JP7476855B2 - System for providing exposure history information to nucleic acid particles and its use - Google Patents

Description

This specification relates to a system for providing exposure history information to nucleic acid particles and its use.

Nucleic acids are generally derived from living organisms, and the base sequence of the nucleic acid has the characteristic that it is possible to identify the organism or gene from which it originates. By obtaining information about nucleic acids in an environment where living organisms may exist, it is possible to obtain various information about that environment. In natural environments and artificial environments including artificial objects, human genomic DNA derived from human tissue fragments, cells, body fluids, etc. may be present. Furthermore, in such environments, nucleic acids derived from non-human animals, insects, plants, and microorganisms including viruses may also be present.

An information provision system has been disclosed that uses a virus sensor that detects viruses in the environment to determine travel routes while taking into account the risk of infection with pathogens (Patent Document 1). This system is configured to install a virus sensor in a public transportation station or vehicle, capture and detect viruses with its collection unit, and transmit information about the detected viruses and the location of the virus sensor to an information provision server. It is disclosed that this system can use the virus sensor to grasp the presence and amount of viruses on a transportation route from the virus detection results at the installation location, and suggest travel routes that can reduce the risk of infection with viruses.

JP 2020-8969 A

However, in the system disclosed in Patent Document 1, it is difficult to install a sufficient number of virus sensors due to the cost of installing and maintaining them. As a result, it is not possible to obtain sufficient information about an individual's exposure to viruses, etc.

In addition, in the past, information on people flow and the occurrence of infected people has been made public to determine when and where people are present and how many people there are. However, with only this information on people flow and the occurrence of infected people, it is only possible to verify the distribution and spread of the virus once the infection has spread.

As described above, to date, only limited use has been made of information on nucleic acid particles such as viruses in the environment. With such information alone, it is not possible to rapidly assess an individual's or the group to which they belong to an exposure status to nucleic acid particles such as specific viruses, or the distribution or spread tendency of such particles.

This specification provides a system for providing information on nucleic acids in the environment that is useful for understanding the exposure status of nucleic acid particles in humans and other subjects. This specification also provides a system for providing exposure history information to nucleic acid particles using such information.

The inventors have decided to collect nucleic acid particles by using an attachment attached to a part of the outer surface of a moving body such as a human or animal as a collection device for collecting nucleic acid-containing nucleic acid particles. In this way, it is possible to collect and accumulate nucleic acid particles in the environment on the path of movement of the moving body as it moves. In addition, it has been found that it is possible to generate nucleic acid information relating to the identification and/or amount of nucleic acid, such as the biological species from which the nucleic acid particles originate and the base sequence, from these collected nucleic acid particles. In addition, it has been decided to obtain route information so that the space (route) and time traveled by the collection device can be identified. It has been found that by utilizing this information, it is possible to analyze the history of exposure of a moving body to nucleic acid particles such as viruses. Based on such findings, the present specification provides the following means.

[1] A system for providing information regarding exposure history to nucleic acid particles, comprising:
At least one processor;
The at least one processor:
generating nucleic acid information including information regarding the identification and/or amount of nucleic acid particles collected by a collection device that is attached to at least a portion of the surface of the mobile body and that collects nucleic acid-containing particles present in the environment;
A system that generates exposure history information regarding the exposure history of the mobile object to the nucleic acid particles based on the nucleic acid information.
[2] The system described in claim 1, wherein the nucleic acid information includes information regarding the pathogenicity of the nucleic acid particle.
[3] The system described in [1] or [2], wherein the at least one processor generates the exposure history information of the mobile body based on multiple pieces of nucleic acid information obtained at different times for the same mobile body.
[4] The system described in any of [1] to [3], wherein the at least one processor acquires route information regarding the movement path and movement time of the collection device, and generates the exposure history information of the moving object based on the nucleic acid information and the route information.
[5] The system described in [4], wherein the at least one processor generates exposure risk information for the nucleic acid particle based on the exposure history information.
[6] The system described in [4] or [5], wherein the at least one processor generates nucleic acid particle distribution information regarding the distribution of the nucleic acid particles based on the nucleic acid information and the pathway information.
[7] The system described in claim [4] or [5], wherein the at least one processor generates exposure history information of the population to the nucleic acid particles based on the nucleic acid information and the route information for a plurality of the mobile objects belonging to the population.
[8] The system described in [7], wherein the at least one processor generates exposure risk information regarding the population's exposure risk to the nucleic acid particle based on the population's exposure history information.
[9] The system described in [7] or [8], wherein the at least one processor generates nucleic acid particle distribution information regarding the distribution of the nucleic acid particles in the population for a plurality of the mobile objects belonging to the population based on the nucleic acid information and the route information.
[10] A system described in any of [1] to [9], wherein when the at least one processor acquires contact history information regarding the mobile object having a contact history with a specific nucleic acid particle carrier, it generates specific exposure risk information regarding the risk of exposure to the specific nucleic acid particle based on the contact history information and route information regarding the movement path and movement time of the collection device.
[11] A system described in any of [1] to [9], wherein when the at least one processor acquires possession information regarding the mobile object being a specific nucleic acid particle carrier, it generates specific exposure risk information regarding the exposure risk of the population to which the mobile object belongs to the specific nucleic acid particle based on the possession information and route information regarding the movement path and movement time of the collection device.
[12] The collection device is capable of collecting nucleic acids derived from the mobile body,
The system according to any one of claims 1 to 11, wherein the at least one processor generates mobile body nucleic acid information relating to identification of nucleic acids derived from the mobile body.
[13] The system according to any one of [1] to [12], wherein the nucleic acid particle is derived from a virus or a microorganism.
[14] A system described in any of [1] to [13], which provides the exposure history information to an external device or a terminal possessed by the mobile object.
[15] A system for providing infection risk information regarding a risk of infection with a pathogen, comprising:
At least one processor;
The at least one processor:
Generating nucleic acid information relating to the identity and/or amount of pathogen particles captured by a collection device attached to at least a portion of the surface of the moving object, the collection device collecting the pathogen particles;
A system that generates the infection risk information of the mobile object based on the nucleic acid information.
[16] A system for providing information about nucleic acid particles in an environment, comprising:
The at least one processor:
A system that generates nucleic acid information regarding the identity and/or quantity of nucleic acid particles collected by a collection device attached to at least a portion of the surface of the mobile body, the collection device collecting nucleic acid particles containing nucleic acids present in the environment.
[17] The system of [16], wherein the at least one processor further generates route information regarding a travel path and travel time of the collection device.

FIG. 1 illustrates an example of a system disclosed herein. A diagram showing an example of a flow for generating exposure history information, etc. in the system disclosed in this specification. FIG. 2 illustrates an example of a process flow that is implemented prior to the system disclosed herein. FIG. 1 shows the residual virus activity (a) and residual virus amount (b) in a used mask in an example.

The disclosure of this specification relates to a system that provides information on nucleic acid particles in the environment, and a system that utilizes the system to provide information on exposure history to nucleic acid particles. The system disclosed in this specification makes it possible to easily and efficiently collect nucleic acid particles along an individual's travel route without being restricted by public transportation. Furthermore, nucleic acid information relating to the identification and/or amount of nucleic acid particles collected in this manner can be associated with the moving object and its route, and can therefore be used for various analyses such as exposure to nucleic acid particles and the distribution of nucleic acid particles.

In this specification, the environment refers to the external environment of a living organism, and includes, for example, natural environments such as mountains, fields, rivers, and oceans, as well as artificial outdoor and indoor environments including artificial structures such as buildings, roads, and structures. The environment may be in water, soil, or the surface of the earth, but is primarily in the air.

As used herein, a living organism refers to any living organism, including humans, non-human mammals, and other animals.

In this specification, nucleic acid refers to DNA and RNA, and may be single-stranded or double-stranded. It may also be a hybrid of DNA and RNA. RNA may be mRNA, tRNA, rRNA, or any other RNA derived from a living organism. In this specification, nucleic acid particles containing nucleic acid may be particulate matter that retains such nucleic acid, typically including cells, microorganisms, virus particles, and the like. Such nucleic acid particles may exist as aerosols suspended in the air. The nucleic acid particles intended in this specification include nucleic acid particles that exist as such aerosols.

In this specification, nucleic acid information refers to information relating to the identification and/or quantity of a nucleic acid. Identification of a nucleic acid includes identifying whether a nucleic acid is a target nucleic acid, determining the base sequence of the nucleic acid, identifying a species of organism based on the base sequence of the nucleic acid, identifying a mutant species based on the base sequence, and identifying pathogenicity based on a species of organism, a mutant species, or a base sequence, etc.

The disclosure of this specification will be described in detail below with reference to the drawings as appropriate. This describes a system that generates nucleic acid information and the like from nucleic acid particles collected by a collection device attached to a mobile object, and further generates information on exposure history and provides these.

(System for providing information on exposure history to nucleic acid particles in the environment)
FIG. 1 shows an exposure history information providing system (hereinafter, simply referred to as the system) and components related to this system. This system is configured as a system in which a mask as a collection device is worn by a mobile subject (human) for generating nucleic acid information, and virus particles as nucleic acid particles extracted from a used mask collected from the subject are analyzed to generate nucleic acid information of the viral nucleic acid, and exposure history information for the virus particles is generated and provided. Note that the part of this system that analyzes virus particles as nucleic acid particles extracted from a used mask to generate and provide nucleic acid information of the viral nucleic acid corresponds to a system that provides information on nucleic acid particles in the environment.

The network 100 shown in FIG. 1 is, for example, a communication network of the Internet that communicates with the system 20 and other components. The network 100 can be a known wireless or wired communication network, such as a local area network (LAN), a mobile communication network, and/or other networks. The network 100 can connect the system 20 to the subject's mobile terminal 40, the interaction analysis system 60, the nucleic acid analysis system 80, and the infectious disease data server 200. The network 100 can also connect the system 20 to an external device 500, which is an infectious disease-related system. The external device 500 may be a system of an organization or institution, such as a medical business operator or a transportation business operator, in addition to an individual, that can use the nucleic acid information and route information generated by the system 20. The external device 500 may also be a system of a local government or a country.

The system 20 is a system in which a subject who is to collect and analyze nucleic acid particles wears a mask 10 for a certain period of time to collect virus particles, and then collects the mask 10, extracts and analyzes the virus particles, and obtains and uses nucleic acid information on the viral nucleic acid. In addition to the nucleic acid information, the system also obtains and uses route information and interaction information related to the subject's contact history from a mobile terminal 40 or the like.

The system 20 is configured as a so-called computer or server, and is equipped with a processor and memory, and is configured to be connectable to the network 100. The system 20 is configured to receive various information from the mobile terminal 40 carried by the subject, the interaction analysis system 60, and the nucleic acid analysis system 80, and to perform various analyses.

The information generated by the system 20 includes exposure history information on the subject's exposure history to viruses, exposure risk information to viruses, and virus distribution information. The exposure history information includes the type of virus (including pathogenicity, etc.) and the history of the amount of virus obtained from nucleic acid information obtained from the mask 10, and is generated from nucleic acid information based on the subject performing collection behavior using the mask 10 at least once. From the viewpoint of observing changes in exposure status to viruses, it is preferable that the exposure history information is generated from nucleic acid information based on two or more collection behaviors at different times. In addition, it is preferable that the exposure history information is accompanied by route information on the route associated with the subject's collection behavior. By including the route information, the possible range of distribution of the virus can be identified.

Exposure risk information is information about the level of exposure risk generated based on exposure history information. For example, if the type and amount of virus in the exposure history information is equal to or lower than the standard set assuming a non-epidemic time, the exposure risk is low; if it is higher than the standard for non-epidemic times and lower than the standard set assuming an epidemic time, the exposure risk is medium; and if it is equal to or higher than the standard for epidemic times, the exposure risk is high. The degree of risk is expressed using appropriate indicators such as numbers or symbols. Note that exposure risk information can be interpreted as infection risk information when it relates to infectious nucleic acid particles.

The exposure risk information is both about the subject and the group to which the subject belongs (e.g., family, school, company or other organization, region, various facilities, etc.). In addition, when exposure risk information is generated based on exposure history information accompanied by route information, the group to which the subject belongs is often more specific.

The virus distribution information is not particularly limited, and may be any information that represents nucleic acid information and route information on a map. For example, the amount of virus obtained from the nucleic acid information and route information may be plotted as dots or routes on a map. The color or intensity of the plot, or the size (thickness) of the plot may be changed according to the amount of virus.

Below, we will describe the elements associated with system 20, followed by a description of the processes that system 20 executes.

(Collection Device)
The mask 10, which is a collection device, includes, for example, a mask body configured to cover the mouth and nose, and annular locking parts at the left and right ends of the mask body that can be locked to the left and right ears. The mask body is formed so as to be able to collect virus particles as aerosols in the air that the mask body comes into contact with. Typically, a virus particle collection part having a filter made of a nonwoven fabric having a mesh size capable of capturing target virus particles is provided near the center of the mask body. By providing the virus particle collection part in such a position, virus particles in the air can be effectively collected by inhalation into the mouth, nose, etc. The position of the virus particle collection part is not particularly limited, and may be on the peripheral side rather than near the center of the mask body through which the inhaled air passes. Note that, in the case of a mask that is normally available, the entire mask is configured so as to be able to collect nucleic acid particles such as virus particles.

A sheet having a code recorded thereon containing identification information for identifying the mask 10 is attached to a part of the mask 10. The code also contains subject information about the subject. Subject information is not particularly limited, but may include, for example, gender, age, underlying diseases, medication history, and lifestyle habits.

The collection device for humans may take the form of a general infection prevention device such as a mask or face guard, or may take the form of a medical device that can be attached to the surface of the body or other forms. Examples of the form of the medical device include contact lenses and bandages. Other forms include, for example, a sheet-like body having an adhesive surface (e.g., an adhesive layer, etc.) or an uneven surface (e.g., a nonwoven fabric or cloth, etc.) to which nucleic acid particles can be attached and held, a filter-like body or a cyclone-like body equipped with a suction device. Such a collection device may be clothing such as gloves, hats, socks, or a part thereof, or may be attached to clothing. Furthermore, the collection device may be one that can be attached to a part of the body such as the head, neck, wrists, and ankles. The collection device may be configured to directly contact the ground or road surface, such as shoes. For example, the collection device may take the form of a shoe cover or a sheet-like body that is attached to the sole of a shoe.

(mobile computer)
The mobile terminal 40 carried by the subject is a device for acquiring route information. The mobile terminal 40 includes a computer having a processor and a memory. The mobile terminal 40 also includes a GPS receiver that can acquire the route and travel time traveled by the subject wearing the mask 10 as route information based on GPS positioning.

The mobile terminal 40 has a collection app stored in its memory that is related to the collection of nucleic acid particles. The route-related app is configured to acquire mask identification information and subject information in the collection app by the subject reading the code on the mask 10 with the mobile terminal 40 and performing an operation. In addition, when the subject puts on the mask 10 and starts the nucleic acid collection action, the processor is configured to record the position information on the route along which the subject moves and the time by starting the collection app. In addition, when the end condition of the collection action, such as a predetermined time, is satisfied or the subject ends the collection app, the processor is configured to record route information related to the movement route and time of the mobile terminal 40 from start to end in the memory, and transmit the mask identification information, subject information, and route information to the system 20 via the network 100.

The mobile terminal 40 also has a contact management application stored in its memory for evaluating interactions between individuals (managing whether or not people have been in close proximity within a certain distance range for a certain period of time or more). The contact management application transmits information about the movement path and time of the mobile terminal 40 to the interaction analysis system 60 for analysis of the interaction.

When the interaction analysis system 60 determines that the subject has a history of contact with a virus-positive individual, the mobile terminal 40 receives contact history information including the contact history content from the analysis system 60. When the mobile terminal 40 receives the contact history information, it is configured to transmit the information to the system 20.

The mobile terminal 40 may be, for example, a smartphone or a dedicated device.

(Interaction Analysis System)
The interaction analysis system (hereinafter, also simply referred to as the analysis system) 60 is a system that generates and analyzes information regarding interactions between individuals. The analysis system 60 is configured as a so-called computer or server, and includes a processor and a memory, and is configured to be connectable to a network 100. The analysis of interactions performed by the analysis system 60 includes detection of a contact history (a history of proximity within a certain distance range for a certain period of time) with a specific person (typically a virus-positive person) based on route information of a contact management app user. The analysis system 60 is configured to acquire all of this route information from the mobile terminal 40 of the subject in order to analyze the interactions.

The analysis system 60 is configured to be able to obtain, via the app, from the contact management app user, information indicating that the contact management app user is a person who has tested positive for a virus infection. The analysis system 60 is also configured to make an input request to the infectious disease data server 200, and obtain information on people who have tested positive in a specified area or cluster within a specified period of time. Furthermore, the analysis system 60 is configured to be able to verify whether the people who have tested positive from the infectious disease data server 200 are app users.

The analysis system 60 determines whether other contact management app users have a contact history with a virus-positive person, based on the route information of the contact management app user and the route information of other contact management app users stored in the analysis system 60. It is possible to send contact history information regarding the contact history to contact management app users who are determined to have a contact history.

Therefore, if the analysis system 60 determines that the subject has a history of contact with a positive individual, it transmits contact history information with the positive individual to the subject's mobile terminal 40.

(Nucleic acid analysis system)
The nucleic acid analysis system (hereinafter also simply referred to as the analysis system) 80 is a system for generating nucleic acid information. It includes an analysis device for analyzing the nucleic acid recovered and extracted from the recovered mask 10. The analysis system 80 includes a computer having a processor and a memory. Generally, known analysis devices include a computer.

The analysis content in the analytical device is related to the generation of nucleic acid information, and examples thereof include analysis of the base sequence of a nucleic acid, analysis of whether a nucleic acid is a target nucleic acid, and the type or pathogenicity of a nucleic acid particle from which the nucleic acid is derived based on the base sequence, etc. When analyzing the base sequence, a cleavage process can be performed with a restriction enzyme as necessary, and a known base sequence determination method can be used. For detection of the target nucleic acid, the target nucleic acid is amplified and detected by a PCR method using a primer designed to amplify the target nucleic acid. As the PCR and detection method, in addition to performing a normal PCR and then detecting with a probe, etc., a suitable known PCR method such as real-time PCR or RT-PCR can be used. The target nucleic acid can be a nucleic acid containing a specific gene, a specific microorganism, a specific virus, or a mutation in these.

The analytical device is a device that performs such analysis, and can be a known short-read sequencer, long-read sequencer, or various PCR devices depending on the analysis. These devices can automatically analyze the presence, amount, and base sequence of a target nucleic acid by typically setting a sample prepared according to a specified protocol. Furthermore, the analytical device or analysis system 80 can compare the obtained base sequence, etc. with known base sequences to identify the biological species from which the nucleic acid particles originate, as well as pathogenicity. The analysis system 80 is configured to transmit the nucleic acid information thus generated to the system 20.

(Infectious disease data server)
The infectious disease data server (hereinafter also simply referred to as the server) 200 is configured as a server, has a processor and necessary memory, and is configured to be connectable to the network 100. The server 200 is a data server related to infectious diseases, and stores information on positive cases occurring daily in each region of the country. The server 200 is configured to provide information on positive cases identified in the requested region or cluster and during the requested period in response to an input request from the analysis system 60.

(External Device)
The external device 500 is configured as a computer, a server, or a mobile terminal, includes at least one processor and necessary memory, and is configured to be connectable to the network 100. The external device 500 can acquire positive case information by making an input request to the server 200 for the system 20. Furthermore, by making an input request to the system 20, the external device 500 can acquire various information generated by the system 20 based on this information, in addition to nucleic acid information and pathway information.

The system 20 can obtain route information and contact history information of the subject from the mobile terminal 40, etc., and nucleic acid information of the subject from the analysis system 80. Based on this information, the system 20 generates various information.

As an example of various processes using the system 20, a flow for generating exposure history information, exposure risk information, and distribution information for a specific RNA virus is illustrated in FIG. 2 and described below. In this process, when the system 20 acquires contact history information from the mobile terminal 40 indicating that the subject has a contact history with a virus carrier, the system 20 also generates specific exposure risk information for virus particles based on the information. Note that FIG. 2 shows the process flow after the subject has finished collecting virus particles using the mask 10, and the process prior to the process shown in FIG. 2 will be described later with reference to FIG. 3.

As shown in FIG. 2, the collection app of the mobile terminal 40 generates route information regarding the movement path and movement time from the start to the end of the subject's virus particle collection behavior, and transmits this route information to the system 20 together with the identification information of the mask 10 and the subject's specific information (step S100).

In addition, the contact management app on the mobile terminal 40 transmits the subject's entire route information to the analysis system 60 (step S102).

In the analysis system 80, the nucleic acid extracted from the collected mask 10 is input into an analysis device and analyzed by real-time RT-PCR to determine whether it is the targeted RNA (step S104). As the analysis result, the analysis system 80 generates nucleic acid information from the amount of RNA detected from the mask 10 and transmits this nucleic acid information to the system 20 (step S104).

The system 20 generates exposure history information for the target RNA virus from the nucleic acid information and the pathway information (step S106). The system 20 also generates exposure risk information based on this exposure history information (step S106). Specifically, the system 20 references a virus quantity reference value table for determining the exposure risk of the target RNA virus stored in the memory of the system 20 to determine the level of exposure risk and generates the exposure risk information. Furthermore, the system 20 generates a scatter plot as virus distribution information based on this exposure history information (step S106). The system 20 transmits this information to the mobile terminal 40, and transmits it to the external device 500 in response to an input request from the external device 500 (step S106).

By providing such information to the subject's mobile terminal 40, the subject can recognize the association between his or her own exposure risk, the amount of virus, and the route. In some cases, the subject can also recognize routes, groups, or routes that should be avoided. In addition, the subject can recognize the exposure risk in groups along the route. Providing this information to the external device 500 has similar advantages.

Meanwhile, the analysis system 60 requests the data server 200 to input information on individuals who are positive for the RNA virus in a timely manner, and acquires the information on individuals who are positive (step S108). The analysis system 60 compares this information on individuals with information on users of the contact management app held by the analysis system 60, and when it is determined that the contact management app user is a positive individual, it compares the route information of this positive individual with the entire route information of the subject acquired from the mobile terminal 40 to determine whether or not there is a contact history (step S110). When it is determined that there is a contact history between the subject and a positive individual, it transmits contact history information with the RNA virus to the mobile terminal 40 (step S110).

When the mobile terminal 40 acquires the contact history information from the analysis system 60 using the contact management app, it notifies the subject of the information and transmits it to the system 20 (step S112). Although the contact history information is generally found later than the collection behavior, by the system 20 acquiring the contact history information, it becomes possible to identify high-risk routes for the target RNA virus.

The system 20, which has acquired the contact history information, generates specific exposure risk information that identifies the route after the contact history from the contact history information and already acquired route information of the subject's collection behavior (step S114). The system 20 transmits the specific exposure risk information to the mobile terminal 40 and the external device 500 (step S114). As described above, the specific exposure risk information identifies routes with a high risk of virus infection, and therefore can identify groups on the routes. Providing such specific exposure risk information to the subject and the external device 500 is useful for understanding the virus exposure and infection risk in the subject and the group to which the subject belongs, and is useful for avoiding exposure and infection.

According to the above process, useful nucleic acid information and even route information can be obtained from the virus particle capture behavior of the subject, who is a moving object, using the mask 10. This can contribute to understanding and avoiding the risk of virus exposure and infection in the subject and the group to which the subject belongs. Furthermore, by combining this information with interaction information, such as contact history information with positive individuals, it can contribute to understanding and avoiding the above risks.

Furthermore, according to the above process, by using a universal medical device such as a mask that is commonly worn externally on the body as a collection device, it is possible to analyze the location and movement of nucleic acid particles such as viruses on an individual, small-scale, localized, or macro scale.

Prior to the process shown in FIG. 2, the process shown in FIG. 3 is carried out. As shown in the upper part of FIG. 3, in order to implement this system 20, the provider or administrator of the system 20 sells the mask 10 as a mask with an exposure history information analysis and diagnosis service. When the subject purchases this mask, the provider assigns to the mask 10 a code that includes identification information that identifies the subject, obtained from the subject at the time of the purchase application, and the ID of the mask 10.

A subject who purchases a mask 10 installs a collection app on their mobile device 40 that is capable of GPS positioning, reads the code attached to the mask 10, and then wears the mask 10 to collect virus particles for a certain period of time. When the collection action for the certain period ends, the collection app notifies the end of the collection action and transmits the acquired route information to the system 20.

The subject places the mask 10 in a designated container and transports it by mail or other means of transportation to the location where the analysis system 80 is installed.

Meanwhile, as shown in the lower part of Figure 3, the donor etc. shreds the virus particle collection portion of the mask 10 collected from the subject, collects nucleic acid particles from the shreds, extracts the nucleic acid, and purifies or concentrates it as necessary to prepare a specified sample liquid. This sample liquid is supplied to an analytical device such as a PCR device or sequencer.

When isolating and collecting nucleic acid particles from the collected mask 10, it is preferable to handle the mask in a state where the activity of viruses, etc. is reduced. For example, it is known that the activity of viruses is rapidly reduced by leaving the mask 10 in the air at room temperature, as a method of virus inactivation. For example, leaving it for 24 hours sufficiently reduces the possibility of infection. Therefore, since it generally takes more than a day for the mask 10 to arrive at the donor after being sent by the subject, it is also possible to inactivate viruses by utilizing this transportation time.

As described above, system 20 can also be implemented as a system that provides an analysis and diagnosis of exposure history information. More specifically, it can also be implemented as a system that provides infection risk information regarding the risk of infection with pathogens such as viruses. With such a system, each individual can recognize their exposure history and risk to viruses from their own behavioral history, and can avoid exposure and infection risks.

In addition, system 20 can also be implemented as a system that provides information about nucleic acid particles in the environment, from the viewpoint of generating nucleic acid information about nucleic acid particles based on the collection behavior.

In the above process, virus particles are targeted, but the present invention is not limited to this. As already explained, nucleic acid particles may be targeted to the entire nucleic acid, or to other microorganisms or genes themselves that are useful for identifying biological species.

In the above process, the mask 10 is used as the collection device, but this is not limited to this. As already explained, various types of collection devices can be used, and it is also useful to use a collection device attached to the sole of a shoe to target the ground surface such as a road surface or floor surface.

In the above process, the moving object is the subject (human), but this is not limited to this. For example, wild animals or livestock can be used as moving objects to perform virus collection actions. This is useful because it allows obtaining information about virus exposure in natural environments, farms, etc., for example. The moving object may also be an artificial object. When considering dangerous locations or the risk to animals such as humans, moving objects such as robots or vehicles that can move along routes set by remote control or program can be used as appropriate.

In the above process, the system 20 intended for infection etc. has been described, but the system is not limited to systems intended for infection or medical treatment etc. It can also be implemented as a system that generates nucleic acid information for environmental surveys or animal surveys. Furthermore, it can also be implemented as a system that generates exposure history information to nucleic acid particles and distribution information of nucleic acid particles, and provides information on the environment and the environment based on this information.

In the above process, nucleic acid information is generated from a single collection action of one subject, but the present invention is not limited to this. By obtaining exposure history information for one or multiple groups from nucleic acid information and route information from collection actions of multiple mobile objects belonging to the same or different groups, it is possible to generate more useful and accurate exposure risk information, etc. In particular, by comparing the exposure history information, exposure risk information, and nucleic acid particle distribution information between these groups, it is possible to understand the propagation tendency of nucleic acid particles.

Furthermore, even for a single subject, multiple collection actions (using multiple collection devices) can generate similarly more useful and accurate exposure risk information, etc. Multiple collection actions by multiple subjects can generate even more useful and accurate exposure risk information, etc.

In the above process, the length or range of a single collection action is not specifically defined, but it can be, for example, several hours to several days. For a long collection action period, it is preferable to use multiple collection devices in sequence. The collection action range can be unrestricted within the scope of daily life, or can be set according to the purpose. For example, it can be limited to the route to work or school. It can also be limited to homes, schools, workplaces, hospitals, etc. It can also be limited to restaurants or specific facilities.

In the above process, the specific exposure risk information is generated based on contact history information indicating that the subject has a history of contact with a positive individual, but this is not limited to this. The specific exposure risk information may also be generated based on information that the subject himself is a positive individual (nucleic acid particle possession information). Such possession information may be generated by the analysis system 60 or by the analysis system 80 based on the analysis results of the mask 10. When generating specific exposure risk information based on possession information, the specific exposure risk information can be generated by identifying the route of infection after the estimated date of infection or the date of virus emergence based on information such as the onset date.

In the above process, the generation of nucleic acid information and the generation of exposure history information, etc., are both described as parts of the system, but this is not limiting. For example, each process executed by a processor can also be implemented as a method. That is, it can be implemented as a method including a step of generating the above-mentioned nucleic acid information, a method including a step of acquiring route information, and a method including a step of generating exposure history information, exposure risk information, etc.

Specific examples are described below to more specifically explain the disclosure of this specification. The following examples are intended to explain the disclosure of this specification, but are not intended to limit the scope thereof.

Evaluation of inoculation and infection activity of the virus on the mask: 10 ul of virus solution (T7 bacteriophage in this analysis) was dropped onto a mask (a commercially available three-layer nonwoven mask in this study) cut into a 1 cm x 1 cm square, and allowed to penetrate into the mask, after which it was left to stand for a specified time (maximum 24 hours). After dropping the virus, the mask was transferred to a 1.5 ml sample tube and incubated with 1 ml of E. coli solution (cells in the logarithmic growth phase were used) for 10 minutes. During incubation, the E. coli solution and the mask were carefully mixed by inverting the tube up and down every 2 minutes. The E. coli used was the BLT5403 strain. The bacterial culture solution obtained by mixing the virus-inoculated mask and E. coli solution was diluted to about 10 ⁴ to 10 ⁶ , and the diluted solution was mixed with liquid LB medium containing 1% agar and spread on a sterilized plate. The mask was cultured at 25°C for 18 hours, the number of halos generated by infection was counted, and the amount of infectious virus was quantified. The results are shown in Figure 4(a). As shown in Figure 4(a), the amount of infectious virus continued to decrease over time up to 24 hours after inoculation, and after 24 hours, the amount of infectious virus had decreased to 1/10,000 compared to immediately after inoculation.

Quantitative detection of virus on masks In addition, to confirm the amount of measurable virus-derived DNA on the mask, the mask inoculated with the virus was washed with 1 ml of PBS, and the partial sequence of the phage genome DNA was analyzed by real-time PCR. 1 ul of the PBS used to wash the mask was subjected to real-time PCR. Real-time PCR analysis was performed using Power SYBR Green PCR master mix (Life Technologies). The real-time PCR analysis was performed according to the procedure instructed by the manufacturer. As an internal standard, bacteriophage (dilution series ( ^108, 106 ^, 104 ^{, 102} )) that was not inoculated on the mask was measured. The detection primers for phage virus DNA are shown below. The measurement results are shown in Figure 4(b). As shown in Figure 4(b), no significant quantitative change was observed in the phage-derived DNA over the course of 24 hours.
Detection primer a: AACCCCTCAAGACCCGTTTA (SEQ ID NO: 1)
Detection primer b: GGAGCTGTCGTATTCCAGTC (SEQ ID NO: 2)

In addition, when the initial concentration of phage inoculated on the mask was changed from 10 ⁸ PFU to 10 ² PFU, and the change in the amount of DNA on the mask was analyzed, the same amount of DNA was detected even at low concentrations without any change from the initial amount. Although the virus activity decreases on the mask, it was found that the nucleic acid information that characterizes the virus can be quantified without any significant change during the period of wearing the mask.

10: Mask 20: System for providing exposure history information to nucleic acid particles 40: Mobile terminal 60: Interaction analysis system 80: Nucleic acid analysis system 100: Network 200: Infectious disease data server 500: External device

SEQ ID NO: 1-2: Primers

Claims (14)

1. A system for providing information regarding a history of exposure to nucleic acid particles, comprising:
At least one processor;
The at least one processor:
generating nucleic acid information including information regarding the identification and/or amount of the nucleic acid particles collected by a collection device attached to at least a portion of the surface of the mobile body and configured to collect the nucleic acid particles containing nucleic acid present in the environment;
generating exposure history information regarding an exposure history of the mobile object to the nucleic acid particles based on the nucleic acid information;
the nucleic acid particle is derived from a virus or a microorganism,
The collection device is capable of collecting nucleic acids derived from the mobile object,
The at least one processor generates mobile object nucleic acid information relating to the identity of nucleic acid derived from the mobile object. The system of claim 1, wherein the nucleic acid information includes information regarding the pathogenicity of the nucleic acid particle. The system according to claim 1 or 2, wherein the at least one processor generates the exposure history information of the mobile object based on multiple pieces of nucleic acid information obtained at different times for the same mobile object. The system according to any one of claims 1 to 3, wherein the at least one processor acquires route information relating to the movement route and movement time of the collection device, and generates the exposure history information of the moving object based on the nucleic acid information and the route information. The system of claim 4, wherein the at least one processor generates exposure risk information for the nucleic acid particles based on the exposure history information. The system according to claim 4 or 5, wherein the at least one processor generates nucleic acid particle distribution information regarding the distribution of the nucleic acid particles based on the nucleic acid information and the pathway information. The system according to claim 4 or 5, wherein the at least one processor generates exposure history information of the population to the nucleic acid particles based on the nucleic acid information and the route information for the plurality of mobile objects belonging to the population. The system of claim 7, wherein the at least one processor generates exposure risk information regarding the population's risk of exposure to the nucleic acid particles based on exposure history information of the population. The system according to claim 7 or 8, wherein the at least one processor generates nucleic acid particle distribution information regarding the distribution of the nucleic acid particles in the population for a plurality of the mobile objects belonging to the population based on the nucleic acid information and the path information. The system according to any one of claims 1 to 9, wherein when the at least one processor acquires contact history information relating to the mobile object having a contact history with a specific nucleic acid particle carrier, the processor generates specific exposure risk information relating to the risk of exposure to the specific nucleic acid particle based on the contact history information and route information relating to the movement route and movement time of the collection device. The system according to any one of claims 1 to 9, wherein, when the at least one processor acquires possession information relating to the mobile object being a specific nucleic acid particle carrier, the processor generates specific exposure risk information relating to the exposure risk of the specific nucleic acid particle of the population to which the mobile object belongs, based on the possession information and route information relating to the movement route and movement time of the collection device. The system according to any one of claims 1 to 11 , wherein the exposure history information is provided to an external device or a terminal possessed by the mobile object. 1. A system for providing information regarding a history of exposure to nucleic acid particles, comprising:
At least one processor;
The at least one processor:
generating nucleic acid information including information regarding the identification and/or amount of the nucleic acid particles collected by a collection device attached to at least a portion of the surface of the mobile body and configured to collect the nucleic acid particles containing nucleic acid present in the environment;
generating exposure history information regarding an exposure history of the mobile object to the nucleic acid particles based on the nucleic acid information;
the nucleic acid particle is derived from a virus or a microorganism,
The system, when the at least one processor acquires contact history information regarding the mobile object being a carrier of contact history with a specific nucleic acid particle carrier, generates specific exposure risk information regarding the risk of exposure to the specific nucleic acid particle based on the contact history information and route information regarding the movement path and movement time of the collection device . 1. A system for providing information regarding a history of exposure to nucleic acid particles, comprising:
At least one processor;
The at least one processor:
generating nucleic acid information including information regarding the identification and/or amount of the nucleic acid particles collected by a collection device attached to at least a portion of the surface of the mobile body and configured to collect the nucleic acid particles containing nucleic acids present in the environment;
generating exposure history information regarding an exposure history of the mobile object to the nucleic acid particles based on the nucleic acid information;
the nucleic acid particle is derived from a virus or a microorganism,
The system, when the at least one processor acquires possession information regarding the mobile object being a carrier of a specific nucleic acid particle, generates specific exposure risk information regarding the exposure risk of the population to which the mobile object belongs to the specific nucleic acid particle based on the possession information and route information regarding the movement path and movement time of the collection device.