RU151101U1 - DEVICE FOR INCUBATION AND CONTROL OF BIOLOGICAL INDICATORS INTENDED FOR CONTROL OF AIR STERILIZATION - Google Patents

Abstract

1. A device for the incubation and control of biological indicators designed to control air sterilization, containing at least one cell for placing a biological indicator with a nutrient medium containing L-alanine, an LED for transmission of the cell, a photodiode for recording light transmitted through the cell, a signal converter from a photodiode, a microprocessor that analyzes the change in the optical density of the nutrient medium of a biological indicator, a means for displaying information, a temperature regulator for keeping the incubation temperature at the level of 45-50 ° C. 2. The device of claim 1, characterized in that the nutrient medium contains a pH indicator selected from the series: phenol red, bromothymol blue, bromocresol purple, changing their color during incubation during germination of spores of test microorganisms to yellow. 3. The device according to claim 2, characterized in that the LED has a red or green color. 4. The device according to claim 1, characterized in that the device for displaying information is made in the form of a display and / or in the form of at least one light bulb.

Description

The utility model relates to the field of microbiology, and can be used in medicine, pharmaceuticals, veterinary medicine and balneology during sterilization control by biological indicators (BI) of air sterilization.

When controlling sterilization, three methods are used - physical, chemical and biological. Biological control is based on the use of BI, which is a carrier with the most resistant to sterilizing agent spores of test microorganisms. The biological indicator is a ready-to-use inoculated carrier in primary packaging. The carrier is a retaining material on which test microorganisms are applied, and the primary packaging is a system that protects the inoculated carrier from damage and contamination, but does not prevent the penetration of sterilizing agents.

To obtain the results of monitoring the sterilization process, biological indicators, after testing, are activated by adding a nutrient medium containing acid-base indicators (pH indicators) to the test microorganisms. Then biological indicators are placed in an incubator under certain temperature conditions, depending on the test microorganism used. Typically, the temperature and time of incubation is from 55 to 60 ° C for at least 48 hours for thermophilic organisms and from 30 to 37 ° C for at least 48 hours for mesophilic organisms (GOST Ρ ISO 11138-1, MU15 / 6-5 of 02/28/1991 g.).

Under these conditions, for the specified time, a change in the color of the nutrient medium occurs (in the case of germination of microorganisms) due to a change in the color of the pH indicator of the medium. Control is carried out visually.

To maintain the temperature necessary for incubation, special devices are used - incubators. In addition to the function of maintaining a constant set temperature, some incubators are also equipped with devices that monitor the BI - they determine the presence of living test microorganisms in the BI, such devices are called incubator readers.

When using reader incubators, the time required to obtain BI incubation results is significantly reduced, which can significantly reduce the time between the end of the sterilization cycle and the use of sterilized products in clinical departments. This is especially true for biological control of air sterilization, because in Russia, 60% of the sterilizer fleet is air.

Known incubator-reader for monitoring steam sterilization and etilenokisdnoy (3M Attest ^{TM TM} Auto-reader), the principle of operation is based on the finding surviving after sterilization and spores germinated by incubation of test-microorganisms. The identification of the presence of live spores occurs due to the detection of enzymes secreted by growing microorganisms, namely, by recording the change (or occurrence) of BI fluorescence due to the destruction by enzymes of the fluorescent substrate complex added to the nutrient medium. This device cannot be used to control air sterilization, since the substrates used are not very resistant to the high temperatures used in air sterilization.

Also known is an incubator reader, which is a detection system, including: a light source of a certain wavelength to stimulate luminescence in a biological indicator containing a fluorescent dye or substrate; a filter for luminescence excitation, transmitting light only in the absorption region of the test substance and not transmitting light in the region in which the substance luminesces; a filter for luminescence, transmitting luminescence, but absorbing exciting light; a photodetector for detecting light of a specific wavelength corresponding to the wavelength of the substrate-indicator complex or fluorescent components of the indicator, an analyzer comparing the detected light with the reference, and also means for displaying quantitative and qualitative information (quantitative and qualitative indication) (US 5770393, 06.23.1998) .

The disadvantage of this device is the inability to use it to control air sterilization also due to the use of low temperature resistant substrates. Detection of the presence of live spores in this device also occurs due to the detection of enzymes secreted by growing microorganisms, namely, by recording the change (or occurrence) of BI fluorescence due to the destruction by enzymes of the fluorescent substrate complex added to the nutrient medium.

The technical result of the proposed utility model is to increase the efficiency and reduce the time of incubation and control of biological indicators designed to control air sterilization by conducting these processes in one device, at a certain temperature in a nutrient medium.

The specified technical result is achieved due to the fact that the device for incubation and control of biological indicators designed to control air sterilization contains at least one cell for placing the biological indicator in a nutrient medium containing L-alanine, an LED for translucent cells, a photodiode for registration of light transmitted through the cell, signal converter from the photodiode, microprocessor that analyzes the change in the optical density of the nutrient medium of the biological indicator, cf a means for displaying information, a temperature regulator to maintain the incubation temperature at a level of 45-50 ° C.

In addition, the nutrient medium contains a pH indicator selected from the series: phenol red, bromothymol blue, bromocresol purple, which change their color during incubation during germination of the spores of the test microorganisms to yellow.

In addition, the LED is red or green.

In addition, the device for displaying information is made in the form of a display and / or in the form of at least one light bulb.

Bacillus licheniformis, B. subtilis, B. atrophaeus are most often used as test microorganisms for air sterilization. It is believed that these types of test microorganisms are mesophiles and they are recommended to be incubated at temperatures from 30 to 37 ° C (GOST Ρ ISO 11138-1, MU15 / 6-5 from 02.28.1991).

When developing a utility model, the task was to create a device (incubator-reader) for incubation and control of BIs designed to control air sterilization, which allows receiving information on the presence of spores in BIs that have not lost their viability after sterilization (in case of sterilizer malfunctions) ), as well as the acceleration of germination of test microorganisms in BI by (due to) the selection of optimal conditions (incubation temperature and composition of the nutrient medium).

The device is illustrated in the drawing in FIG. one.

A device for incubating and monitoring biological indicators designed to control air sterilization comprises a cell 1 for placing a biological indicator 2 in a nutrient medium containing L-alanine, an LED 3 for transmission of the cell 1, a photodiode 4 for detecting the light transmitted through the cell 1, a signal converter 5 with a photodiode, microprocessor 6, analyzing the change in the optical density of the nutrient medium of a biological indicator according to a certain algorithm, means for displaying information, made, for example, in the form of a display 7, a temperature controller 8 to maintain the incubation temperature at 45-50 ° C, a power source 9.

The nutrient medium contains a pH indicator, which can be selected from the series: phenol red, bromothymol blue, bromocresol purple, which change color when the spores of the test microorganisms germinate during incubation to yellow.

With the germination of microorganisms during the incubation process, a change in the pH of the nutrient medium occurs, resulting in a change in the color of the pH indicator included in its composition. The initial color of the culture medium with phenol red is red, with bromothymol blue - green, with bromcresol purple - purple. With the germination of spores of test microorganisms, the pH of the indicator medium shifts to the acidic region, while its color turns yellow in all three cases.

Accordingly, LED 3 may have a red or green color depending on the pH indicator used.

The device operates as follows.

The nutrient indicator medium with phenol red in the initial state has a red color. When germination of test microorganisms in a nutrient medium, its color changes to yellow. Based on this, the translucent light of the LED 3 is selected green. Microprocessor 6 with an interval of one second registers the signal from photodiode 4 and monitors the growth of the derivative of the signal. If the derivative growth is stable for a certain time, then the microprocessor 6 displays on the display 7 the result of changes in the biological indicator 2. The working time and the state of the sample are displayed.

Indication can also be carried out by, for example, two bulbs of different colors placed on the device panel (for example, in the form of two red and green LEDs). At the beginning of the incubation (until there is a change in the optical density of the medium), the green LED is on, and when germinating it turns on red.

The detection of viable spores in BI is carried out by recording changes in the optical density of the indicator culture medium.

The device operates on AC 220 volts 50 Hz.

As a result of a study using BI for air sterilization, it was found that incubation of biotests to 45 ° C does not significantly increase the rate of biomass accumulation and, accordingly, does not reduce the time taken to obtain the final result of biological control in case of unsatisfactory sterilization. In the range of 45-50 ° C, there is a significant increase in speed and a reduction in the time for monitoring biological indicators designed to control air sterilization. At an incubation temperature of more than 50 ° C, the biomass accumulation rate begins to decrease, which indicates that an incubation temperature of 45-50 ° C is optimal.

Z-alanine-modified culture medium significantly reduces the germination time of microorganisms.

With the germination of spores that have not lost their viability after air sterilization (in case of malfunctions in the sterilizer), the optical density of the nutrient medium changes. The result is fixed using the proposed device at those growth stages when the change in optical density is not noticeable visually, which significantly reduces the time to obtain the final result of air sterilization control.

To reduce the time required for germination of microorganisms, a modified nutrient medium (MU15 / 6-5 from 02.28.1991 g) is used, for example, with phenol red, the modification of which consists in introducing the substance L-alanine into its composition. The incubation temperature of the test microorganisms is 45-50 ° C.

Thus, the set of essential features reflected in the formula of the utility model will allow the proposed device at a specified temperature and a specific composition of the nutrient medium to increase the efficiency of the processes (incubation and indicator control) and reduce the time required for incubation and biological control of the air sterilization process from 48 hours to 10-12 hours, that is, significantly reduce the time to obtain the final result of monitoring the air sterilization process.

Claims (4)

1. A device for the incubation and control of biological indicators designed to control air sterilization, containing at least one cell for placing a biological indicator with a nutrient medium containing L-alanine, an LED for transmission of the cell, a photodiode for recording light transmitted through the cell, a signal converter from a photodiode, a microprocessor that analyzes the change in the optical density of the nutrient medium of a biological indicator, a means for displaying information, a temperature regulator for keeping the incubation temperature at the level of 45-50 ° С. 2. The device of claim 1, characterized in that the nutrient medium contains a pH indicator selected from the series: phenol red, bromothymol blue, bromocresol purple, changing their color during incubation during germination of the spores of the test microorganisms to yellow. 3. The device according to claim 2, characterized in that the LED has a red or green color. 4. The device according to claim 1, characterized in that the device for displaying information is made in the form of a display and / or in the form of at least one light bulb.

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