EA014803B1 - Method for controlling a room's interior based on individual hypersensitivity of people being in it for a long time - Google Patents

Abstract

The proposed method relates to a field of hygiene, in particular to the ecology of residential and public premises. The object - an examination of the allergic risk of a room, taking into account detecting individual hypersensitivity of people being in the examined room for a long time. The method is in detecting allergic factors in the room, following blood serum analysis of the people being in the examined room for a long time to detect the individual hypersensitivity to the detected allergic factors and assessing the impact of the detected allergic factors on the development of conditions of the hypersensitivity to them.

Description

The proposed method relates to the field of hygiene, and more specifically to the ecology of residential and public buildings.

There is a method of monitoring the premises, including the identification of biological environmental pollutants by visual inspection of the room to detect leaks, visible growth of molds, the presence of cockroaches, feather pillows, carpets, pets to assess the sanitary and hygienic condition of the room with respect to standards, air sampling by aspiration in the center of the room the level of the breathing zone and the subsequent assessment of the room (see Yu.D. Gubernsky, VA Leshchikov and Yu.A. Rakhmanin. Environmental fundamentals of residential construction and public buildings. - M., RAMS GU Research Institute of ECh and State University named after A.N.Sysin, 2004, p. 131-136).

The known method is effective, however, it does not take into account the individual characteristics of individuals who have been in the study room for a long time.

The technical task of the proposed method is the examination of the allergic hazard of the premises, taking into account the definition of individual hypersensitivity of persons who have been in the study room for a long time.

The technical result is achieved by the fact that in the method of controlling the premises on the basis of the individual hypersensitivity of the persons who have been in it for a long time, including the identification of biological pollutants of the environment by visual inspection of the premises to detect leaks, visible growth of molds, the presence of cockroaches, feather pillows, carpets, pets to assess the sanitary-hygienic condition of the room with respect to standards, air sampling by aspiration in the center of the room at the level of the smoke Khania and the subsequent assessment of the premises, after the identification of biological environmental pollutants, a clinical allergological examination of persons with simultaneous blood sampling is carried out, followed by serum for laboratory tests to determine the allergic 1de antibodies to the identified environmental pollutants; according to the data obtained, an analysis is made of the relationship between the identified biological pollutants and the presence of individual hypersensitivity to them by persons in the room. Based on the results obtained, the effect of the identified biological environmental pollutants on the development of hypersensitivity states is assessed with a view to the subsequent prevention of allergies and sanitary-hygienic measures in the test room to exclude their further effect on the human body.

The method is implemented as follows.

Initially, a room is inspected in order to detect biological pollutants of the environment on the basis of a visual inspection of the premises, as a result of which leaks are detected, visible growth of molds, the presence of cockroaches, feather pillows, carpets, pets for assessment of the sanitary and hygienic condition of the room by biological pollutants. After visual inspection, air samples are taken. Samples are taken in the center of the examined room at the level of the person’s breathing zone (1.5 m from the floor).

Air sampling is carried out by the aspiration method using a device for bacteriological analysis of air. The air speed should be 160 l / min. The amount of air passed through to determine the total number of fungi and bacteria is 100 liters. The probable total fungal and bacterial contamination of the indoor air environment is determined by the formula

C = SOOhR / f, where C is the concentration of particles in air, particles / m ³ ;

P is the probable number of particles in the sample taken;

O is the volume of the sample taken.

The sanitary and hygienic condition of the premises is estimated by the microbial number - the number of microorganisms in 1 m ^{3 of} air. Among the factors that pollute the air environment of enclosed spaces include mold fungi and bacteria, which are the etiological factor in the development of many allergic diseases. The number of microscopic fungi and bacteria in 1 m ³ is taken as an indicator of fungal and bacterial contamination as household allergens.

To determine the total content of microscopic fungi in 1 m ^{3 of} air, air samples are taken on a solid nutrient wort-agar medium, poured into Petri dishes of 12-15 ml. Cultivation of crops is carried out in a thermostat, where they are incubated for 4 days at a temperature of 26-28 ° C.

To determine the total bacterial content in 1 m ^{3 of} air, sampling is performed on meat peptone agar, poured into Petri dishes of 12-15 ml. Cultivation is carried out in a thermostat at a temperature of 37 ° C for 7 days.

The standard for bacterial contamination is the level of 1,500 CFU / m ³ in the summer and 4,500 CFU / m ³ in the winter, and 1,500 CFU / m ³ for the fungal. After the measures carried out, an analysis of the allergenic properties of house dust of the examined room is carried out. Thus, a sanitary-hygienic assessment of the premises is carried out.

- 1 014803

Persons are interviewed according to a specially developed allergological examination questionnaire, which contains questions that allow analyzing many aspects of the life of the examined persons: social, economic, industrial, housing, the presence of allergenic factors of biological origin in the room, hereditary pathology issues, identify possible causes of an allergic disease, collection is carried out allergoamnesis, skin tests are performed (if necessary).

After this, they begin to identify the specific hypersensitivity of persons in the study room for a long time. For this, blood sampling is carried out, followed by obtaining its serum. Blood serum is subjected to laboratory testing using a radio allergic sorbent test (PAC test), chemiluminescent analysis, enzyme-linked immunosorbent assay (ELISA) to determine specific 1de antibodies to identified biological environmental pollutants.

Based on the results obtained, the effect of the identified biological environmental pollutants on the development of hypersensitivity states is assessed with the aim of preventing allergies and subsequent sanitary-hygienic measures in the test room to exclude their further effect on the human body.

Thus, the proposed method is implemented in 3 stages.

1. Identification of allergic biological factors in the room.

2. A survey of individuals and a study of the blood serum of individuals in order to detect individual hypersensitivity to identified allergic factors.

3. Assessment of the impact of identified allergic risk factors on the development of hypersensitivity states to them.

The proposed method is illustrated by examples.

Example 1

Fedorov Maxim Maksimovich, born in 2003, residing at the address: Moscow region, Odintsovo, Mozhaiskoe sh., 100-101.

Based on the data of a questionnaire survey and collection of an allergy history, intolerance to contact with mushrooms in the form of symptoms of allergic rhinitis was revealed.

When examining the apartment revealed fungi of the genera ReshShsht, SapFba. AkregdShik in the air of a residential building in the amount of 8500 CFU / m ³ . The study of blood serum using ELISA showed the presence of specific 1de antibodies to allergens of the fungi of the genus ReshShsht (class 2), SapbSha (class 3), AkregdShik (class 2).

Based on the results of the studies, it can be concluded that there is hypersensitivity to the identified biological pollutants of the studied residential environment in the form of fungi ReshShsht, SapbSha, AkregdShik).

Example 2

Poletaeva Olga Vladimirovna, born in 1980, living at the address: Moscow Region, Odintsovo, Mozhayskoye sh., 27-75.

Based on the data of a questionnaire survey and collection of an allergy history, intolerance to contact with mushrooms and hamsters in the form of symptoms of atopic dermatitis was revealed.

During the inspection of the apartment, mushrooms of the genera Ayetapa, ReshshShsht, AkregdShik in the amount of 5460 CFU / m ^{3 were} found in the air of the living room. Hamsters also lived in the dwelling. The study of blood serum using ELISA showed the presence of specific 1de antibodies to ReshShsht (class 1), AIetapa (class 1), AkregdShik (class 2), to the hamster allergen (class 2).

Based on the results of the studies, it can be concluded that there is hypersensitivity to the identified biological pollutants of the studied living environment in the form of fungi (ReshShsht, ANetapa, AkregdShik), epidermal allergens (hamster epidermis).

Example 3

Mikhailova Victoria Stepanovna, born in 1990, residing at the address: Moscow region, Odintsovo, st. Zhukova, 54-37.

Based on the data of a questionnaire survey, collection of allergy history, intolerance to contact with mushrooms, a cat in the form of symptoms of bronchial asthma was revealed.

When examining the apartment, mushrooms of the genera Ayetapa, Reshshsht in the amount of 4000 CFU / m ³ , bacteria in the amount of 6200 CFU / m ^{3 were} found in the air of the apartment. Also in the living room was a cat. The study of blood serum using ELISA showed the presence of specific 1de for ReshShsht (class 2), Anetapa (class 1), for a cat allergen (class 2), for staphylococcus (class 2).

Based on the results of the studies, it can be concluded that there is hypersensitivity to the identified biological pollutants of the studied residential environment in the form of fungal (Anetapa, Reshsht), bacterial (staphylococcus), epidermal (cat epidermis) allergens.

The proposed method allows you to control almost any room for allergic risk of biological environmental factors on the basis of individual hypersensitivity to them of persons who have been in the study room for a long time.

Claims (1)

A way to control the premises on the basis of individual hypersensitivity of persons who have been in it for a long time, including the identification of biological environmental pollutants by visual inspection of the room to assess the sanitary and hygienic condition relative to the standards, air sampling by the aspiration method in the center of the room at the level of the breathing zone and subsequent assessment of the room by allergic hazard, characterized in that in it, after identifying biological environmental pollutants, carry out a clinical allergologic A medical examination of individuals with simultaneous blood sampling for laboratory testing, followed by obtaining serum for the determination of allergic 1de antibodies to identified environmental pollutants, according to the data obtained, an analysis is made of the relationship between the identified biological pollutants and the presence of individual hypersensitivity to them in the room.