WO2019044818A1 - Information terminal device, method, program, information processing system, and cell observation kit - Google Patents

Abstract

Provided is an information terminal device for cell observation, the device facilitating a medical examination of a user by an appropriate medical institution or a detailed examination by an appropriate examination institution. The present invention is provided with: a video acquisition unit 101 that acquires, from a camera module 18, video of cells to be examined; a video display unit 102 that displays video of the cells SP to be examined on a display 17, a location information acquisition unit 105 that acquires location information indicating the location of the information terminal device 100; and an examination institution location display unit 106 that displays, on the display 17, information that indicates the location of examination institutions CL0-CLN that are present within a prescribed range from the location of the information terminal device 100.

Description

INFORMATION TERMINAL DEVICE, METHOD, PROGRAM, INFORMATION PROCESSING SYSTEM, AND CELL OBSERVATION KIT

The present invention relates to an information terminal device, method, program, information processing system, and cell observation kit, and more particularly, to an information terminal device for cell observation, which promotes user's visit to a suitable medical institution, method, The present invention relates to a program, an information processing system and a cell observation kit.

Infertility has become a problem in recent years. According to the World Health Organization WHO statistics, 48% of male infertility is the cause of infertility, 65% of female infertility has been reported, and the result of this figure is to receive the child in the situation that male infertility is not clear It is imagined that there are many couples who could not It has been noted that the cause of infertility is closely related not only to the female egg state but also to the male sperm state, but men do not know whether or not the cause of infertility is their own. There is a tendency that people tend to hesitate to visit a specialized medical facility, and many people do not visit a specialized medical institution. Various tools for easily observing sperm in a user's home or the like have been developed so far, reflecting such circumstances on the male side (see, for example, non-patent documents 1 to 3).

As a result of observation with the tool, for example, even if it is suspected that the number of spermatozoa in the self is lower than the standard value, the user of the tool actually performs further detailed examination of spermatozoa at which medical institution I do not know which department I should ask (or which laboratory). Gynecology and obstetrics and gynecology mainly target women's consultations, and it is difficult for men who are users of tools to appropriately determine which consultation department a doctor should attend. In addition, although a few specialized centers have been opened recently to treat male infertility specializing in urology and urology, the present situation is that there is not much change on the patient side consciously even if it is. As described above, although specialized facilities are increasing year by year, it can be easily determined whether male infertility with low awareness level is high and pride is high, and depending on the determination result, information terminal devices such as smartphones, tablets, personal computers etc. It is hoped that it can be added to contribute to measures to reduce the birthrate.

The present invention provides an information terminal device for cell observation, a method, a program, an information processing system, and a cell observation kit for promoting a detailed medical examination at an appropriate medical institution to a user at a medical institution. .

The present invention for achieving the above object includes the embodiments described below.
(Section 1)
A video acquisition unit that acquires a video of a test cell from the camera module;
A moving picture display unit for displaying the moving picture of the test cell on a display;
A position information acquisition unit that acquires position information indicating the position of the information terminal device;
An inspection engine position display unit that displays information indicating the position of an inspection organization present within a predetermined range from the position of the information terminal device on the display;
An information terminal apparatus comprising:
(Section 2)
The information terminal device according to Item 1, wherein the inspection organization position display unit displays the position of the inspection organization on an electronic map.
(Section 3)
A selection receiving unit that receives the selection of the inspection organization displayed on the display;
An examination acceptance unit for transmitting examination application information to the acceptance apparatus of the selected examination organization;
The information terminal device according to Item 1 or 2, further comprising:
(Section 4)
The information terminal device according to item 3, wherein the test receiving unit further transmits the moving image of the test cell to the receiving device.
(Section 5)
5. The information terminal device according to any one of items 1 to 4, further comprising a cell measurement unit that measures the number and the movement rate of the test cell based on the moving image of the test cell.
(Section 6)
Item 6. The information terminal device according to Item 5, further comprising a cell state determination unit that determines the state of the test cell based on the measurement result of the cell measurement unit.
(Section 7)
Item 7. The information terminal device according to any one of Items 1 to 6, wherein the moving image display unit displays a reference moving image obtained by capturing a cell in a good state, along with the moving image of the test cell.
(Section 8)
Item 8. The information terminal device according to any one of Items 1 to 7, wherein the moving image acquisition unit uses the camera module disposed on the side of the information terminal device on which the display is disposed.
(Section 9)
Item 9. The information terminal device according to any one of Items 1 to 8, wherein the test cell contains human sperm cells.
(Section 10)
A moving image acquisition step of acquiring a moving image of a test cell from the camera module;
A moving image display step of displaying the moving image of the test cell on a display;
A position information acquisition step of acquiring position information indicating the position of the information terminal device;
An inspection engine position display step of displaying information indicating the position of an inspection engine existing within a predetermined range from the position of the information terminal device on the display;
Method, including.
(Section 11)
The program for functioning a computer as each part of the information terminal device in any one of claim 1-9.
(Section 12)
Item 13. A non-transitory computer readable non-transitory recording medium recording the program according to Item 11.
(Section 13)
10. An information terminal device according to any one of items 1 to 9;
And a database in which an inspection organization and information indicating the position of the inspection organization are associated with each other, and based on the position information received from the information terminal device and indicating the position of the information terminal, A management apparatus configured to search the database for inspection laboratories existing within a predetermined range from the position;
A receiving device disposed at the inspection organization and capable of communicating with the information terminal device;
An information processing system comprising:
(Section 14)
A medium in which information for acquiring the program according to item 11 is described,
A counting chamber for collecting the test cells, provided with a grid for counting the test cells;
A holding member detachably mounted on the information terminal device and holding the counting chamber at a predetermined position with respect to the camera module;
And a cell observation kit.

According to the present invention, it becomes possible to observe the autologous cells by themselves, and based on the observation results, to encourage the user to visit an appropriate medical institution or to carry out a detailed examination at an appropriate laboratory. Becomes possible.

It is a schematic diagram for demonstrating the cell observation kit which concerns on embodiment of this invention. It is a schematic plan view which shows the mounting state of a cartridge. It is a typical sectional view showing the mounting state of a cartridge. It is a schematic diagram for demonstrating the information processing system which concerns on embodiment of this invention. It is a block diagram which shows the hardware constitutions of the information terminal device which concerns on embodiment of this invention. It is a block diagram for demonstrating the function of the information processing system which concerns on embodiment of this invention. It is a flowchart which shows the data processing which the information processing system which concerns on embodiment of this invention performs. It is a flowchart which shows the data processing which the information processing system which concerns on embodiment of this invention performs. It is an example of a screen display of observation mode. It is an example of a screen display of measurement mode. It is an example of a screen display of examination application mode. It is an example of a screen display of the consultation reception form in the examination application mode. It is an example of a screen display of the observation mode which concerns on another aspect. FIG. 7 is a plan view of a counting chamber according to another embodiment.

Hereinafter, embodiments of the present invention will be described in detail with reference to the attached drawings. In the following description and the drawings, the same reference numerals indicate the same or similar components, and thus the descriptions of the same or similar components are omitted.

In the embodiments described below, human male sperm cells are described as subjects to be tested. Further, in the following description, a laboratory is a concept including a medical institution (including a medical care facility) and a research institute, which has staff and an examination device capable of examining a cell to be examined in detail.

[Overview of cell observation kit]
FIG. 1 is a schematic view for explaining a cell observation kit 400 according to the embodiment of the present invention. The cell observation kit 400 is a tool for the user to easily observe sperm at home or elsewhere.

The cell observation kit 400 mainly includes a collection container 41, a syringe (pipette) 42, a counting chamber 43, a cartridge 44, and a card (medium) 45.

The collection container 41 is a container for collecting the semen SE including the spermatozoon SP to be tested by the user. The semen SE liquefies spontaneously after about 5 to 15 minutes after collection. The user uses the syringe 42 to aspirate the liquefied semen SE and introduce it into the introduction area 431 of the counting chamber 43. The slide glass 433 is disposed so as to overlap the measurement area 432 of the counting chamber 43, and the semen SE dropped to the introduction area 431 is drawn into the measurement area 432 by capillary action. On the bottom of the measurement area 432, a grid grid 434 for counting the number of spermatozoa is provided at predetermined intervals, for example, by printing. For example, ten grids 434 are provided in a range of about 1 mm in length.

The card 45 describes information for the user to install the cell observation program (application) of the present invention in the information terminal device 100 such as a smartphone shown in FIG. Specifically, an information code 451 (for example, a QR code (registered trademark)) and a dedicated ID number 452 are described on the card 45, and the user uses the camera module 18 of the information terminal device 100 to perform information, for example. By reading the code 451, the URL to which the program is downloaded can be accessed. After downloading the program, the application can be activated to perform user registration. Note that, instead of the information code 451, a URL for downloading a program may be written on the card 45.

The cell observation kit 400 may include an instruction manual of a paper medium regarding a program for cell observation etc., but the electronic data of the instruction manual may be recorded via a network or a recording medium such as a DVD-ROM. It may be provided through. Alternatively, a moving image explaining the contents of the instruction manual may be distributed, for example, at a moving image distribution site such as YouTube (registered trademark), and the user uses the camera module 18 of the information terminal device 100 to obtain an information code, for example. By reading 451, it is possible to access the URL of the video distribution site that distributes the explanatory video.

2 and 3 are schematic views showing the mounting state of the cartridge 44. As shown in FIG. FIG. 2 is a plan view, and FIG. 3 is a cross-sectional view taken along line AA of FIG.

The cartridge 44 is shaped so as to be detachably mounted to the information terminal device 100, and includes a lens 441 and a lens holder 442. The lens 441 is, for example, a ball lens or a convex lens having a diameter of about 0.8 mm ± 0.3 mm. The lens holder 442 has substantially the same thickness as the lens 441, and the lens holder 442 is provided with a circular hole having a diameter substantially the same as that of the lens 441. As shown in FIG. 3, the plate of the lens holder 442 in which the lens 441 is fitted is disposed at a distance that substantially contacts the camera module 18. The set of the counting chamber 43 and the slide glass 433 is also disposed at such a distance as to substantially contact the lens holder 442. Preferably, the user changes the arrangement location of the lens 441 (height from the camera module 18) for each model of the information terminal device 100 with reference to the above-described explanatory moving image of the lens 441 or the moving image distribution site, for example. Is configured to In the cartridge 44, a slide groove C for inserting the counting chamber 43 is formed, and the lens 441 and the semen SE in the counting chamber 43 are aligned above the camera module 18 of the information terminal device 100 in a straight line. The counting chamber 43 is held at a predetermined position. At this time, the counting chamber 43 is preferably held by the cartridge 44 so that the slide glass 433 on the surface is disposed on the lower surface of the counting chamber 43. The user activates an application for cell observation installed in the information terminal device 100, and uses the camera module 18 to capture or capture a moving image or a still image of sperm SP in the semen SE illuminated by the external light EX. In the aspect shown in FIGS. 2 and 3, the camera module 18 is disposed on the front side (user side) of the information terminal device 100.

The information terminal device 100 can determine the state of the spermatozoon SP based on the captured moving image of the sperm by executing a program for cell observation. Since the determination by the information terminal device 100 is simple, when the user desires a detailed examination of the spermatozoa SP, the information terminal device 100 follows the procedure to be described later, and the user at an appropriate inspection institution. It has a function to facilitate the detailed examination.

[System overview]
FIG. 4 is a schematic view for explaining the information processing system according to the embodiment of the present invention. The information processing system includes an information terminal device 100, a management device 200, and a plurality of reception devices 300. The information terminal device 100, the management device 200, and the plurality of accepting devices 300 are connected to one another via the network 99.

In the management device 200, information of a plurality of inspection institutes CL ₀ to CL _N capable of detailed examination of spermatozoa and position information on electronic map data are associated in advance and recorded as a database. The acceptance device 300 is disposed at each of a plurality of different inspection institutions CL ₀ to CL _N. In the present embodiment, the information terminal device 100 is, for example, a smartphone with a camera capable of receiving a GPS signal, and the management device 200 and the reception device 300 are configured by, for example, a general-purpose computer.

The user of the information terminal device 100 can capture a moving image of the spermatozoon SP to be tested using the camera module 18 and the cell observation kit 400 shown in FIG. 1. The moving image of the captured sperm is displayed on the display 17, and the information terminal device 100 measures the number and movement rate of the sperm based on the captured moving image, and based on the measurement result, the information terminal device 100 judge. The determination result is displayed on the display 17. This allows the user to observe his own sperm itself.

In response to the determination result, when the user desires a detailed examination of sperm, the information terminal device 100 acquires the position information of the information terminal device 100 from the GPS satellite 98. The acquired position information is transmitted to the management apparatus 200, and the management apparatus 200 searches the database for position information of a nearby inspection organization of the information terminal apparatus 100. The information terminal device 100 displays the positions of the searched inspection institutions CL ₀ to CL _{N on} the display 17 in the form of an electronic map, for example, centering on the current position of the user.

Of the inspection institutes CL ₀ to CL _N displayed on the electronic map, the user is the person who browsed the linked web page or actually received the examination laboratory or medical care facility. If the user can also view the post and select an examination institution for which a detailed examination is desired, the information terminal apparatus 100 displays the acceptance form of the selected examination institution on the display 17. When the user completes the acceptance form, the inspection application information entered via the acceptance form is transmitted to the acceptance device 300 of the selected inspection organization. As an optional process, a sperm animation, which is the subject of a detailed examination, is transmitted together with the examination application information.

Thereby, the user can perform one-stop reception of a detailed examination at an appropriate examination institution by the information terminal device 100 based on the observation result of the own sperm.

[System hardware configuration]
FIG. 5 is a block diagram showing the hardware configuration of the information terminal device 100 according to the embodiment of the present invention. The information terminal device 100 includes an arithmetic unit 10, a touch panel 16, a display 17, a camera module 18, and a GPS signal receiver (not shown).

The arithmetic unit 10 is, for example, a general-purpose computer, and performs data processing to be described later, a memory 12 used for a data processing work area, a recording unit 13 for recording processing data, and data among the respective units. And an interface unit 15 (hereinafter referred to as an I / F unit) for inputting and outputting data with an external device.

The touch panel 16, the display 17 and the camera module 18 are connected to the calculation unit 10. In the present embodiment, the touch panel 16 and the display 17 are integrated to be configured as a touch panel type display, and the camera module 18 is configured by an imaging element such as a CMOS image sensor or a CCD image sensor.

In the following description, unless otherwise specified, the processing performed by the calculation unit 10 actually means the processing performed by the CPU 11 of the calculation unit 10 based on the program stored in the recording unit 13 or the memory 12. The CPU 11 temporarily stores necessary data (intermediate data in the middle of processing, etc.) using the memory 12 as a work area, and records data to be stored for a long time, such as calculation results, in the recording unit 13 as appropriate.

In addition, in order to perform the processing of steps S1 to S4 and S11 and S13 to S14 described below with reference to FIGS. 7 and 8, the arithmetic unit 10 executes the program according to the present invention, for example, Is generated in advance), and the operation unit 10 performs processing using the program recorded in the recording unit 13.

[System functional block]
FIG. 6 is a block diagram for explaining the functions of the information processing system according to the embodiment of the present invention.

The calculation unit 10 of the information terminal device 100 includes a moving image acquisition unit 101, a moving image display unit 102, a cell measurement unit 103, a cell state determination unit 104, a position information acquisition unit 105, and an examination engine position display unit 106. A selection receiving unit 107 and an inspection receiving unit 108 are provided. These functional blocks are realized by installing the program according to the present invention in the recording unit 13 or the memory 12 of the calculation unit 10 and the CPU 11 executing the program.

The management device 200 includes an arithmetic unit 20. Arithmetic unit 20 has a configuration similar to that of arithmetic unit 10 included in information terminal device 100.

In the following description, unless otherwise specified, the processing performed by the arithmetic unit 20 actually means processing performed by the CPU of the arithmetic unit 20 based on the program stored in the recording unit or the memory. The CPU temporarily stores necessary data (intermediate data in the middle of processing, etc.) using the memory as a work area, and records data to be stored for a long time, such as calculation results, in a recording unit as appropriate.

In addition, in order to perform the process of step S12 described in FIG. 8 below, the arithmetic unit 20 records in advance the program according to the present invention in the recording unit, for example, in an executable format. Perform processing using the program recorded in.

The calculation unit 20 of the management device 200 includes an inspection organization search unit 201, a map image generation unit 202, an inspection organization database 203, and an electronic map database 204. In the electronic map database 204, data of the electronic map is recorded. The data of the electronic map may be, for example, data using Google (registered trademark) Maps, or may be data uniquely created by an operating company of an information processing system or the like. In the examination institution database 203, information of a plurality of examination institutes CL ₀ to CL _N capable of detailed examination of spermatozoa and position information on electronic map data are recorded in advance in association with each other. The inspection institution database 203 can be constructed as a relational database by middleware such as MySQL or Oracle (registered trademark) Database, for example.

System behavior
7 and 8 are flowcharts showing data processing performed by the information processing system according to the embodiment of the present invention. The process of steps S1 to S4 shown in FIG. 7 is executed by the moving image acquisition unit 101, the moving image display unit 102, the cell measurement unit 103, and the cell state determination unit 104 shown in FIG. The inspection organization search unit 201, the map image generation unit 202, the inspection organization position display unit 106, the selection acceptance unit 107, and the inspection acceptance unit 108 execute the processing of steps S11 to S14 shown in FIG.

The data processing performed by the information processing system according to the embodiment of the present invention will be described below with reference to the flowcharts shown in FIGS. 7 and 8 and the screen display examples of the information terminal device 100 shown in FIGS. explain.

First, the user activates the application for cell observation of the present invention. In the present embodiment, three modes of an observation mode, a measurement mode, and a photographing and recording mode are implemented in the application. By the user appropriately selecting each mode of these applications, the information terminal device 100 or the management device 200 executes the processing of the corresponding steps of steps S1 to S9.

<Observation mode>
FIG. 9 is a screen display example of the observation mode. In the observation mode, the moving image acquisition unit 101 acquires a real-time image or a still image of the spermatozoon SP contained in the semen SE through the camera module 18, and the moving image display unit 102 displays the real-time image or the still image of the spermatozoon SP. Display on 17. As an optional process, in the observation mode, when the recording button 160 is pressed, the moving image acquisition unit 101 can record the real time video or the still image of the acquired spermatozoon SP in the recording unit 13.

<Measurement mode>
FIG. 10 is a screen display example of the measurement mode. In the measurement mode, the processes of steps S1 to S4 described below can be performed. That is, in the measurement mode, when the measurement start button 161 is pressed, the moving image acquisition unit 101 starts the operation, and through the camera module 18, the moving image of sperm SP contained in the semen SE is photographed to acquire the sperm moving image (step S1) ). In the present embodiment, the photographing time of the sperm animation is, for example, about 10 seconds to about 60 seconds, preferably about 20 seconds. While acquiring the sperm moving image, the moving image display unit 102 displays the real time image of the sperm SP on the display 17 (step S2).

When the acquisition of the sperm animation is completed, the cell measurement unit 103 subsequently starts operation, and measures the number and the movement rate of the spermatozoa SP based on the sperm animation acquired in step S1 (step S3). Next, the cell state determination unit 104 determines the state of the spermatozoa SP based on the measurement result of the cell measurement unit 103 (step S4).

The cell measurement unit 103 measures the number and movement rate of spermatozoa SP using a grid-like grid 434 provided on the bottom of the counting chamber 43. The number and motility rate of spermatozoa SP obtained by the measurement are displayed on the display 17.

For measurement of sperm count, first, the number of sperm present in a known volume is counted by a known image processing method. Next, the sperm count count value obtained for the known volume is multiplied by a multiple according to the known volume to correspond to the defined measured volume according to the World Health Organization WHO criteria. Calculate the count value of sperm count in the measurement volume.

In the present embodiment, the size of the grid is 100 μm × 100 μm, and the depth of the counting chamber 43 is a depth to which the sperm can move in the surface direction. The depth of the counting chamber 43 is preferably about 10 μm to about 20 μm, more preferably about 20 μm. Thus, the capacity of one grid separated by the grid 434 is calculated. The cell measurement unit 103 discriminates the spermatozoa SP present in the defined number of squares among the plurality of squares separated by the grid 434 by a known image processing method, and counts the number of spermatozoa SP.

Regarding the measurement of the movement rate, first, the number of moving sperm and the number of total sperm are counted for the entire square in the imaging range by a known image processing method. Next, the sperm motility rate [%] is determined by the formula: (number of moving sperm / total number of sperm) × 100.

The movement speed of the sperm can be automatically measured based on the time required for the sperm to move in the vertical direction of the grid 434 between the grids 434. Alternatively, instead of the automatic measurement function, while the user visually observes the sperm, using a stopwatch, the time for the sperm to move between the grids 434 may be measured, and the movement speed may be determined based on the measurement time.

Besides the above-described method, the analysis of the number of spermatozoa SP and the movement rate by the cell measurement unit 103 can be performed by the same method as a known CASA (Computer Assisted Sperm Analysis) system. Since methods for analyzing sperm number and motility rate by the CASA system are known, further detailed description is omitted herein.

The cell state determination unit 104 determines the state of the sperm based on the number of spermatozoa SP measured by the cell measurement unit 103 and the movement rate. The determination result is displayed on the display 17.

The determination of the state of spermatozoa is carried out by comparing the number of spermatozoa obtained by measurement and the movement rate with a predetermined threshold value. For example, if both the sperm count and the motility rate obtained by the measurement exceed the predetermined threshold value, it is determined that the status of the spermatozoa is "good", otherwise "poor" It is determined that In the present embodiment, the threshold value of the sperm count is, for example, 15 million pieces / ml, and the threshold value of the movement rate is, for example, 40%.

<Recording and recording mode>
In the photographing and recording mode, the same processing as the observation mode can be performed. However, in the observation mode, the moving image of the obtained spermatozoon SP is not recorded in the recording unit 13, but in the photographing recording mode, the moving image acquiring unit 101 records the sperm moving image acquired in step S1 in the recording unit 13. The sperm moving image recorded in the recording unit 13 can be reproduced by the information terminal device 100. Further, as described later, when applying for a detailed examination to a desired examination institution, the sperm animation can be transmitted to the examination institution.

<Inspection application>
After the sperm moving image is recorded in the recording unit 13, when the operation for ending the application for cell observation of the present invention is performed, the display 17 is selected to select whether or not to wish a detailed examination at a laboratory. Screen is displayed. While a button for selecting whether or not desired is displayed on the selection screen, the following message may be displayed on the selection screen as an optional configuration. For example, if it is determined that the status of the spermatozoa is "poor", a message of "recommended accurate measurement by a laboratory" is displayed, and the status of the spermatozoa is determined to be "good". In some cases, a message may be displayed that "It has been evaluated as good, but for the evaluation with defined values, it is recommended that measurement be performed by a laboratory."

When the user selects to request an examination, an electronic map shown in FIG. 11 is displayed on the display 17. The display of the electronic map is realized by the information terminal device 100 and the management device 200 performing the processing of steps S11 to S14 shown in FIG. Specifically, first, the position information acquisition unit 105 acquires position information indicating the position of the information terminal device 100 from the GPS satellite 98 (step S11), and transmits the position information to the management device 200.

Next, in the management device 200, the inspection organization search unit 201 exists, for example, within a predetermined range (radial distance) specified in advance from the position of the information terminal device 100 based on the position information of the information terminal device 100. The inspection institutions CL ₀ to CL _N are searched from the inspection institution database 203 (step S 12). The map image generation unit 202 detects position information of inspection institutions CL ₀ to CL _N present within a predetermined range (for example, within a radius of 10 km from the current location) searched by the inspection organization search unit 201 and in the electronic map database 204. The map image representing the search result is generated on the basis of the electronic map data of and the information terminal device 100 is transmitted.

In the information terminal device 100, the inspection agency position display unit 106 receives the map image from the map image generation unit 202, and displays the retrieved location information of the inspection agency on the display 17 in the form of an electronic map (step S13). ). In FIG. 11, the icon on the map indicated by reference numeral 162 indicates the position of the information terminal device 100 (that is, the user), and the icon on the map indicated by reference numeral 163 hits the search condition. The positions of inspection laboratories CL ₀ to CL _N existing within a predetermined range from 162 are shown.

The user can select an examination institution desiring to receive a medical examination among the examination institutes 163 that have hit the search condition. At this time, for example, the inspection organization position display unit 106 displays summary information of the selected inspection organization (for example, facility name, address or location of inspection organization, telephone number, fax number, e-mail address, evaluation of five stars, word of mouth , A link to a web site of an inspection organization, a link to a social networking service (SNS) site, the number of times the site is accessed through the present invention, the number of visits, etc. can be displayed on the display 17. When the user clicks the link to the website of the inspection organization or the link to the SNS site displayed on the display, the user can access the website or SNS site of the inspection institution and can view detailed information. These functions are functions that facilitate the user to receive a detailed inspection at an appropriate inspection organization. Selection of an examination institution is performed by touching the icon corresponding to the examination institution which wants to receive a medical examination on an electronic map. When the selection receiving unit 107 receives the user's selection of the inspection organization via the touch panel 16, the inspection receiving unit 108 displays a consultation reception form on the display 17.

FIG. 12 is a screen display example of a consultation reception form. When the user fills in the reception form via the touch panel 16 and the transmission button 164 is pressed, the inspection reception unit 108 sends the inspection application information input via the reception form to the reception device 300 of the selected inspection organization. It transmits (step S14). In the present embodiment, the examination application information includes a medical examination desired date, a dedicated ID number 452, a name (optional), presence / absence of attachment of a sperm animation, a telephone number, and an e-mail address. In addition, when a user actually carries a sperm cell into a laboratory, transmission of sperm animation which is a target of detailed examination is arbitrary.

As a result, the user can perform the detailed inspection acceptance at an appropriate inspection institution by the information terminal device 100 in one stop based on the observation result of his / her sperm, and the user can Encouragement of appropriate medical examinations or detailed examinations at appropriate examination institutions. In addition, you may display the route to the inspection organization selected from the present location on an electronic map after transmission of a consultation reception form.

According to the present invention, the measurement of the migration rate of cells (sperm) and the measurement of the number of cells, which have conventionally been performed at specialized facilities such as universities, hospitals, clinics, laboratories, etc. to which artificial insemination and reproduction assisted medical technology are applied It will be possible to do familiarity without going to a specialized facility. According to the present invention, the lens 441 and the counting chamber 43 provided with the grid grid 434 are attached to the camera module 18 disposed on the front side (user side) of the information terminal device 100 to observe cells Such measurement and observation can be easily performed by activating a program (application) for this purpose. The measuring method according to the present invention measures the migration rate of cells and the number of cells according to defined values. In addition, it is possible to position the defined value as an average good cell (sperm) and easily compare and evaluate whether the observation cell (sperm) is good or not by itself. Thus, the right to maintain self-esteem and the protection of privacy and shame can be secured on their own without damaging the self-esteem of the user. This is expected to improve the possibility of going to a specialized institution at an early stage of infertility treatment and having children.

[Other forms]
As mentioned above, although this invention was demonstrated by specific embodiment, this invention is not limited to above-described embodiment.

In the above embodiment, in the examination application mode, the examination institution position display unit 106 displays the retrieved examination institution's position information on the display 17 in the form of an electronic map, but the present invention is not limited to this. For example, the inspection organization position display unit 106 may display the address or the location of the inspection organization which is the position information of the searched inspection organization on the display 17 as a list in the form of text information.

In the above embodiment, in the observation mode shown in the screen display example of FIG. 9, the moving picture display unit 102 displays the real-time video of the spermatozoa SP on the display 17 in the initial state. As described above, when the display switching button 165 is pressed, the moving image display unit 102 may display the reference moving image 166 for comparison in which cells in a good state from a healthy person are photographed on the display 17 together with the real time image. . In the aspect illustrated in FIG. 13, a real-time image of spermatozoa SP is displayed on the left side of the screen, and a reference moving image of a healthy person in a good state is displayed on the right side of the screen.

When the user activates the application for cell observation installed in the information terminal device 100, the information terminal device 100 may request the user's consent for the activation of the application. The consent information may be, for example, the user's name, age, e-mail address, mobile phone number, address, ID number 452 included in the kit, and the like. Further, among the consent information, for example, a name, an e-mail address, and an ID number 452 may be set as required information. After the information terminal device 100 transmits the consent information to the management device 200, the management device 200 notifies the user's information terminal device 100 of a customer number (user ID) via e-mail, for example, and the user registration is completed. Complete. The user can start the application by, for example, inputting the notified customer number into the cell observation application via the input dialog. After activating the application, the information terminal device 100 accesses the URL of a video distribution site (for example, YouTube (registered trademark)) that distributes a video explaining the contents of the instruction manual, displays the explanatory video on the display 17 and reproduces it. May be

In the above embodiment, when the transmission button 164 is pressed on the screen display of the examination acceptance form shown in FIG. 12, the examination acceptance unit 108 selects the examination application information input via the acceptance form of the examination organization that has selected the examination application information. The examination acceptance unit 108 may request the user to input a customer number as a condition for examination application although it is transmitted to the acceptance device 300 (step S14). In addition, the number of inspection applications may be limited by using a customer number. For example, the inspection application may be performed once in principle, and the inspection application may be allowed up to two times. The conditions for enabling the second test application can be, for example, within a predetermined time (for example, within 30 minutes) from the first application. Inspection applications after the predetermined time has passed may be invalidated.

In the above embodiment, three modes of the observation mode, the measurement mode and the photographing and recording mode are implemented in the application, and the icon corresponding to each mode is displayed on the display 17, but the application implements The mode is not limited to this. In addition to the three modes of observation mode, measurement mode, and photographing and recording mode, for example, a usage method mode and a search mode may be implemented, and icons corresponding to these additional two modes may be displayed on the display 17. In the usage method mode, for example, the URL of a moving image distribution site for distributing a moving image explaining the content of the instruction manual is accessed, and the explanatory moving image is displayed on the display 17 and reproduced. In the search mode, for example, the information terminal device 100 and the management device 200 perform a series of processes of steps S11 to S14 shown in FIG. 8, and display the electronic map shown in FIG.

The examination reception form illustrated in FIG. 12 in the above embodiment is an example, and various items can be described in the examination reception form. The examination reception form may be a reception acceptance form dedicated to the application in which the entry items are unified, or may be a separate examination reception form in which the entry items are different for each inspection institution.

In the above embodiment, the semen SE is photographed or imaged using the camera module 18 disposed on the front side (user side) of the information terminal device 100, but it is disposed on the back side of the information terminal device 100. The captured camera module may be used to capture or image the semen SE. It is preferable to use a camera module disposed on the back side, since the captured image can be enlarged live.

In the above embodiment, one measurement area 432 is provided in the counting chamber 43. For example, as shown in the plan view of FIG. 14, two measurement areas 432A, 432B may be provided. In this case, two introduction areas 431A and 431B to which liquefied semen SE is dropped may be provided corresponding to each of the two measurement areas 432A and 432B. Alternatively, the cell observation kit 400 may include two counting chambers 43 shown in FIG. 1 for a detailed examination at a laboratory. That is, the user may use one counting chamber 43 at home or the like, and bring the remaining one counting chamber 43 into the inspection organization for detailed inspection at the selected inspection organization. Also, if the user brings an unused counting chamber 43 to the inspection organization and the detailed inspection is performed, the selected inspection organization may reduce the inspection cost.

In the above embodiment, information of a plurality of inspection institutions CL ₀ to CL _N capable of detailed examination of sperm displayed on an electronic map is recorded as a database, but registered in the database and displayed on the electronic map The examination organization and medical care facility can be an examination organization and medical care facility that has been certified by an organization that operates the management apparatus 200. That is, if the inspection organization or medical facility does not meet the predetermined criteria prescribed by the organization that operates the management apparatus 200, or if the inspection organization or medical facility receives expelled disposition from the organization, such an inspection Institutions and medical facilities can be excluded from database registration.

In the above embodiment, the inspection agency position display unit 106 displays the position of the retrieved inspection institution in the form of an electronic map based on the designation of a preset distance (radial distance) from the current location from the user. Although displayed, the scope of the search is not particularly limited. The user may specify the radial distance. Also, for example, inspection institutions existing in a rectangular area (for example, in an area of 10 km north to south, 5 km east to west) centered on the current position of the user may be searched. In addition, when there is no inspection organization in a preset range, the nearest inspection institution outside the range may be searched, and the position of the inspection organization found may be displayed on an electronic map with an enlarged scale.

Alternatively, the inspection institution position display unit 106 may display the position of the searched inspection institution in the form of an electronic map based on the designation of the prefecture from the user. In this case, for example, the position information acquisition unit 105 acquires the designation of the prefecture to be searched from the user and transmits the designation to the inspection organization search unit 201, and the inspection organization search unit 201 performs inspection within the designated prefecture. The organization may be searched from the inspection organization database 203.

In the above-described embodiment, in the examination application mode shown in the screen display example of FIG. 12, the user designates a desired date for consultation and applies for a consultation, but instead of the application for a consultation, the return from the doctor is You may seek findings. In this case, the examination acceptance unit 108 attaches and transmits the sperm animation of the user along with the examination application information.

In the above embodiment, human male sperm cells are used as the test subject, but the test subject is not limited to human. For example, livestock such as cows and pigs such as racehorses and experimental animals Sperm cells of various animals can be tested. In addition, cells to be tested are not limited to sperm, and various cells and tissues can be tested.

In the above embodiment, the information terminal device 100 is, for example, a smartphone with a camera capable of receiving a GPS signal, but the information terminal device 100 is not limited to the smartphone of such an aspect. The information terminal device 100 does not have to be an integral device, and the display 17, the camera module 18, the GPS signal receiver (not shown), etc. are disposed separately from the information terminal device 100, and these are mutually networked (for example, It may be communicably connected via BLUETOOTH (registered trademark). In such an aspect, the information terminal device 100 can be configured by a general-purpose computer, and the position information acquisition unit 105 acquires position information of the information terminal device 100 via a separately disposed GPS signal receiver. can do.

In the above embodiment, the moving image acquisition unit 101, the moving image display unit 102, the cell measurement unit 103, the cell state determination unit 104, the position information acquisition unit 105, the examination organization position display unit 106, the selection acceptance unit 107, and the examination acceptance unit 108. Although each functional block is executed by a single CPU 11, these functional blocks do not necessarily need to be executed by a single CPU 11, and may be distributed and processed by a plurality of CPUs.

In the above embodiment, the information terminal device 100 downloads programs for performing the processes of steps S1 to S4 and S11 and S13 to S14 via the network 99, but the present invention is not limited to this. For example, the program is recorded on a computer readable non-temporary tangible recording medium such as a DVD-ROM, an SD card (registered trademark), or a USB memory, and installed in the information terminal device 100 from the recording medium. It is also good.

In the above embodiment, the information terminal device 100 is a smartphone, and the touch panel 16 and the display 17 are integrated to be realized as a touch panel type display, but the touch panel 16 is configured by a keyboard or a mouse, etc. May be constituted by a liquid crystal display or the like.

As a network between users, for example, information on each inspection agency (for example, reputation of each inspection agency, writing by a user, etc.) may be shared through posting to SNS. By sharing information by SNS, we were able to confirm the result of the self-examination on the large wall for the examination held by the user to the specialized examination institution by itself, and the environment was easy for the user to have an examination And can provide the latest medical information. By sharing information via SNS like this, it is possible to construct a network that serves as a bridge to improve pregnancy rates, and to broaden the circle of users, such as interaction and information exchange between users. An inspection agency may participate in information sharing by SNS.

Further, as a network between users (called members) who have performed user registration, information dedicated to members may be shared. As a means for posting and sharing information dedicated to members, for example, the management apparatus 200 includes a member-posted information database in the computing unit 20, and records information posted from members. In addition, the latest information (for example, latest medical information and the like) can be distributed from the inspection organization to the member via, for example, an electronic mail or the like via the management apparatus 200. The inspection agencies capable of distributing the latest information may be limited to the inspection agencies registered in the inspection institution database 203.

The cell observation kit 400 can include an enzyme or a diluent. These enzymes or diluents are added to the semen SE by the user when the liquefaction of the semen SE is incomplete.

In the above embodiment, the number of spermatozoa SP and the movement rate are analyzed by the cell measurement unit 103, but the analysis items performed by the cell measurement unit 103 are not limited to these. The analysis items are exemplified below.
<Sperm movement analysis item>
・ Motor sperm count, immobile sperm count, analysis sperm number (motile sperm count + immobile sperm count)
Sperm concentration (million / ml)
・ Total sperm count (Million sperm concentration × amount of semen)
・ Sperm movement rate (%)
Motile sperm concentration (million / ml), total motile sperm count (million)
・ Sperm linear velocity (Straight-line Velocity (VSL) μm / sec)
・ Sperm curve velocity (Curvilinear Velocity (VCL) μm / sec)
・ Sperm average velocity (Average Path Velocity (VAP) μm / sec)
・ Sperm straightness (Linearity (LIN) linear velocity / curvilinear velocity)
・ Sperm linearity (Straightness (STR) linear velocity / average velocity)
・ Sperm head amplitude (Amplitude of lateral head displacement (ALH) μm)
・ Sperm head frequency (Beat-cross Frequency (BCF) Hz)

In the above embodiment, the count value of the number of sperm obtained for a known volume is multiplied by a multiple according to the known volume to calculate the count value of the number of sperm in a prescribed measurement volume. The method of counting the number is not limited to this. Below, another example of the procedure which counts sperm count is described.

An example of the procedure for counting the number of sperm is as follows.
[When the depth of the counting chamber 43 is 20 μm]
<Protocol>
1. The fully liquefied and homogenized 5 μl of semen SE is dropped into the introduction area 431A.
2. Filling the area of about 80 to 90% of the counting chamber 43 by capillary action stabilizes the visual field.
3. After the count chamber 43 is filled, if the extra semen SE remains in the introduction area 431A, the extra semen SE is sucked using a Kimwipe or the like.
4. For at least five randomly selected squares, the number of spermatozoa SP present in the squares is counted.
The recommendations of the WHO manual state that it is desirable to count at least 200 spermatozoa to obtain reliable results.
1) Count many squares until the sperm count exceeds 200.
2) Divide the counted sperm count by the number of squares counted (目 の).
3) Multiply (x) the result of this division by five.
5. Determine motility according to the WHO manual.
<Calculation of concentration>
The number of spermatozoa per ml (sperm concentration: × 10 ⁶ sperm / ml) is calculated as follows.
Number of sperm per ml = (total number of sperm counted within 5 squares) x 10 ⁶
* Total analysis capacity: 5 squares × 0.1 mm × 0.1 mm × 0.02 mm = 0.001 mm ³
<Mobility classification and ratio calculation>
Classify to the motility recommended by the WHO manual, and calculate each ratio to the whole.
Regardless of class PR speed, all other movements without active linear movement or large circumferential movement class NR advance ・ Pattern showing small circumferential movement ・ Pattern showing only head and tail amplitude movement ・ Tail amplitude Pattern class IM showing only movement No forward movement and amplitude movement at all <reference>
WHO laboratory manual for the examination and processing of human
Fifth edition
ISBN: 978 92 4 154778 9
http://www.who.int/reproductivehealth/publications/infertility/9789241547789/en/

[When the depth of the counting chamber 43 is 10 μm]
<Procedure>
1. The fully liquefied and homogenized 3 μl of semen is dropped into the introduction area 431A.
2. Filling the area of about 80 to 90% of the counting chamber 43 by capillary action stabilizes the visual field.
3. After the counting chamber 43 is filled, if extra semen remains in the introduction area 431A, the extra semen SE is sucked using a Kimwipe or the like.
4. For at least 10 randomly selected squares, the number of sperm present in the squares is counted.
The recommendations of the WHO manual state that it is desirable to count at least 200 spermatozoa to obtain reliable results.
1) Count many squares until the sperm count exceeds 200.
2) Divide the counted sperm count by the number of squares counted (目 の).
3) Multiply the result of this division by 10 (×).
5. Determine motility according to the WHO manual.
<Calculation of concentration>
The number of spermatozoa per ml (sperm concentration: × 10 ⁶ sperm / ml) is calculated as follows.
Number of sperm per ml = (total number of sperm counted in 10 squares) x 10 ⁶
* Total analysis capacity: 10 squares × 0.1 mm × 0.1 mm × 0.01 mm = 0.001 mm ³
<Mobility classification and ratio calculation>
Classify to the motility recommended by the WHO manual, and calculate each ratio to the whole.
Regardless of class PR speed, all other movements without active linear movement or large circumferential movement class NR advance ・ Pattern showing small circumferential movement ・ Pattern showing only head and tail amplitude movement ・ Tail amplitude Pattern class IM showing only movement No forward movement and amplitude movement at all <reference>
WHO laboratory manual for the examination and processing of human
Fifth edition
ISBN: 978 92 4 154778 9
http://www.who.int/reproductivehealth/publications/infertility/9789241547789/en/

10 arithmetic unit 11 CPU
12 memory 13 recording unit 14 bus 15 interface unit 16 touch panel 17 display 18 camera module 20 arithmetic unit 41 collection container 42 syringe 43 counting chamber 431 introduction area 431A, 431B introduction area 432 measurement area 432A, 432B measurement area 433 slide glass 434 grid 44 Cartridge 441 Lens 442 Lens holder 45 Card 451 Information code 452 ID number 98 Satellite 99 Network 100 Information terminal device 101 Movie acquisition unit 102 Movie display unit 103 Cell measurement unit 104 Cell condition determination unit 105 Position information acquisition unit 106 Inspection agency position display unit 107 selection acceptance unit 108 examination acceptance unit 160 recording button 161 measurement start button 162 position of information terminal device 163 inspection organization Position 164 transmission button 165 display switching button 166 reference video 200 managing device 201 inspection body retrieval unit 202 map image generating unit 203 inspection organization database 204 electronic map database 300 receiver 400 cell observation kit EX external light SE semen SP sperm (test cell)

Claims (14)

1. A video acquisition unit that acquires a video of a test cell from the camera module;
   A moving picture display unit for displaying the moving picture of the test cell on a display;
   A position information acquisition unit that acquires position information indicating the position of the information terminal device;
   An inspection engine position display unit that displays information indicating the position of an inspection organization present within a predetermined range from the position of the information terminal device on the display;
   An information terminal apparatus comprising:
2. The information terminal device according to claim 1, wherein the inspection organization position display unit displays the position of the inspection organization on an electronic map.
3. A selection receiving unit that receives the selection of the inspection organization displayed on the display;
   An examination acceptance unit for transmitting examination application information to the acceptance apparatus of the selected examination organization;
   The information terminal device according to claim 1, further comprising:
4. The information terminal device according to claim 3, wherein the test receiving unit further transmits the moving image of the test cell to the receiving device.
5. The information terminal device according to any one of claims 1 to 4, further comprising a cell measurement unit configured to measure the number and the movement rate of the test cells based on the moving image of the test cells.
6. The information terminal device according to claim 5, further comprising: a cell state determination unit that determines a state of the test cell based on a measurement result of the cell measurement unit.
7. The information terminal device according to any one of claims 1 to 6, wherein the moving image display unit displays a reference moving image obtained by capturing a cell in a good state, along with the moving image of the test cell.
8. The information terminal device according to any one of claims 1 to 7, wherein the moving image acquisition unit uses the camera module disposed on the side of the information terminal device on which the display is disposed.
9. The information terminal device according to any one of claims 1 to 8, wherein the test cell comprises human sperm cells.
10. A moving image acquisition step of acquiring a moving image of a test cell from the camera module;
    A moving image display step of displaying the moving image of the test cell on a display;
    A position information acquisition step of acquiring position information indicating the position of the information terminal device;
    An inspection engine position display step of displaying information indicating the position of an inspection engine existing within a predetermined range from the position of the information terminal device on the display;
    Method, including.
11. The program for functioning a computer as each part of the information terminal device in any one of Claims 1-9.
12. A non-transitory computer readable non-transitory recording medium recording the program according to claim 11.
13. The information terminal device according to any one of claims 1 to 9,
    And a database in which an inspection organization and information indicating the position of the inspection organization are associated with each other, and based on the position information received from the information terminal device and indicating the position of the information terminal, A management apparatus configured to search the database for inspection laboratories existing within a predetermined range from the position;
    A receiving device disposed at the inspection organization and capable of communicating with the information terminal device;
    An information processing system comprising:
14. A medium in which information for acquiring the program according to claim 11 is described;
    A counting chamber for collecting the test cells, provided with a grid for counting the test cells;
    A holding member detachably mounted on the information terminal device and holding the counting chamber at a predetermined position with respect to the camera module;
    And a cell observation kit.

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