JP6009912B2 - Vaccination schedule creation system, vaccination schedule creation device and vaccination schedule creation program - Google Patents

Description

  The present invention relates to a system that performs optimal scheduling and rescheduling of vaccination in consideration of the wishes and constraints of the person to be vaccinated.

Traditionally, vaccination schedules were created manually by doctors and nurses. However, since there are a wide variety of conditions that must be observed, such as the type of vaccine, the period of vaccination, and the interval between vaccinations, the schedule creation work is complicated and burdensome to medical personnel who are extremely busy. Therefore, it is natural that there is a need to make a system using a computer. With this kind of problem in mind, Patent Document 1 provides immunization planning support using a computer, and aims to alleviate the burden on many parents without medical expertise. An "immunization planning support system and proxy reservation system" is disclosed.

JP 2007-18337 A JP 2012-59155 A

However, the technique described in Patent Document 1 has a problem that it does not consider simultaneous inoculation of a plurality of vaccines, and that addition of a new vaccine due to the appearance of a new virus is not assumed.
For this reason, the applicant of the present invention is to establish an optimal immunization schedule in consideration of various arbitrary conditions of the user at the start of use, and to change the schedule flexibly according to the user's subsequent change desires. The invention described in Patent Document 2 has been filed for the purpose. In this invention, the parent / guardian of the infant to be inoculated accesses the system management device (executes the schedule creation / update process) and inputs an arbitrary condition (for example, whether or not simultaneous vaccination is selected). The schedule result created / updated is acquired. As a result, the intention of the guardian can be reflected. In addition, a function for receiving a message by e-mail from the system management device when a scheduled inoculation date approaches is added, and this system is useful for parents of infants.

By the way, anyone becomes nervous in medicine and medical care. This is especially true for infants. “Inputting arbitrary conditions into the system in consideration of constraints” is quite difficult for most parents and requires the advice of doctors and nurses. In addition, in the case of infants, the guardian is in charge of pediatrics. And even if you visit a medical institution, the order of medical examinations is rare and the waiting time in the waiting room is not small. The applicant wanted to combine these two circumstances.
That is, the system accesses a server using a terminal device provided in a medical institution, and receives a schedule created and updated by the server. The received schedule can be transferred to your terminal. In this case, an appropriate schedule can be created by using the waiting time in the waiting room to seek advice from doctors and nurses as appropriate.

It is another object of the present invention to allow a guardian to easily select a co-inoculation pattern.
For example, all vaccines such as DTP, Hib, Streptococcus pneumoniae, rotavirus vaccine, polio (inactivated) are desirable from the viewpoint of establishing early immunity of infants and should be completed when possible. Is recommended. Since each vaccine is inoculated several times, if they are inoculated alone, a certain administration interval is necessary, so that the inoculation period becomes longer as a whole, which is a considerable burden on the guardian. Co-inoculation is reasonable in that respect because it enables early inoculation of the required vaccine and does not increase the side reaction due to co-inoculation. Since it will be a mixture of 4 types containing inactivated polio from November 2012, simultaneous inoculation should be increasingly recommended, and simultaneous inoculation is already standard in Europe and the United States.
Accordingly, an object of the present invention is to provide a system suitable for creating a schedule incorporating simultaneous inoculation that is expected to become a standard in Japan.

In order to achieve the above object , the invention according to claim 1
A system comprising a vaccination schedule creation device and a medical institution terminal connected to the vaccination schedule creation device via the Internet,
The vaccination schedule creation device
A vaccination information database that stores information about vaccination, including constraints for creating schedules,
A schedule creation request receiving unit, a schedule creation unit, a schedule transmission unit, and a condition setting screen providing unit are provided.
The schedule creation request receiving means receives information input via the input means of the medical institution terminal and a vaccination schedule creation request or schedule change request from the medical institution terminal.
The schedule creation means newly creates or updates a vaccination schedule based on the input information and information extracted from the vaccination information database, and stores the schedule result in a predetermined location.
The schedule transmission means transmits the created or updated schedule result to the medical institution terminal.
The condition setting screen providing means transmits a condition setting screen for facilitating input of an arbitrary condition to the medical institution terminal.
The “constraint conditions for creating a schedule” are conditions that do not allow arbitrary changes such as the interval between vaccines, the types of vaccines that can be co-inoculated, and the timing of seasonal vaccines. On the other hand, the “optional condition” is a condition that can be designated by a doctor / guardian.
The “predetermined location” for storing the schedule result includes, for example, a folder for each user or a web page created for each user.

The present invention has the following effects.
In the vaccination schedule creation process, there are a mixture of a part that is easy to systemize in accordance with a set constraint and a part that is arbitrary and difficult to obtain an optimal solution. It has been experimentally considered that this difficult portion occupies about 30% of the entire processing, and automation by computer processing has been regarded as difficult. However, in the present invention, this difficult part that has become a footpad is input from the medical institution terminal to the guardian of the person to be inoculated, making it easier to automate the schedule creation and replace the conventional manual work. . In this case, advice from doctors and nurses is extremely effective. This automation of schedule creation also has the effect of preventing misperceptions and mistakes that tend to occur in manual work and improving compliance.

The above condition setting screen includes a screen for selecting a combination pattern of simultaneous inoculation possible vaccines.
This produces the following effects. That is, if there are N types of vaccines that can be simultaneously inoculated, there are N types of inoculation patterns from one type to N types at a time. Considering the professional judgment of individual doctors and the intentions of individual parents, there are many combinations of vaccinations that can be co-inoculated. It is impractical to present all these cases on the system side and have the guardian select one of them. If too many cases are listed, the difference between each inoculation pattern is not known, and there is a risk of deciding which one to select. For this reason, automation using a computer program for creating schedules including simultaneous inoculation has been avoided. However, in the present invention, it is possible to create a complicated schedule including a large number of inoculation patterns in a simple and reliable form by displaying these vaccines on the screen in an easy-to-view manner and selecting the inoculation patterns with a simple operation. It becomes possible. Since a schedule including simultaneous vaccination can be created while taking into account the judgment of the doctor and the intention of the guardian, it is possible to further secure safety by combining the vaccines to be simultaneously vaccinated.

The embodiments of the previous SL immunization schedule creation device, together can be connected to the protective terminal via the Internet, information necessary for acquiring the scheduling result from the protection terminal (e.g. UE-specific Web If a page has been created and the schedule result can be viewed from this web page, the web page includes data code generating means for generating a data code that encodes the URL of the web page, and the schedule transmitting means is The data code may be transmitted to the medical institution terminal together with the schedule result. Further, the guardian terminal accesses the vaccination schedule creation device using means for photographing the data code displayed on the screen of the medical institution terminal and information obtained from the data code, and the schedule Means for obtaining the result may be provided.
The “data code” may be a two-dimensional code such as a QR code (registered trademark) or a one-dimensional barcode. However, the following embodiment will be described assuming that a QR code is used as a data code.
As a result, it is convenient for the guardian to read the data code at the guardian's terminal and download the schedule result directly from the vaccination schedule creation device at a convenient time without printing the schedule result. is there. Even for medical institutions, it is only necessary to provide a medical institution terminal without providing a printer and printing paper, so that the cost can be reduced.

As the embodiment of the immunization schedule creation device further receives an email from the medical institution terminal may comprise email communication means for transmitting the scheduling result created or updated in the mail address.
If the guardian's terminal does not have a camera function, a data code such as a QR code cannot be photographed. However, if this function is provided, the schedule result can be obtained through e-mail and does not have to be printed.

In order to achieve the above object , the invention according to claim 2 is a system including a vaccination schedule creation device and a guardian terminal connected to the vaccination schedule creation device via the Internet,
The vaccination schedule creation device comprises a vaccination information database, a schedule creation request receiving means, a schedule creation means, a schedule transmission means, and a condition setting screen providing means, and directly from a guardian terminal instead of a medical institution terminal. It receives the transmission of input information, and transmits a schedule result directly to a guardian terminal.

According to the present invention, by allowing a guardian or the like to input an arbitrary condition via a user-friendly input screen, it is possible to reliably acquire an ambiguous condition so that it is the same as when creating manually. A schedule that can withstand practical use can be created.
In addition, since the simultaneous inoculation pattern selection is facilitated, it is possible to provide a schedule creation system adapted to the current situation where simultaneous inoculation is becoming standard.

It is a figure showing an example of a functional block of composition of a system concerning a 1st embodiment, and a vaccination schedule creation device. It is a figure which shows the data structural example of the medical institution database which concerns on 1st Embodiment. It is a figure which shows the data structural example of the vaccination information database which concerns on 1st Embodiment. It is a figure which shows the data structural example of the vaccination information database which concerns on 1st Embodiment. It is a figure which shows the example of a data structure of the user information database which concerns on 1st Embodiment. It is a figure which shows a series of process flows from the schedule creation request which concerns on 1st Embodiment to the schedule acquisition by a user. It is a figure which shows the example of a screen at the time of login to the system which concerns on 1st Embodiment. It is a figure which shows the example of a screen for user registration which concerns on 1st Embodiment. It is a figure which shows the example of a screen for arbitrary conditions input by the user which concerns on 1st Embodiment. It is a figure which shows the example of a screen for arbitrary conditions input by the user which concerns on 1st Embodiment. It is a figure which shows the example of a screen for arbitrary conditions input by the user which concerns on 1st Embodiment. It is a figure which shows the example of a screen for arbitrary conditions input by the user which concerns on 1st Embodiment. It is a figure which shows the example of a display screen of the schedule result which concerns on 1st Embodiment. It is a figure which shows a series of process flows from the schedule creation request which concerns on 2nd Embodiment to the schedule acquisition by a user.

<< First Embodiment >>
A system according to an embodiment of the present invention will be described with reference to the drawings.

FIG. 1 is a block diagram illustrating a configuration example of a vaccination schedule creation system S (hereinafter, “this system S”). This system S is configured by an immunization schedule creation device 1, a medical institution terminal 2, and a guardian terminal 3.
In the present system S, the vaccination schedule creation device 1 creates a schedule through interactive processing between the vaccination schedule creation device 1 and the medical institution terminal 2 accessed via the Internet N. This schedule result can also be acquired by the guardian terminal 3, but the guardian terminal 3 is not involved in the interactive processing. That is, it is the guardian who operates both terminals (2, 3).
In this embodiment, an infant is assumed as a subject to be vaccinated. Therefore, the user of this system S is a guardian of these infants. This guardian is also referred to as a “user” in this specification.

The medical institution terminal 2 is a terminal that is provided in a waiting room of a medical institution and is used by a patient or a guardian. Any device such as a personal computer or a tablet terminal can be used as long as it has an Internet connection means, an input means, and a screen display means. Good.
The input means may be a touch panel that serves as an operation input unit and a display unit in addition to a keyboard and a mouse.
A display screen is sufficient as output means, and a printer can be omitted. This is because, in the present system S, it is assumed that the created schedule result is stored in the guardian terminal 3, so that it is not necessary to print and deliver the schedule result on the medical institution side.

The guardian terminal 3 is a terminal used by a user of the system S, that is, a guardian. The guardian terminal 3 includes input means such as a touch panel that also serves as a display unit and input keys, and screen display means, and receives an email from the immunization schedule creation apparatus 1 or It is desirable that the mobile phone (including a multi-function mobile phone also called a smartphone) having a mail receiving function and an Internet connection function in order to access a website dedicated to the user to be provided. Furthermore, it is desirable to have a camera function for photographing the QR code displayed on the screen of the medical institution terminal 2.

The vaccination schedule creation device 1 is a device provided by a business operator that provides or operates the system S. The vaccination schedule creation device 1 includes a CPU (Central Processing Unit) having a calculation function, a working RAM (Random Access Memory), various data and programs (including the vaccination schedule creation program of the present invention) ROM (Read The storage unit 11 and the control unit 12 are configured by an internal memory such as a “only memory” and an external storage device such as a hard disk drive. In addition, a communication interface unit 13 for communicating with the medical institution terminal 2 and the guardian terminal 3 through various networks including the Internet, an input unit (not shown) such as a keyboard, a mouse, and an operation panel, a display, An output unit (not shown) such as a printer is also provided.
In FIG. 1, although only one device is described, the processing is not necessarily performed by one device, and a plurality of information processing apparatuses may execute the processing in cooperation. For example, the storage unit 11 may be provided in a built-in hard disk or an external hard disk connected by a cable, but a computer different from the vaccination schedule creation apparatus 1 may be used as the database server.

The storage unit 11 stores a medical institution database 111 (hereinafter referred to as “medical institution DB 111”), a vaccination information database 112 (hereinafter referred to as “vaccination information DB 112”), a user information database 113 (hereinafter referred to as “user information DB 113”), and the like. Remember.

In the medical institution DB 111, medical institution information registered as a member in order to receive the vaccination schedule creation service provided by the system S is registered. As illustrated in FIG. 2, the terminal ID of the medical institution terminal 2 is registered together with the name, address, telephone number, e-mail address, and the like of the medical institution in association with the medical institution ID.

In the vaccination information DB 112, various information necessary for creating a vaccination schedule is registered. As illustrated in FIG. 3 and FIG. 4, the registered information includes the number of inoculations by vaccine, the possibility of co-inoculation with other vaccines, whether vaccination is essential or optional, inactivated vaccines and live vaccines This includes the interval between vaccines, the period of consumption of epidemic vaccines, and so on. In addition to such restriction conditions, the vaccination information DB 112 appropriately includes arbitrary conditions such as a group inoculation date for each local government.
The data structure of the information stored in the database depends on the vaccination schedule creation processing algorithm.

In the user information DB 113, as illustrated in FIG. 5, information including the date of birth and sex of the infant to be inoculated and the location for storing the vaccination schedule result of the user is registered in association with the user ID. Yes. In order to allow the user to view his / her vaccination schedule results, a web page for each user may be created and the URL of this web page may be registered, or the schedule result itself may be registered.
From the viewpoint of protecting personal information, registration of names and addresses of infants and guardians is preferably omitted. However, since there are parents who wish to receive the schedule result by e-mail, in this case, an e-mail address is also registered.

The control unit 12 functions as the schedule creation request receiving unit 121, the schedule creation unit 122, the data code generation unit 123, the schedule transmission unit 124, the condition setting screen providing unit 125, and the mail contact unit 126 of the present invention.

The schedule creation request receiving unit 121 receives a schedule creation request or a change request sent via the input unit of the medical institution terminal 2 together with related input information and the terminal ID of the medical institution terminal 2.
The schedule creation unit 122 creates a vaccination schedule based on the input information received from the medical institution terminal 2 and the information extracted from the vaccination information DB 112. In the case of the user's first use (schedule creation request), a user ID is generated, and the user's date of birth and gender are associated with the user ID and registered in the user information DB 113. At the same time, create a user-specific web page. If the user uses the second time or later, the schedule is updated based on the input information transmitted from the medical institution terminal 2 and the vaccination information DB 112 and the latest schedule result that has been created. The schedule results that have already been created are the actual vaccination history and changes by the user (eg: selection change from individual vaccination to simultaneous vaccination), as well as changes in administrative policy (eg: polio from conventional live vaccines in 2012) Change to inactivated vaccine is necessary.
The data code generation unit 123 generates a QR code in which information such as a URL necessary for accessing the dedicated web page from the guardian terminal 3 is encoded.
The schedule transmission unit 124 transmits the created or updated schedule and data code to the medical institution terminal 2.
The condition setting screen providing unit 125 transmits a condition setting screen for facilitating input by the user to the medical institution terminal 2. This condition setting screen may be created from an HTML file or the like that has been created in advance, or may be created each time a screen transmission request is received from the medical institution terminal 2.
The mail contact means 126 receives the guardian's mail address from the medical institution terminal 2 and transmits the vaccination schedule created for the mail address.

Next, the vaccination schedule creation process will be described according to the process flow of FIG.
This process is executed by the vaccination schedule creation device 1 when the user receives input information and a creation process request from the medical institution terminal 2, and transmits a schedule as an execution result to the medical institution terminal 2. 2 is displayed on the screen 2 and the user also acquires a schedule in his / her guardian terminal 3.

The user launches application software for using the service of the vaccination schedule creation device 1 from the medical institution terminal 2. This application software is acquired by a medical institution at the time of contract with the business operator of the system S. At the time of acquisition, the ID of the medical institution is generated, and necessary information is registered in the medical institution DB 111. Since a web page as illustrated in FIG. 7 is displayed on the screen of the medical institution terminal 2, a user ID and a password are input as authentication information and transmitted to the vaccination schedule creation apparatus 1 (step S1). Here, the medical institution terminal ID is automatically transmitted. “Automatic” means that the medical institution terminal 2 transparently transmits it to the communication destination vaccination schedule creation device 1 without an input operation by the user. Even if the medical institution terminal 2 does not have application software installed, the vaccination schedule creation apparatus 1 can access the website established for this system and operate from the medical institution terminal 2. Good.

The user ID and password may be obtained and set in advance when applying for the use registration of this service. When this service is used for the first time, the user ID is generated by the vaccination schedule creation device 1 and the password is set. May be. The vaccination schedule creation device 1 performs user authentication based on the authentication information and confirms that the terminal ID of the medical institution terminal 2 transmitted at the same time is already registered in the medical institution DB 111 as illustrated in FIG. A registration page is transmitted (step S2).

The user inputs information on the infant who is the inoculation target via the screen of FIG. 8 (step S3). Only enter the minimum date of birth and gender. Considering that there is a guardian who hesitates to send detailed personal information of infants on the business side of the system S. For this reason, even if the system S of the present invention is operated by a private company, the guardian can use it without worrying about leakage of personal information.

When the input information is transmitted (step S4), the vaccination schedule creation device 1 registers these pieces of information if they are not registered in the user information DB 113. If registered, the transmitted information is collated with information registered in the user information DB 113. If there is a collation error or the like, processing is performed according to a predetermined place.

Then, screen data for inputting various conditions by the user is transmitted (step S5). The user inputs conditions via the input screen displayed on the screen of the medical institution terminal 2 (step S6). When inputting, the doctor or nurse may receive advice as appropriate, or the nurse may perform an input operation while confirming the user's intention. The input information is transmitted to the vaccination schedule creation device 1 side (step S7).

The processing from step S5 to S7 is repeated as many times as necessary. Examples of screens prompting input in this loop are illustrated in FIGS. FIG. 9 shows a screen that allows the user to designate a vaccine to be inoculated and a vaccine not to be inoculated. Even if the vaccine is required to be inoculated, such as BCG, remove the check if it has already been inoculated. Unless you are a medical expert, you are at a loss whether to check or uncheck any vaccines. In this case, questions may be asked to doctors and nurses. As described above, the advice of an expert can be received as needed, and the point that the user can input with confidence is a great advantage of the present system S.

FIG. 10 shows a screen for designating which of DTP (three types of mixture) or BCG is preferentially inoculated, and FIG. 11 shows a screen for designating whether to inoculate BCG individually or in a group. Yes.
When the group inoculation is selected as the input condition, it is appropriate for the user to input the group inoculation date. Thereby, the burden on the business operator and the medical institution of the system S is reduced. This is because the vaccination date differs depending on the municipality in which the person to be inoculated resides, and it is difficult for the vaccination schedule creation device 1 to register the collective vaccination date of each municipality nationwide in the database without omission. In addition, since patients come from various local governments to the medical institution, it is a burden for the medical institution to input the group inoculation date for each local government into the vaccination schedule creation device 1.

FIG. 12 illustrates a screen for allowing the user to select a combination pattern of vaccines that can be co-inoculated.
In order to receive vaccinations efficiently, it is recommended to receive vaccines that can be co-inoculated at the same time, and at the time of filing (November 2012), more than 10 types of vaccines can be co-inoculated. . (See National Institute of Infectious Diseases, Japan's vaccination schedule for Japanese children http://www.nih.go.jp/niid/ja/vaccine-j/2525-v-schedule.html)
However, here, in consideration of the ease of viewing the drawing (FIG. 12) and the ease of explanation, it is assumed that five types of vaccines v1, v2, v3, v4, and v5 can be inoculated simultaneously.
In the screen (A) of FIG. 12, radio buttons are turned on in one vertical column. That is, simultaneous vaccination of five types of vaccines is selected as an initial value. However, the doctor determined that it was not preferable to simultaneously inoculate vaccines v3 to v5 with vaccines v1 and v2, and changed the initial values as shown in screen (B). The guardian wished to inoculate vaccine v4 alone, and changed the state of screen (B) to change it as shown in screen (C). In other words, within the framework of five types of vaccines that can be co-inoculated as shown in screen (A), specify the inoculation pattern reflecting the doctor's professional judgment and the intention of the guardian with a user-friendly interface. Can do.

If interactive operation between such a system and the user is impossible, it is extremely complicated. Five types of vaccines can be individually inoculated one by one, or any two, three, or four types can be inoculated simultaneously. That is, there are five inoculation patterns from one to five at a time. Moreover, when two types are inoculated simultaneously, there are 10 combinations of vaccines. Furthermore, it is necessary to consider that after inoculation of any two types, the remaining three types will be inoculated at a later date. The system must present all inoculation patterns in consideration of all cases and allow the user to select one of them. For this reason, conventionally, it has been considered difficult to create a vaccination schedule corresponding to individual inoculation subjects. In this respect, since individual conditions can be set for the inoculation target person via a GUI (Graphical User Interface) that anyone can easily use, an individually immunized vaccination schedule can be created efficiently.
Considering that there are actually 10 or more types of vaccines that can be co-inoculated, rather than the 5 types illustrated in FIG. 12, this system that allows the user to input conditions and determine the inoculation pattern is extremely suitable for the situation where co-inoculation is recommended It can be said that.

Although illustration is omitted, selection screen of rotavirus vaccine inoculation method (select either Rota monovalent or rota pentavalent), inactivated polio vaccine inoculation method (select either group inoculation or individual inoculation), etc. Various input screens may be added depending on the appearance of new vaccines in the future.
When the input for each screen is completed, the information input immediately may be transmitted to the vaccination schedule creation apparatus 1 to receive the next screen data. However, the input information is temporarily sent to the medical institution terminal 2 side. If all the input information has been input to all the received screens, it may be transmitted in a batch.

The vaccination schedule creation device 1 creates a schedule based on information transmitted from the medical institution terminal 2 and information extracted from the vaccination information DB 112 (step S8). This is a systematic process that has been performed manually by nurses and the like.
The processing by the computer for creating the schedule is based on a known algorithm (for example, described in Japanese Patent Application Laid-Open No. 2012-59155 by the applicant of the present application), and thus description thereof is omitted.

By the way, the reason why the automatic creation of the vaccination schedule was considered difficult is that an arbitrary condition by the user occupied a considerable part of the conditions for creating the schedule. For example, whether or not any vaccine has already been received before registration in the present system S, whether to select group inoculation or individual inoculation. If a schedule is created in consideration of conditions specific to each user, the processing becomes extremely complicated. This was an obstacle to the systemization of the vaccination schedule. However, in the present system S, the system can acquire the conditions for each user in a form suitable for the automatic processing by the input information from the input screens as illustrated in FIGS. 9 to 12. In addition, circumstances such as a medical history unique to the user are not taken into consideration. This is because it is sufficient to report to a doctor at the time of vaccination, and creating a schedule in consideration of these exceptional individual circumstances complicates the algorithm.

In step S8, when there is a schedule that has been created with reference to the user information DB 113, the existing schedule is corrected based on the transmitted input information and the information extracted from the vaccination information DB 112. For example, when a new schedule was created, simultaneous vaccination was selected, but when it is desired to change to single vaccination at a later date, the schedule needs to be updated. In addition, according to the prepared schedule, if the inoculation date has passed, but it has not been inoculated, this vaccine is put at the beginning of the schedule, and the schedule editing such as lowering the inoculation date of other vaccines, etc. I do.

By the way, changing the priority of a vaccine is not only a change of an existing schedule but also a process that is automatically performed by the system when creating a new schedule. Hereafter, this point is added. It is assumed that a schedule for inoculating vaccine A, vaccine B,... In order according to the inoculation criteria and conditions for various vaccinations is prepared. However, depending on the age of the person to be inoculated at the time of preparation, it may happen that vaccine B has passed its inoculation period. Therefore, it is necessary to change the order and inoculate vaccine B in preference to vaccine A. In such a case, the vaccination schedule creation program of the present invention automatically performs a process of raising the priority over other vaccines when the inoculation period has elapsed, thereby realizing an optimal schedule creation.

Now, it returns to description of step S8. In step S8, the created schedule is stored in a predetermined location, and a QR code in which information such as a URL indicating the storage location is encoded is generated. There are multiple ways to store, but create a web page for each user, and browse the file where the schedule results are saved in the form of PDF file, WORD (Microsoft product name) file, etc. Making it possible is one way.

The vaccination schedule creation device 1 transmits the created schedule result and the QR code to the medical institution terminal 2 (step S9), and the medical institution terminal 2 displays the received schedule and the QR code on the screen as illustrated in FIG. (Step S10).

The user photographs the QR code displayed on the screen using the camera function of the guardian terminal 3 (step S11). The QR code analysis application software installed in the guardian's terminal 3 analyzes the captured QR code image to obtain the URL, and accesses the website storing the schedule (step S12). When the screen data of the dedicated site is received (step S13), this is displayed on the screen of the guardian's terminal 3, and the date of birth, gender, medical institution name, etc. are confirmed and the schedule result is protected. Is stored in the memory of the user terminal 3 (step S14).

The processing from step S11 to S14 (processing enclosed by a broken-line rectangle (A)) is based on the premise that the guardian terminal 3 has a camera function and a QR code analysis function. For this reason, when these functions are not provided, processing enclosed by a broken-line rectangle (B) is executed. That is, as illustrated in FIG. 13, there is a column for inputting an email address on the screen on which the schedule result is displayed, so the email address of the guardian terminal 3 is input here and transmitted to the vaccination schedule creation device 1 ( Step S15). The vaccination schedule creation device 1 sends the schedule result to this email address by email (step S16). Instead of sending the schedule, the URL of the dedicated site may be sent. Any one of the process (A) and the process (B) may be executed.

The flow of a series of processes from accessing the vaccination schedule creation apparatus 1 via the terminal 2 provided in the medical institution to storing the created schedule in the own guardian terminal 3 has been described above. .

This embodiment is characterized in that when a user visits a medical institution or visits a medical institution, the service of the immunization schedule creation device 1 is provided through a terminal 2 provided in a waiting room using a waiting time. There is one of them. Depending on the input conditions, the user may be wondering what to input if he / she has no medical expertise. In this case, it is only necessary to input while looking at the interval between tasks such as nurses and getting advice. Since expert advice can be received in this way, user input is possible even in fairly detailed arbitrary conditions, and the system can obtain the conditions for automation without ambiguity.
This system S may acquire a schedule by inputting conditions while a nurse or the like mainly takes the confirmation of the guardian. Compared to the complexity associated with conventional manual work, the burden on nurses and the like is greatly reduced. In addition, it is an extremely useful system because it can prevent inadvertent mistakes and can explain the outline of the vaccine to parents when entering conditions.

<< Second Embodiment >>
This embodiment is different from the first embodiment in that, without using a medical institution terminal, the vaccination schedule creation device 1 is directly accessed from the guardian terminal, input operation is performed, and the schedule result is obtained.
Some parents have medical expertise. There are also people who can consult with relatives and friends who have doctors. For such a guardian, it is convenient to be able to input / transmit arbitrary conditions from his / her terminal and receive schedule results. This is because each time a new schedule is created or updated, it is not necessary to visit a medical institution for that purpose. Of course, it is possible to obtain a schedule without departing from the vaccination conditions even if the guardian does not have the above-mentioned medical expertise.
This embodiment does not replace the first embodiment, and any embodiment can be used for the convenience of the guardian. Therefore, the system configuration (see FIG. 1) and data structure are the same as in the first embodiment.

A processing flow by the system of this embodiment will be described with reference to FIG.
When the user accesses the website established for the present system by the vaccination schedule creation apparatus 1 via the guardian terminal 3, a web page as illustrated in FIG. 7 is transmitted. The user ID and password are input and transmitted to the vaccination schedule creation apparatus 1 (step S101).
The user ID and password may be obtained and set in advance when applying for the use registration of this service. When this service is used for the first time, the user ID is generated by the vaccination schedule creation device 1 and the password is set. May be. The vaccination schedule creation apparatus 1 transmits a registration page as exemplified in FIG. 8 after performing user authentication based on the authentication information (step S102). The user inputs information such as the birth date and sex of the infant who is the inoculation target (step S103).
When the input information is transmitted (step S104), the vaccination schedule creation apparatus 1 registers the information if it is not registered in the user information DB 113, and if it is registered, the transmitted information and the user information DB 113 are registered. Check the information registered in.

The vaccination schedule creation device 1 transmits screen data for inputting various conditions by the user (step S105). The user inputs conditions through the input screen displayed on the screen of the guardian terminal 3 (step S106). The input information is transmitted to the vaccination schedule creation device 1 side (step S107).
The processes from step S105 to S107 are repeated as many times as necessary.
The vaccination schedule creation device 1 creates a schedule based on the information transmitted from the guardian terminal 3 and the information extracted from the vaccination information DB 112 (step S108). In step S108, when there is a schedule that has been created with reference to the user information DB 113, the existing schedule is corrected based on the transmitted input information and the information extracted from the vaccination information DB 112.
The vaccination schedule creation device 1 transmits the created or modified schedule result to the guardian terminal 3 (step S109), and the guardian terminal 2 displays the received schedule result on the screen and stores it in the memory if necessary (step S109). S110).

The above embodiment is merely an example. For example, various modifications are conceivable with respect to the processing flow, data structure, screen transition, screen layout, etc., and these are also within the scope of the present invention.
Some points not particularly mentioned in the description of the above embodiment will be supplemented.
Needless to say, when a new epidemic vaccine is inoculated after the start of operation of the system S, the vaccination schedule creation device 1 needs to update the vaccination information DB 112 to the latest information. . When updated, the parent terminal 3 and the medical institution terminal 2 may be notified to that effect by e-mail or the like, and information about the latest information may be provided.
If the scheduled vaccination date is approaching, you may be notified to the guardian's terminal 3 by e-mail, etc., you may receive an email notification of the end of the vaccination from the guardian's terminal 3, or you may enhance the service function to the user .
It is conceivable to update the schedule by accessing the system from a terminal 2 of a medical institution different from that at the time of the initial creation, such as when the user moves. In this case, even if the terminal ID of the medical institution is different, there is no problem as long as the user ID is registered in the system S.

  In the above description, the charging process is not mentioned. When a medical institution pays the system S as a system usage fee, the billing process varies depending on whether the user pays the system usage fee to the business, etc., but the agreement between the business and the medical institution or user Follow the process.

  Expected to be used by related persons such as infant guardians, medical institutions, and government agencies as a system that appropriately reflects user-specified conditions and can automatically create a immunization schedule including simultaneous vaccination. it can.

S: Vaccination schedule creation system 1: Vaccination schedule creation device 11: Storage unit 111: Medical institution database 112: Vaccination information database 113: User information database 12: Control unit 121: Schedule creation request receiving means 122: Schedule creation means 123: Data code generation means 124: Schedule transmission means 125: Condition setting screen provision means 126: Mail contact means 13: Communication interface unit 2: Medical institution terminal 3: Parent terminal N: Internet

Claims (5)

A system comprising a vaccination schedule creation device and a medical institution terminal connected to the vaccination schedule creation device via the Internet,
The vaccination schedule creation device
A vaccination information database that stores information about vaccination, including constraints for creating schedules,
Information input via the input means of the medical institution terminal, schedule creation request receiving means for receiving a schedule creation request or schedule change request for vaccination from the medical institution terminal,
Based on the input information and information extracted from the vaccination information database, a new creation or update of a vaccination schedule is performed, and schedule creation means for storing a schedule result in a predetermined location;
Schedule transmission means for transmitting the created or updated schedule result to the medical institution terminal ;
A condition setting screen providing means for transmitting a condition setting screen for facilitating input of arbitrary conditions to the medical institution terminal;
The condition setting screen includes a screen for selecting a combination pattern of vaccines that can be simultaneously inoculated . A system comprising a vaccination schedule creation device and a guardian terminal connected to the vaccination schedule creation device via the Internet,
The vaccination schedule creation device
A vaccination information database that stores information about vaccination, including constraints for creating schedules,
Information input via the input means of the guardian terminal, schedule creation request receiving means for receiving a schedule creation request or schedule change request for vaccination from the guardian terminal,
Based on the input information and information extracted from the vaccination information database, a new creation or update of a vaccination schedule is performed, and schedule creation means for storing a schedule result in a predetermined location;
Schedule transmission means for transmitting the created or updated schedule result to the guardian terminal;
A condition setting screen providing means for transmitting a condition setting screen for facilitating input of an arbitrary condition to the guardian terminal, and
The condition setting screen includes a screen for selecting a combination pattern of vaccines that can be simultaneously inoculated . A vaccination information database that stores information about vaccination, including constraints for creating a vaccination schedule;
Information input via the input means of the medical institution terminal, schedule creation request receiving means for receiving a vaccination schedule creation request or change request from the medical institution terminal,
Based on the input information and information extracted from the vaccination information database, a new creation or update of a vaccination schedule is performed, and schedule creation means for storing a schedule result in a predetermined location;
Schedule transmission means for transmitting the created or updated schedule result to the medical institution terminal;
A condition setting screen providing means for transmitting a condition setting screen for facilitating input of arbitrary conditions to the medical institution terminal;
The condition setting screen includes a screen for selecting a combination pattern of vaccines that can be co-inoculated. A vaccination information database that stores information about vaccination, including constraints for creating a vaccination schedule;
Information input via the input means of the guardian terminal, and a schedule creation request receiving means for receiving a schedule creation request or change request for vaccination from the guardian terminal,
Based on the input information and information extracted from the vaccination information database, a new creation or update of a vaccination schedule is performed, and schedule creation means for storing a schedule result in a predetermined location;
Schedule transmission means for transmitting the created or updated schedule result to the guardian terminal;
A condition setting screen providing means for transmitting a condition setting screen for facilitating input of an arbitrary condition to the guardian terminal, and
The condition setting screen includes a screen for selecting a combination pattern of vaccines that can be co-inoculated. A computer with access to a immunization information database that stores information about immunization, including constraints for immunization scheduling
A schedule creation request receiving means for receiving information inputted via the input means of a medical institution or a guardian's terminal and a vaccination schedule creation request or schedule change request from the terminal;
A schedule creation means for newly creating or updating a vaccination schedule based on the input information and information extracted from the vaccination information database, and storing a schedule result in a predetermined location;
Schedule transmission means for transmitting the created or updated schedule result to the terminal;
A condition setting screen for facilitating input of arbitrary conditions is made to function as a condition setting screen providing means for transmitting to the terminal.
The condition setting screen includes a screen for selecting a combination pattern of vaccines that can be co-inoculated, and a vaccination schedule creation program.

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