RU2692802C1 - Method of evaluating bactericidal effectiveness of disinfectants for air disinfection - Google Patents

Abstract

FIELD: disinfectology.SUBSTANCE: invention refers to disinfectology and concerns analysis and analysis of bactericidal effectiveness of disinfection means for air disinfection in rooms. Method for assessing bactericidal effectiveness of disinfectants for air disinfection involves preliminary test spraying of a suspension of test microorganisms in a test chamber to obtain microbial population of air, corresponding to required test conditions, exposure to air of the tested disinfectants, measuring current microbial population of air at definite intervals and determining the efficiency of decontamination as a value of degree of reduction of microbial population of air compared to initial air content of air. At that, as the initial population of air for each time interval, the air content measured in the test chamber under the same conditions and at the same time intervals, but without air exposure of the disinfectants, is taken.EFFECT: invention provides more reliable evaluation of bactericidal effectiveness of disinfection means for air disinfection by taking into account the degree of microbial contamination reduction over time as a result of natural deposition of microorganisms.1 cl, 1 ex

Description

The invention relates to the field of disinfectology relating to the study and analysis of the bactericidal effectiveness of disinfectants for disinfecting indoor air, in particular, such as disinfectants in aerosol form, ultraviolet irradiators.

A known method for evaluating the bactericidal efficiency of air disinfection means for disinfecting air, in which the value of the initial microbial contamination of air in the test chamber is measured, the suspension of test microorganisms is sprayed in the test chamber to obtain the microbial dissemination of air corresponding to the required test conditions, and the air in the test chamber is influenced by disinfectants tested, measure the current microbial contamination of air in the test chamber through op In this case, for each of these time intervals, the efficiency of air disinfection is determined as the magnitude of the degree of reduction of microbial contamination of air for these specific periods of time, using the calculated values of the initial microbial contamination of air and current microbial contamination of air (see Guidance P 3.5 .1904-04 "The use of ultraviolet bactericidal radiation for disinfecting indoor air", the introduction date of 2004, p. 9 Method Single evaluate the effectiveness of ultraviolet germicidal radiation for disinfecting air in the premises). The disadvantages of this method include the lack of reliability of the assessment, due to the fact that when this assessment, the single measured value of microbial contamination of air, which takes place in the test chamber before spraying the suspension, is used as the value of the initial microbial contamination of the air microorganisms. It does not take into account the degree of reduction of microbial contamination of air over time as a result of natural sedimentation (sedimentation) of test microorganisms under the influence of gravitational forces. The fact is that during the disinfection process itself, part of the test microorganisms settle to the bottom of the test chamber due to such natural precipitation, and not because of the direct impact of the disinfectant itself. Obviously, in the assessment, which is made by calculation, the use of the above-mentioned value of the initial microbial contamination of air leads to an overestimated value of such an assessment, which can lead to practical recommendations for conducting air disinfection towards softer (ineffective) modes of targeted use of the disinfectant under investigation.

The closest in technical essence to the present invention is a method for evaluating the bactericidal efficiency of disinfectants for air disinfection, in which the value of the initial microbial contamination of air in the test chamber is measured, the test microorganisms are sprayed in the test chamber until the microbial contamination of the air meets the required test conditions. on the air in the test chamber using tested disinfectants, measure the current microbial For each of these periods of time, the efficiency of air disinfection is determined as the magnitude of the reduction in microbial contamination of air for these specific periods of time using the calculated microbial contamination of air and current microbial dissemination as calculated values of air (see Guideline P 4.2.2643-10 “Methods of laboratory research and testing of disinfectants for evaluation of their efficacy and safety, "date of introduction 02.06.2010, p. 5.1.3.8 Study of the bactericidal efficacy DS intended for air decontamination). The disadvantages of this method as well as the method described above can be attributed to the lack of reliability of the assessment, due to the fact that as the value of the initial microbial contamination of air (concentration of test microorganisms in the air) is used once measured value of microbial contamination of air that takes place in the test chamber spraying the suspension of the test microorganisms. It does not take into account the degree of reduction of microbial contamination in the air over time as a result of natural sedimentation (sedimentation) of microorganisms under the influence of gravitational forces. As well as for the method described above, when evaluating, which is produced by calculation, using the above-mentioned value of the initial microbial contamination leads to an overestimated value of such an assessment, which can lead to practical recommendations for conducting air disinfection towards softer (inefficient) target use modes. disinfectant.

The proposed method is aimed at solving the problem and the achievement of the technical result, which consists in increasing the reliability of the evaluation of bactericidal efficacy of disinfectants for air disinfection through the use of estimated values of the initial microbial contamination of air, which take into account the reduction of microbial contamination in the air over time as a result of natural sedimentation of microorganisms under the influence of gravitational forces.

This technical result is achieved by the fact that in the method for evaluating the bactericidal efficacy of air disinfectants, which measure the value of the initial microbial contamination of air in the test chamber, the suspension of test microorganisms is sprayed in the test chamber to obtain microbial contamination of air corresponding to the required test conditions on the air in the test chamber using the tested disinfectants, measure the current microbial contamination the air in the test chamber at certain intervals and determine for each of these periods of time the efficiency of air disinfection as the value of the degree of reduction of microbial contamination of air for these specific periods of time using as the calculated values of the values of the initial microbial dissemination of air and current microbial dissemination of air , carry out preliminary test spraying of suspension of test microorganisms in the test chamber to the floor Microbial contamination of air corresponding to the required test conditions is measured through the same time intervals with microbial contamination of the current microbial contamination of air with microbial contamination without affecting the air in the test chamber, and taking them as the values of the initial microbial contamination of air at appropriate intervals when determining efficiency air disinfection.

The implementation of a pre-test spraying of a test microorganism suspension in a test chamber to obtain microbial contamination of air corresponding to the required test conditions, followed by measuring the same time with the expected measurements of the current microbial contamination of air without influencing the air in the test chamber, improves the accuracy evaluation of the bactericidal effectiveness of disinfectants due to the fact that Because of the value of the initial microbial contamination, not once measured microbial contamination is used, which takes place in the test chamber before spraying the suspension of test microorganisms, but its value, which is determined based on the results of preliminary test spraying of the suspension of test microorganisms without affecting the air in the test chamber. In the thus obtained values of the initial microbial colonization, the degree of reduction of microbial contamination in the air over time as a result of natural sedimentation (sedimentation) of microorganisms under the influence of gravitational forces is taken into account. Evaluation of bactericidal efficacy of disinfectants at certain time intervals is carried out by calculation using the above values of the initial microbial contamination, which allows to obtain a more reliable value of such an assessment, which takes into account only the effectiveness of disinfection from the effects of the disinfectant itself.

The proposed method for assessing the bactericidal effectiveness of disinfectants for air disinfection is as follows.

Used in the study of bactericidal efficacy of disinfectants for air disinfection, the test chamber is prepared for the studies themselves, for example, in accordance with the requirements of Guideline P 4.2.2643-10 Section 5.1.3.8, on the basis of which the type of test microorganism is also selected, as well as determination of air contamination (aspiration or sedimentation).

Then, in the test chamber, a preliminary test aerosol spraying of the suspension of test microorganisms is carried out in an amount sufficient to create microbial contamination in the chamber (concentration of test microorganisms in the air) in accordance with the test requirements (specified by the manufacturer of disinfectants).

Then, at certain time intervals (control points of exposure, set by the manufacturer of disinfectants) without affecting the air in the test chamber, the values of microbial contamination of air in the test chamber, which are used later in the evaluation of bactericidal efficacy as the initial microbial infection, are measured using the tested disinfectants .

After such preliminary test tests, aerosol spraying in the test chamber of the suspension of test microorganisms is carried out in an amount sufficient to create microbial contamination in the chamber that meets the test requirements, which should correspond to the microbial contamination value obtained in the preliminary test.

Then, the air in the test chamber is applied with the help of disinfectants under test (there may be disinfecting chemicals in aerosol form, UV irradiators), the current microbial contamination of air in the test chamber is measured at certain intervals similar to those indicated above for the preliminary test. For each of these time intervals, the efficiency of air disinfection (usually in%) is determined as the magnitude of the degree of reduction of microbial contamination for these specific periods of time using the calculated values of the initial microbial contamination and current microbial contamination.

Example.

Carry out a preliminary test spray in the test chamber of the suspension of test microorganisms to achieve microbial contamination (concentration of test microorganisms in the air) 3.0 × 10 ⁵ cells / m ³ . Measure microbial contamination in the test chamber after 10, 15 and 20 minutes without the use of disinfectants. The values of microbial colonization are 1.7 × 10 ⁵ cells / m ³ , 0.9 × 10 ⁵ cells / m ³ , 0.4 × 10 ⁵ cells / m ³ and are taken as the initial for the specified periods of time.

Then, spraying of test microorganisms in the test chamber is carried out before the microbial dissemination reaches 3.0 × 10 ⁵ cells / m ³ . They act on the air in the test chamber with ultraviolet irradiators. The values of microbial contamination in the test chamber are measured after 10, 15 and 20 minutes. The values of microbial contamination are 3.9 × 10 ³ cells / m ³ , 1.6 × 10 ³ cells / m ³ , 2.8 × 10 ² cells / m ³ . Thus, the reduction of microbial contamination of air for 20 minutes is, in accordance with the rule of proportion, - (280 × 100% / 0.4 × 10 ⁵ - 100%) = 99.3%, that is, 99.3% of microorganisms died due to ultraviolet irradiation, this is the bactericidal efficacy of the disinfectant (ultraviolet irradiator) for disinfecting air for 20 minutes of work in the test chamber (the room of the studied volume).

For the conditions of this example, if we take the microbial contamination of air immediately after spraying (as in the prototype), which is 3.0 × 10 ⁵ cells / m ³ , as the initial value of microbial contamination in the test chamber, while the current microbial contamination after 20 minutes of work ultraviolet irradiator, as before, is 2.8 × 10 ² cells / m ³ , the calculated reduction in air contamination is, in accordance with the rule of proportion, - (280 × 100% / 3.0 × 10 ⁵ - 100%) = 99 , 91%. If we take the exposure time longer, for example, 60, 120 or 180 min, then the difference in the evaluation of efficiency will be even more significant.

That is, the use of the known method gives overestimated values of the degree of reduction of microbial contamination of air, in relation to the actual values determined using the inventive method

The proposed method provides high accuracy assessment of bactericidal efficacy of disinfectants for air disinfection due to the use for the calculation to determine the estimated values of the original microbial contamination, which take into account the reduction of microbial contamination in the air over time as a result of natural sedimentation (sedimentation) of microorganisms under the influence of gravitational forces.

Claims (1)

A method for evaluating the bactericidal efficacy of air disinfectants for air disinfection, in which the value of the initial microbial contamination of air in the test chamber is measured, the suspension of test microorganisms in the test chamber is sprayed to obtain the microbial contamination of air corresponding to the required test conditions, are applied to the air in the test chamber using test disinfectants, measure the current microbial contamination of air in the test chamber through a certain For each of these time intervals, the time of air disinfection is determined as the magnitude of the degree of reduction of airborne microbial contamination for these specific time periods using the calculated values of the initial airborne microbial contamination and current airborne microbial contamination as calculated values. preliminary test spraying of a suspension of test microorganisms in a test chamber until microbial contamination is obtained air corresponding to the required test conditions was measured with the same measurement current putative microbial contamination of air intervals value microbial contamination without affecting the air in the test chamber and take them as values of initial microbial contamination in air at appropriate intervals in determining the effectiveness of air decontamination.