RU2361913C2 - Device for biological studies - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: invention relates to quality evaluation of products of animate and inanimate nature, namely to biological quality evaluation of food products for a man, animal feeding staff, food supplements and other substances contacting human organism, natural and waste water, fisheries water, soil and ground. Besides, invention can be used to evaluate degree of different illness severity of a man and animals. Device for evaluation of products of animate and inanimate nature consists of biodetector contained in dust- and drip-proof housing and computer with installed controlling software. Biodector contains board with two rows of holes for placement of materials under examination and test objects, table with possibility of step-by-step motion; video system interfaced with computer for transfer of images of holes for materials under examination and test objects to monitor and RAM and consecutive calculation of toxicity degree for material under examination; lighting installation with two highlight bars. Video system includes two small-size uncased video cameras with microscope objectives having variable focal distance; step-by-step motion node of the table includes microcontroller connected with step motor and computer serial port. Device is also equipped with three-colour status indicator of biodetector. Quality evaluation of different objects and severity degree of illnesses is carried out based on comparison of multiple calculations of animated test objects in samples within set period of time by means of special computer program. Device allows simultaneous evaluating of large number of different objects and identifying time history of test objects number in one experiment.

EFFECT: device is simple and reliable to operate; it does not require start-up operations and high qualification of an operator.

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Description

The invention relates to the field of assessing the quality of products of animate and inanimate nature, for example, human food, animal feed, food additives and other substances in contact with the human body, natural and waste waters, waters of fishery reservoirs, soils and soils, and can also be applied in the field of medicine in determining the severity of various diseases of humans and animals.

Currently known devices for assessing the quality of products of animate and inanimate nature, described in several sources. In patent RU No. 2122025 authors Ivanov A.S., Ivanova E.G. "A device for assessing the quality of products of animate and inanimate nature" presents a device consisting of a biodetector and a computer. The principle of operation of this device is based on the calculation of live test objects, such as ciliates, by entering an image into a computer and then processing it programmatically. The score is calculated on the basis of 2 measurements of the number of living cells - at the beginning of the experiment and at the end of it. In the biodetector, the movement of the tablet with the capacities in which the test objects are located is carried out due to control signals generated by the computer processor and converted by the shaper amplifiers.

In the candidate dissertation, Zakharova I.S. “Method and apparatus for measuring the concentration of ciliates in medical and environmental studies” St. Petersburg, 1996, a method for assessing the quality of various objects based on measuring the concentration of living cells by the photometric method is described. The device that implements this method is a pulse photometer, which allows you to determine the degree of toxicity of natural and wastewater, bottom sediments by chemotactic reaction of ciliates. The measured value is the concentration of test objects in the cell when adding the test sample. The cuvette is a three-layer “sandwich”, in the lower part of which there are ciliates in the water, then polyvinyl alcohol, as a separator of aqueous phases, and the test sample on top. In the case of harmlessness, the ciliates samples move upward after a certain period of time. Regulated discrepancies in repeated measurements of the same sample are 40%.

A device is known that is described in the guidelines MU 1.1.037-95, developed by the Moscow City Center of the State Committee for Sanitary and Epidemiological Surveillance of Russia (Zavyalov N.V.). All-Russian Scientific Research and Testing Institute of Medical Technology of the Ministry of Health and Medical Industry of Russia (Lappo V.G., Eskov A.P.), Joint-Stock Company BMK-INVEST (Kayumov R.I.) and presented in the methodical manual “Alternative research methods (express methods) for toxicological and hygienic assessment of materials, products and environmental objects ”of the Federal Center for State Sanitary and Epidemiological Supervision of the Ministry of Health of Russia. This device using cattle sperm also uses photometric recording of the degree of motility of living cells. The method and device are based on the study of changes in the dependence of sperm motility on time under the influence of toxic substances contained in the test sample. Frozen bovine semen granules are stored in liquid nitrogen. Using a photometric device mounted in a computer, the degree of gamete mobility is analyzed.

The presented patent RU No. 2122025 describes a device equipped with one channel for collecting information about the presence of living cells and having significant dimensions that preclude its use in the mobile version. The implementation of the control of the movement of the tablet in the described device does not allow to effectively use the computing capabilities of the computer processor, while moving the tablet, the processor is idle. In addition, the assessment made on the basis of double counting does not give a detailed picture of the dynamics of changes in the number of living cells in samples of the studied objects, which significantly reduces the informational significance of such a study.

In the dissertation of Zakharov I.S. A pulsed photometer allows you to evaluate the quality of the studied object by changing the concentration of living cells, while the reliability of the measurements is 60%.

The device is based on Zavyalova N.V., Lappo V.G., Eskova A.P., Kayumova R.I. also lies the photometric method. In this device, as live cells - test objects, cattle sperm is used, which requires special storage in liquid nitrogen, which complicates widespread practical use.

In all the described devices, it is not possible to evaluate simultaneously an array of samples, consisting, for example, of 40 samples of various objects, and to determine the dynamics of changes in the number of test objects during the experiment. In addition, existing instruments can only be used in stationary conditions of analytical laboratories, the test samples are evaluated only on one type of test object, and in some cases the measurements require a large number of repetitions.

The proposed device for biological research can overcome these disadvantages. For this purpose, a device consisting of a computer with a control program and a biodetector is enclosed in a dust and moisture protection housing and is equipped with:

- two converters of the optical image into analog video signals, which are two small-sized, frameless cameras with micro-lenses with a variable focal length;

- a node for moving the tablet with two rows of holes into which the test samples and test objects are introduced;

- two LED lighting devices;

- optoelectronic unit to install the tablet in the initial position;

- a microcontroller that performs all the functions of controlling a biodetector;

- a three-color indicator of the state of the biodetector;

- a special program that allows repeatedly counting test objects during the experiment.

The drawing shows a block diagram of a device for biological research. The device consists of a biodetector 1 and a computer 2. A biodetector consists of a power supply 3 with a toggle switch 4, a microcontroller 5, a three-color indicator 6, which has green, yellow, and red light segments; a movement unit 7, which includes a stepper motor 8, a tablet table 9, and an optoelectronic assembly for installing the tablet table in the initial position 10; the first row of holes 11 and the second row of holes 12, combined into a tablet 13; the first backlight assembly 14; the second node backlight 15; a first lens 16 and a first video camera 17 constituting the first video system 18; the second lens 19 and the second video camera 20 constituting the second video system 21.

The computer includes a video grabber 22, a permanent memory block 23, which is a hard disk with a device control program, RAM 24, video adapter 25, monitor 26, processor 27, serial port 28.

The operation of the device for biological research begins with the preparatory phase, during which they include a computer 2 and a toggle switch 4, which supplies 220V power to the power supply 3 of the biodetector 1. The power source provides the inclusion of the first illumination unit 14, the second illumination unit 15 and the power supply to the unit movement 7 and the microcontroller 5. On the tablet table 9 set the tablet 13 with the introduced test objects and samples of the studied objects in the wells of the first row 11 and second row 12.

The main stage of work begins with the inclusion of the instrument control program located in the read-only memory 23 of computer 2. At the same time, the program is loaded into RAM 24. The processor 27, in accordance with the instructions of the program, generates a command that transmits via serial port 28 to microcontroller 5 of biodetector 1. Based on this command, the microcontroller 3 using the stepper motor 8 sets the tablet table 9 with the tablet 13 to its initial position and turns on the power of the first camera 17, and also turns on the green segment on the display 6.

During normal operation of the biodetector, the green and yellow light segments are turned on on the indicator, in the case of emergency operation, red.

The optical signal from the hole with the test objects of the first row 11 of the tablet 13 through the first lens 16 goes to the first video camera 17 of the first video system 18 when illuminated by the backlight 14. It converts the optical signal into an electrical analog and transfers it to the video grabber 22 of computer 2. At the same time, the power the second camcorder 20 is disabled. After a certain time interval, the microcontroller 5, under the control of the corresponding command of the computer 2, switches the power of the video cameras 17, 20, the optical signal from the hole with test objects of the second row 12 through the second lens 19 is fed to the second video camera 20 of the second video system 21, which converts it into an electrical analog signal and transmits to a video grabber 22. Thus, two images from the hole of the inner row 11 and the hole of the outer row 12 are sequentially transmitted to the computer 2. These images are also sequentially received from the video grabber 22 to the video adapter 25, then to the monitor 26 and to the RAM block 24, where it is processed by the processor 27 in accordance with the instructions of the program.

The device for biological research, combining biological methods of determining quality and computer analysis, allows you to quickly and reliably determine the degree of toxicity of the studied samples. Unlike others of this type, the device is made in a compact dust and splash-proof housing, which allows its use in both laboratory and field conditions. Dimensions of a cylindrical body 210 × 200 mm.

The device is characterized by high performance, while up to 40 different samples can be examined at the same time.

Video camera lenses have a variable focal length, due to which it is possible to use different test objects in one cycle of studies, for example, ciliates and daphnia or ciliates of two different types, which increases the information content and reliability of biological tests, and also significantly expands the scope of the device. The program algorithm provides for multiple counting of test objects during the experiment, which also increases the reliability of biological research. In this case, the discrepancy between repeated measurements is not more than 10%.

Decentralization of control over the operation of the device due to the use of a microcontroller in the biodetector makes it possible to effectively use the processor time of the computer. The microcontroller provides the generation of signals to ensure the movement of the tablet and switching the power of the cameras, and also monitors the progress of the biodetector for the diagnosis of emergency situations. Computer processor commands only include control routines in the microcontroller. In this case, the released processor time is used for more complex mathematical processing of the image of wells with test objects. This increases the accuracy of the calculation of test objects and, accordingly, the reliability of research.

A three-color indicator mounted on the instrument’s body allows the operator to instantly evaluate the progress of work and make decisions to stop the study in case of a situation that does not correspond to the normal mode of operation. Simple and reliable in operation, the device does not need commissioning and does not require highly qualified operator.

Information sources

1. Patent RU No. 2122025, cl. C12M 1/34, 1/36; С12Q 1/02, 1/00, G01N 35/02, 35/04, 33/00, 33/02, 33/48 “Device for assessing the quality of products of animate and inanimate nature”, authors Ivanov AS, Ivanova E .G.

2. Zakharov I.S. Method and apparatus for measuring the concentration of ciliates in medical and environmental studies Diss. for a job. Cand. tech. Sciences, St. Petersburg, 1996.

3. Biotesting of products from polymer and other materials. Guidelines MU 1.1.037-95. Developed by the Moscow City Center of the State Committee for Sanitary and Epidemiological Surveillance of Russia (N. Zavyalov), the All-Russian Research and Testing Institute of Medical Technology of the Ministry of Health and Medical Industry of Russia (Lappo V.G., Eskov A.P.), Joint Stock Company "BMK-INVEST" (Kayumov RI) and presented in the methodological manual "Alternative research methods (express methods) for toxicological and hygienic assessment of materials, products and environmental objects" Fed Special Center of Sanitary Inspection of the Ministry of Health of Russia.

Claims (1)

A device for biological research of objects of animate and inanimate nature, including a computer, a biodetector, which includes a moving unit, a tablet with two rows of holes for entering the studied objects and test objects, a table for placing the tablet, mounted with the possibility of stepwise movement, a video system connected with a computer for transferring to the monitor and in the computer's random access memory computer images of the wells with the test object and test objects for programmatic calculation of test objects and calculation of toxicity of the object being tracked, and a lighting device, characterized in that the video system includes two small-sized open-frame cameras with micro-lenses with a variable focal length, the lighting device consists of two backlights, the step unit for moving the tablet table includes a microcontroller connected to a stepper motor and a serial port of the computer, This device is equipped with a three-color biodetector status indicator.