JPH02159554A - Monitoring method of pathogen or allergen - Google Patents

Abstract

PURPOSE:To enable early detection of the presence or absence of a pathogen or an allergen in a building by a method wherein the kind and quantity of the pathogen or the allergen existing in a space are monitored constantly by a biosensor. CONSTITUTION:A biosensor 4 is provided in the vicinity of a suction port 2 for air-conditioning provided for each room 1, or a wall surface 3 which tends to gather mold. The kind and quantity of a living thing in the air are measured by the sensor 4 so as to monitor constantly the kind and quantity of a pathogen or an allergen existing in each room 1. In this case, the sensor 4 catches an object floating in the air together with dust or the like, and therefore no lowering of performance is brought about as in the case when it is set in the water. It is desirable that the surface of the sensor 4 is coated with a humidifying agent. According to this constitution, the presence or absence of the pathogen or the allergen in a building can be detected in an early stage.

Description

Detailed Description of the Invention "Field of Industrial Application" This invention is applicable to closed or semi-closed systems such as residences, underground spaces, underwater cities, space stations, space colonies, multi-story buildings, and biohazard facilities. This invention relates to a pathogen or allergen monitoring method for monitoring pathogens or allergens in buildings and structures.

``Conventional technology'' For example, flowers arranged in a vase may look beautiful, but in addition to pollen, there is a possibility that the flowers have a lot of allergens attached to them, such as mites and mold spores.

If such a vase is present in a room, the occupants of the room may suffer from allergies or other illnesses. Because the allergen that causes the allergy is invisible, the person experiencing the allergy symptoms may not know the cause. Well, in many residences,
Carpets, rugs, etc. are laid out, and depending on how they are used, they can be quite allergenic. In addition, various pathogens may enter the room by various means.

For this reason, it is considered necessary to provide a method for measuring the degree of contamination of the environment by using these items as a housing assessment.

By the way, in general, even when living in an open building, people suffer from allergies caused by insects such as dust mites, hay fever (allergies) caused by various types of pollen, and legionella bacteria (Legionella P., known as the pathogen of veterans' diseases).
Contamination of air conditioning cooling water by neuo+ophi4a) has become a problem, but 31! Indoors, since air (outside air) cannot be exchanged freely, the indoor air is circulated, and it is therefore quite possible that pathogens or allergens will be concentrated. For this reason, it is conceivable that a disease that would not become serious if living in an open building may turn into a serious disease if living in a closed building.
It is also possible that the pathogen infects a large number of healthy people.

In addition, the pressure inside closed buildings can easily cause stress, and even mild allergy symptoms, even if they are not serious illnesses, can lead to a decline in work efficiency and can last for a long time. Life is difficult. Furthermore, in such a closed building, if a respiratory infection suddenly occurs, there is a high possibility that it will be fatal.

``Problem to be solved by the invention'' However, there is currently no suitable method for monitoring pathogens or allergens present in buildings or structures. It is not possible to determine whether In addition, even if the inside of a building or structure is sterilized, it is impossible to determine how effective it actually is against pathogens or allergens that cause various diseases, so it is difficult to quickly respond and prevent the disease. was also difficult. Therefore, currently considered countermeasures include periodic or irregular spraying of fungicides, etc., but there are problems in efficiency and economy.

This invention was made in view of the above circumstances, and aims to maintain the health and reduce stress of residents or workers in buildings or structures, thereby preventing a decline in work efficiency and providing comfortable living. The purpose is to continue to maintain the living environment.

"Means for Solving the Problem" The pathogen or allergen monitoring method of the present invention involves installing a biosensor in each space or air conditioner, and detecting the type and amount of the pathogen or allergen present in the space using the biosensor. shall be constantly monitored.

Another method of monitoring pathogens or allergens according to the present invention is to collect dust and dirt caught in the filter of an air conditioner that air-conditions individual spaces, and measure the living organisms contained in the dust and dirt. The type and amount of pathogens or allergens present in the space must be constantly monitored.

"Example" Hereinafter, the method for monitoring pathogens or allergens of the present invention will be described in detail.

The method for monitoring pathogens or allergens of the present invention uses dust and dirt collected by a filter in an air conditioner installed indoors, or indoor dust and dirt collected by a vacuum cleaner or other special dust collector. to measure pathogens or allergens contained in
Alternatively, pathogens or allergens present in indoor air can be monitored by measuring pathogens or allergens contained in air conditioning cooling water. In addition, by installing biosensors on walls where mold and other things are likely to grow, we can constantly monitor pathogens and allergens such as mold, mites, pollen, and cockroaches, and check the increase or decrease in the number of pathogens at an early stage. Measures such as sterilization and cleaning may be taken promptly when necessary.

The method for identifying pathogens or allergens is AT
Methods by measuring P, immunological techniques, microscopic identification, or DNA probe methods are suitable.

This method of monitoring pathogens or allergens can quickly and quickly detect specific pathogens or allergens (from bacteria to mites, insects such as cockroaches, etc.).
In order to identify various types of dust, dirt, and cooling water for air conditioning in the building in order to identify mold (including mold and plants such as cedar pollen), measurements are taken of various types of dust, dirt, and cooling water for air conditioning in the building. Any object can be used as long as it can be done.

In addition, as a specific method for measuring pathogens or allergens, a method using an antigen-antibody reaction is considered, in which case an antibody against the pathogen or allergen is used. For example, if an immune/biosensor is used,
As a system, it is possible to implement Oi-Mesicon, but by sampling the specimen, using the Ophthalony method or E +
, X SΔ and other various methods are also possible. In addition, automation using biosensors using DNA probes or sample sampling.

After the hybridization, techniques such as colony hybridization, cedar hybridization, southern hybridization, northern hybridization, and PCR methods can also be applied.

Identification using a scanning single-child microscope or a phase contrast microscope is also possible. In addition, although it is not possible to monitor the life or death of living organisms using immunological methods, genetic methods, or observation using a microscope,
Measuring TP (e.g. luminescence measurements of ATP and luciferin-luciferase) allows for more accurate and broader monitoring.

Second, the first aspect of the present invention is not only to check for the presence of pathogens or allergens, but also to take appropriate measures (disinfection, disinfection, sterilization, etc.) and prevention (medical treatment),
The uneconomical, low efficiency and impact on the human body of performing post-treatment without monitoring or taking inappropriate measures without knowing the presence of pathogens or allergens.
(Disinfection and sterilization of living things in a closed system has a large impact on the human body (
(I want to keep it to a minimum due to
Moreover, it is highly specific).

In addition, the method for monitoring pathogens or allergens of the present invention can be used not only in closed or type-closed buildings, but also for the prevention and early detection of nosocomial infections in hospitals. It can be used in various facilities and facilities with a high degree of airtightness, such as nursing homes and child care facilities where elderly people with low resistance live, and schools.

Next, some specific methods to which the pathogen or allergen monitoring method of the present invention is applied will be explained with reference to FIGS. 1 to 6.

The method shown in Fig. 1 involves installing a biosensor 4 near an air conditioning inlet 2 provided in each room 1 or a wall surface 3 where mold is likely to grow, and using the biosensor 4 to collect air in the air. By setting the type and amount of living organisms in each room 1, the type and amount of pathogens or allergens present in each room 1 can be constantly monitored.In this case, the biosensor 4 However, since it captures objects (pathogens, allergens, etc.) floating in the air along with dust and dirt, there is no decrease in performance as would be the case when the biosensor is installed in water. It is desirable to coat the surface of No. 4 with a wetting agent.

The method shown in FIG. 2 is almost the same as the method shown in FIG. 4 is installed to centrally monitor the type and amount of pathogens or allergens present throughout the building using the biosensor 4.

The method shown in FIG. 3 collects the dust and dirt trapped in the filter 6 attached to the suction port 2 of each room 1 and measures it. The type and type of pathogens or allergens are constantly monitored and collected.In this case, dust and dirt may be collected manually from the J6 filter 6, but if necessary. If available, it is also possible to send it to the measuring instrument along with a suitable gas or liquid.

The method shown in FIG. 4 is almost similar to the method shown in FIG.
By collecting dust and dirt from the main filter 7 of the air conditioner body, where the conditioned air from the entire building is sent, we can remove pathogens and allergens present throughout the building. The type and m are centrally monitored.

In the method shown in FIG. 5, a biosensor 4 is installed immersed in cooling water 10 for air conditioning in a cooling tower 9 connected to an air conditioner 8 of each room 1, and the biosensor 4 is used to detect air conditioners in the air conditioner. The presence or absence of legionella, which tends to breed in the cooling water 10, is constantly monitored. In this way, by constantly monitoring the presence or absence of bacteria, Onella bacteria, etc. in the air conditioning cooling water IO, if the air conditioning cooling water IO leaks inside the air conditioner 8, it is possible to cause an outbreak of veterans' diseases, etc. We are trying to prevent this from happening.

Furthermore, in this method, the biosensor 4 may not be installed in the cooling tower 9, and the measurement may be performed by sampling the air conditioning cooling water IO.

In the method shown in FIG. 6, a filter 13 is attached to the suction port 12 of a vacuum cleaner exhaust duct 1-11 installed on the floor of each room I, and each room I is cleaned with a vacuum cleaner 14. When doing so, by connecting the trachea 15 of the vacuum cleaner 14 to the suction port 12, dust and dirt in the air sucked by the vacuum cleaner 14 is captured by the filter 13, and collected and measured. By doing so, the type and amount of pathogens or allergens present in each room 1 can be constantly monitored. Alternatively, as shown in FIG. 6, a special suction device 16 is installed at an appropriate position in each room 1, and living organisms in the air sucked by the suction device 16 are measured using a biosensor. Alternatively, the type and m of pathogens or allergens present in each room 1 may be monitored by capturing and measuring dust and dirt in the air sucked by the suction device 16 with a filter.

FIG. 7 shows an example of a closed biological body monitoring system using the pathogen or allergen monitoring method of the present invention.

``Experiment Example'' Four suitable locations were selected in an office building that was actually in use, and simple suction devices were installed at those locations.

Dust and dirt on the floor were collected using each simple suction device, and the presence and type of pathogens or allergens were confirmed using an ATP measuring device and a scanning electron microscope.

The results are shown in Table 1.

(The following is a margin) Table 1 However, the ATP measurements shown in the table were measured using an existing simple ΔTP measuring device. Furthermore, observation using a scanning microscope in the table refers to determining the type of organism based on the shape observed using a scanning microscope.

According to the ATP measurement results shown in this table, it is considered that live pathogens or allergens exist in the He~C block.

"Effects of the Invention J According to the method of monitoring diseased organisms or allergens of this invention, the presence or absence of pathogens or allergens in the building can be detected early, and this makes it possible to take appropriate measures at the appropriate time. is possible.For this reason,
If this method of monitoring pathogens or allergens is applied and installed in each room in a building, it will be possible to protect humans from pathogens or "r1 norgen" that are invisible in daily life, thereby allowing people to live or work in each room. It is possible to keep people's health in good condition at all times.

[Brief explanation of the drawing]

1 to 6 are diagrams showing the method for monitoring pathogens or allergens of the present invention, and FIGS. 1 and 2 are explanatory diagrams illustrating the method for measuring using a biosensor, and FIG. Figure 4 is an explanatory diagram for measuring dust and dirt captured by a filter, Figure 5 is an explanatory diagram for measuring pathogens in cooling water for air conditioning, and Figure 6 is for using a suction device. FIG. FIG. 7 is a flowchart 1 of a biological monitoring system to which the present invention is applied. In figure 4

Claims (2)

[Claims] (1) A method for monitoring pathogens or allergens, which comprises installing a biosensor in each space or air conditioner, and using the biosensor to constantly monitor the type and amount of pathogens or allergens present in the space. . (2) The types of pathogens or allergens present in the space can be determined by collecting dust and dirt trapped in the filters of the air conditioning equipment that air-conditions each space and measuring the living organisms contained in the dust and dirt. A method for monitoring pathogens or allergens, characterized by constantly monitoring the amount and amount of pathogens or allergens.