital 2 itself), required amount at neighboring hospital 3 (base hospital 2 itself), temporal distance relationship between base hospital 2 and neighboring hospital 3 Scheduling is performed based on such factors as the number of people to be screened and radiopharmaceutical information (type and amount of radiopharmaceutical / nuclide)
To the base hospital 2 and the neighboring hospital 3. In this embodiment, the data management center 1 determines the amount of the radiopharmaceutical required for the medical examination, the medical examination start time (the medical examination date and time), the temporal distance relationship between the base hospital 2 and the neighboring hospital 3, and the radiopharmaceutical in the base hospital 2. The production start time of the radiopharmaceutical (nuclide) in the base hospital 2 is scheduled based on the (nuclide) production capacity and other schedules already created, and this is notified to the base hospital 2. For example, contact
"○ △ Deliver to hospital ○ △ Radiopharmaceutical XXg in the afternoon ○
Please start manufacturing at XX hours and XX minutes. " This corresponds to the "instruction of manufacture of radiopharmaceutical via a communication line" in the claims. By the way, regarding the production start time of radiopharmaceuticals (nuclides), the base hospital 2 checks the start time of the examination from the data management center 1, the type of examination, the weight of the person 8 to be examined, and the base hospital 2 and the neighboring hospital 3 as necessary. You may be notified of the time distance and set it yourself.

That is, in this step S4, the base hospital 2 has information on the neighboring hospital 3 to which the radiopharmaceutical is to be delivered, information on the radiopharmaceutical to be delivered, such as the type of examination, the type and amount of the radiopharmaceutical required for the examination, Notify the date and time of the medical examination and the start time of the radiopharmaceutical production. In addition, the neighboring hospital 3 is notified of the name of the base hospital 2 to be delivered, information on the radiopharmaceutical to be delivered, the date and time, etc. (the name of the examiner 8 is also notified or separately). If a large amount of radiopharmaceuticals are required in the nearby hospital C and a large amount of radiopharmaceutical is required in the nearby hospital C, or if the supply to the base hospital A is tight (delivery from the base hospital A only Data management center 1)
Issues an instruction to also deliver from base hospital B (scheduling to deliver the shortage from base hospital B). The data management center 1 may change the hospital to undergo the examination (change the schedule) in some cases. Such a schedule change can be easily performed when the data management center 1 centrally manages information.

The base hospitals A and B manufacture radiopharmaceuticals based on the scheduling notified in step S4, that is, according to the instruction of the data management center 1, and the neighboring hospitals 3
It is delivered to (C, D) (step S5). Neighborhood hospital C
If the radiopharmaceutical from base hospital A is insufficient,
The radiopharmaceutical is also delivered from the base hospital B (step S6).

The examiner 8 goes to the hospital for the examination based on the information of the data management center 1, and each hospital carries out the examination based on the information of the data management center 1 (step S7).

The medical examiner 8 pays the medical examination fee to the hospital inspected based on the information of the data management center 1 (step S
8). The neighboring hospital 3 pays the fee for the radiopharmaceutical to the base hospital 2 that received the delivery of the radiopharmaceutical (step S9). In the example of FIG. 3, the nearby hospital D pays the fee for the radiopharmaceutical to the base hospital B, and the nearby hospital C pays not only the base hospital A but also the base hospital B. This is because the radiopharmaceuticals were supplied from both base hospitals A and B. The base hospital 2 and the neighboring hospital 3 pay the service fee for providing information to the data management center 1 (step S10).

FIG. 5 shows basic data necessary for creating the delivery schedule in step S4. Delivery of radiopharmaceuticals requires a short delivery time because the half-life of the nuclide contained in the drug is short. Therefore, first, the radiopharmaceutical production capacity 10 of each base hospital (here, A and B) is grasped as data (obviously, the half-life of the nuclide contained is grasped as data).
This radiopharmaceutical production capacity 10 includes the production amount, production time,
Included are drug species that can be manufactured.

Further, the examination processing capacity 11 of each hospital (here, A, B, C, D) of the base hospital 2 and the neighboring hospital 3 is grasped as data. This examination processing capacity includes the number of examination cameras owned by each hospital (the examination processing ability is proportional to the number of cameras).

Each hospital (here, A, B, C, D)
In order to grasp the delivery time between the hospitals in advance, the time distance relationship 12 between the hospitals is converted into data. That is, between hospitals AB,
The relationship between the hospital AC, the hospital AD, the hospital BC, the hospital BD, the hospital CD, and the delivery time is grasped as data. Thereby, the base hospital with the shortest delivery time can be selected.

When the examination cannot be performed due to the convenience of the examiner, and the radiopharmaceutical remains in the neighboring hospital C or D, and the radiopharmaceutical becomes insufficient in another neighboring hospital 3, the radiopharmaceutical is delivered between the neighboring hospitals. obtain. Even in this case, the neighborhood hospital CD
By knowing the time-distance relationship between them, it is possible to easily decide the delivery destination.

Further, in order to inform the examiner of the most suitable hospital for the examination, the time distance relationship 13 between the examiner and each hospital A, B, C, D is converted into data.

According to the present embodiment, the base hospital 2 saves the trouble of finding the neighboring hospital 3 to which the radiopharmaceutical is delivered,
There is no need to control radiopharmaceutical production. Base hospital 2
Can make full use of its radiopharmaceutical production capacity, which improves device utilization efficiency. The neighboring hospital 3 saves the trouble of finding a base hospital to receive the delivery of the radiopharmaceutical, and the radiopharmaceutical is stably delivered, so that the examination efficiency is improved.

As described above, the delivery production amount of the radiopharmaceutical to the delivery production amount can be efficiently utilized between hospitals connected by the Internet, and the radiopharmaceutical can be stably supplied to the neighboring hospital 3. Therefore, the base hospital can effectively use the radiopharmaceutical manufacturing apparatus.

As described above, in the present embodiment, since the production, usage amount, delivery amount, etc. of the radiopharmaceutical can be managed from the data management center 1 via the Internet 4, the following effects can be obtained.

(1) The production amount of radiopharmaceutical can be reduced. (2) Delivery management is accurate and there is no erroneous delivery. (3) Radiopharmaceuticals can be transported in the minimum necessary amount, so even if an accident occurs during delivery, the scattering of radioactive materials can be minimized. (4) Transportation costs can be supplied cheaply, and (5) Sudden cancellation can be dealt with. (6) Since the time required for the transportation process is clear and the amount of radioactivity is clearly known, it is not necessary to mix the amount at the medical site, and quality control can be thoroughly performed.

For example, when a radiopharmaceutical is delivered to a medical facility by using a transportation means such as a vehicle, an unexpected situation of the management facility such as a traffic accident may occur, and the radiopharmaceutical may not be delivered at a predetermined examination time. In this case, not only the examination cannot be performed, but also it is necessary to have the examiner come to the medical facility again, which may impair the convenience. However, according to the radiopharmaceutical delivery method and radiopharmaceutical delivery system of the present invention, since the data management center 1 centrally manages various information, it is possible to easily give an instruction to change the schedule. It is also possible to change the base hospital that is the drug delivery source, or to guide the examiner to another hospital or the like.

As described above, the nuclide contained in the radiopharmaceutical has a half-life, and the abundance of the nuclide decreases according to the half-life (it cannot be stored in a frozen state). For this reason, the neighboring hospitals cannot anticipate the possible use of radiopharmaceuticals in the near future, and cannot store them (build-in), and if necessary, base hospitals (manufacturing bases)
Will supply (deliver) the radiopharmaceutical.
In the present invention, the half-life of the radiopharmaceutical used in the radiological examination is short (110 minutes as described above for fluorine 18), and it is necessary to predict and supply the reduced amount. The half-life T of the radiopharmaceutical is shown in FIG. 6, and information on this half-life T is also stored in the server (computer) that creates the schedule so that the information can be referred to when creating the schedule. Has become.

Incidentally, referring to FIG. 6 for explaining the half-life of nuclides, it is assumed that it takes time t = T minutes (half-life time) for transportation from the base hospital 2 to the neighboring hospital 3 shown in FIG. For example (more accurately, if it is injected into the examiner 8 after T minutes, which is the half-life of the radionuclide contained in the radionuclide), the amount of the radiopharmaceutical after the time t = T minutes (of the contained nuclide). The radiopharmaceutical is manufactured by back-calculation so that the amount) becomes appropriate (scheduled accordingly). The schedule preparation naturally reflects the manufacturing capacity of the radiopharmaceutical and the temporal distance relationship between the hospitals 2 and 3. Note that FIG.
Shows that the amount N of the nuclide was initially N ₀ , that is, half of it, that is, N = N _0/2 was reached after T minutes (half-life). Moreover half, i.e. N = N _0/4 (initial quarter) to become more T minutes after (2 total
T minutes later). If the radiopharmaceutical is injected into the medical examiner 8 after the time t = 2T in this figure, the amount of nuclide contained in the radiopharmaceutical will be insufficient, and appropriate medical examination (PET medical examination) will be performed in terms of sensitivity and the like. It may not be possible. On the other hand, in order to secure the amount of the nuclide, the injection amount (dose) of the radiopharmaceutical to the examiner 8 must be increased (for example, doubled), which is a heavy burden on the examiner 8. Further, if a large amount of radiopharmaceutical is delivered with an allowance, the subsequent processing will be troublesome. Further, the management system in the neighboring hospital 3 must be made strict, which is not preferable because the burden on the neighboring hospital 3 becomes large. Therefore, with an appropriate schedule,
It is important to manufacture and deliver the right amount of drug. In other words, this is the point of the meaning of "create a schedule so that an appropriate amount can be delivered from the manufacturing base to the hospital on the date and time of examination".

[Second Embodiment] FIG. 7 shows a second embodiment of the present invention.
An embodiment is shown. In the figure, components having the same functions as those in FIG. 1 are designated by the same reference numerals. In this example, it is assumed that a plurality of base hospitals A and B are located apart from each other (for example, Hitachi city and Mito city), and there are a plurality of neighboring hospitals 3 that are strongly related to the base hospitals A and B. In this example, the neighborhood hospitals strongly associated with the base hospital A are a, b, and c, the neighborhood hospitals strongly associated with the base hospital B are d, and the examination car 9 strongly associated with the base hospital B is e.

The data management center 1 is the Internet 4
Share the medical examination information with the base hospital 2 via. Base hospital A
Normally delivers the radiopharmaceutical to nearby hospitals a, b, c which are strongly related, and base hospital B usually receives nearby nearby hospital d.
And the radiopharmaceutical is delivered to the examination car 9. The data management center 1 keeps track of the number of checkups, the amount of radiopharmaceuticals manufactured, etc. For example, the number of checkups at the neighboring hospital d is expected to increase, and the radiopharmaceutical is insufficient when delivered only from the base hospital B. Data management center 1
Contacts the base hospital A having a sufficient manufacturing capacity to notify the required amount of the radiopharmaceutical, and delivers the radiopharmaceutical from the base hospital A to the base hospital B. The base hospital B delivers the radiopharmaceutical to the neighboring hospital d by placing it on a normal delivery route.

In the second embodiment, the data management center 1 only needs to share the examination information with the base hospital 2 via the Internet 4, and the delivery route is a predetermined delivery between base hospitals. The effect is that stable delivery is possible. Of course, similar to the first embodiment, it is possible to obtain the effect that the medicine is not wasted. Also in the case of the second embodiment, one examination support business entity 5 may serve as the data management center 1.

The present invention described above can be widely modified and implemented without being limited to the embodiments of the invention described above. For example, the communication is not limited to the Internet, and may be a dedicated line communication. Further, the examiner 8 may communicate with the data management center (computer) by using the Internet connection function or the electronic mail transmission function of the mobile phone. Further, the base hospital may manufacture and deliver the nuclide, and the neighboring hospital that receives the delivery of the nuclide may manufacture the radiopharmaceutical from the nuclide. Further, the data management center 1 schedules the production start time of the radiopharmaceutical and notifies it to the base hospital 2 (manufacturing start instruction), but notifies the production completion time or the delivery start time (manufacturing bureaucratic time instruction, The delivery start time may be specified). Further, the data management center 1 monitors the examination schedule of each hospital, and if there is a vacancy in the schedule, publishes information indicating that there is a vacancy on the WWW, and recruits examiners 8. Good. Alternatively, the examinees 8 may be recruited by individually sending an email or the like to a person who can be the examiner 8.

[0042]

According to the present invention, a delivery plan can be made according to the amount of radiopharmaceutical used in each hospital, so that stable drug supply can be achieved and efficient drug use becomes possible, and the radiopharmaceutical in the hospital can be used. Even if the demand for the drug increases, the drug can be rapidly and reliably supplied.

[Brief description of drawings]

FIG. 1 is a system configuration diagram showing a first embodiment of a radiopharmaceutical delivery system embodying the radiopharmaceutical delivery method of the present invention.

FIG. 2 is a flowchart showing a flow of delivery of a radiopharmaceutical.

FIG. 3 is a sequence diagram showing a flow of radiopharmaceutical delivery.

FIG. 4 is a screen for inputting desired medical information displayed on the personal computer of the medical examiner.

FIG. 5 is a configuration diagram of stored data in a data management center.

FIG. 6 is a diagram illustrating a half-life of a nuclide.

FIG. 7 is a system configuration diagram of a second embodiment of the present invention.

[Explanation of symbols]

1 ... Data management center (server, computer) 2 ... Base hospital 3 ... Neighborhood hospital 4 Internet (communication line) 5 ... Supporting entity 6 ... Base hospital business entity 7 ... Neighborhood hospital enterprise 8 ... Examiner 9 ... Examination car

   ─────────────────────────────────────────────────── ─── Continued front page    (72) Inventor Akira Uemura             4-6 Kanda Surugadai, Chiyoda-ku, Tokyo             Within Hitachi, Ltd. (72) Inventor Tatsuo Izumida             4-6 Kanda Surugadai, Chiyoda-ku, Tokyo             Within Hitachi, Ltd. (72) Inventor Takuro Honda             2-12-1 Omika-cho, Hitachi-shi, Ibaraki Prefecture             Ceremony Company Hitachi, Ltd.

Claims (7)

[Claims] 1. A medical examination examiner who receives a medical examination using a radiopharmaceutical, a hospital performing the medical examination, a manufacturing base for manufacturing the radiopharmaceutical for the hospital, and a computer connectable via a communication line to the medical examination. Person and / or the request information from the hospital via the communication line, and stores in advance the manufacturing capacity of the radiopharmaceutical manufacturing base, the time distance relationship from the manufacturing base to the hospital, the radiopharmaceutical A schedule is created so that an appropriate amount can be delivered from the manufacturing site to the hospital on the basis of the information on the half-life of the nuclide contained therein and the date and time of the medical examination ascertained from the request information. A method of delivering a radiopharmaceutical, comprising instructing a base to manufacture the radiopharmaceutical via a communication line. 2. The radiopharmaceutical according to claim 1, wherein the computer stores a combination of the manufacturing base and a nearby hospital, and the delivery of the radiopharmaceutical is performed based on this combination. Shipping method. 3. When the computer determines that the capacity of the manufacturing base supplying the radiopharmaceutical to the hospital where the medical checkup is conducted is insufficient, the computer determines based on the temporal distance relationship of the hospital performing the medical checkup. The radiopharmaceutical delivery method according to claim 1 or 2, wherein the delivery of the radiopharmaceutical is instructed to the hospital from another manufacturing site having a close temporal distance relationship. 4. When the medical examination date and time and the hospital which is the medical examination place are not grasped from the request information, the computer schedules the medical examination date and time and the medical examination place and notifies the medical examinee and the medical examination place hospital. The radiopharmaceutical delivery method according to any one of claims 1 to 3, characterized in that: 5. The radiopharmaceutical delivery method according to claim 1, wherein the manufacturing base also serves as the hospital. 6. A radiopharmaceutical delivery method that includes a base hospital that manufactures a radiopharmaceutical and conducts a medical examination, and a neighboring hospital that receives the radiopharmaceutical and performs a medical examination, wherein the base hospital, the neighboring hospital, and A data management center that can be connected to the examiner via a communication line receives information from the nearby hospital and the examiner, and based on the received information, the type and amount of the radiopharmaceutical necessary for the examination, and the examination. A radiopharmaceutical delivery method, characterized in that information including date and time is communicated to the base hospital, and the base hospital manufactures and delivers the radiopharmaceutical to the neighboring hospital. 7. The production capacity of the radiopharmaceutical at a base hospital that manufactures radiopharmaceuticals used for screening at other hospitals together with the amount of self-use, the examination processing capacity at the base hospital, and the supply of the radiopharmaceutical from the base hospital. A storage unit that stores the examination processing capacity in a neighboring hospital that receives the information, the time distance relationship between the base hospital and the neighboring hospital, the half-life of the nuclide contained in the radiopharmaceutical, as information, and the base hospital and / or the neighboring hospital. Request information receiving means for receiving, via a communication line, request information designating a hospital to be examined by a medical examiner who receives a medical examination using a radiopharmaceutical; and when the request information is received, the request information and the storage unit. Schedule creating means for creating a schedule for a medical examination using the radiopharmaceutical based on the information stored in the schedule, and the created schedule. A radiopharmaceutical delivery system according to claim, further comprising a notifying means for notifying at least the hospitals and neighbor Hospital.