RU32279U1 - Blood composition analyzer - Google Patents

Description

Blood composition analyzer

The utility model relates to the field of medical technology and can be used in clinical laboratory tests for medical diagnosis, and more specifically in blood smear analysis devices.

It is known, for example, a device for analyzing blood composition, containing an optical microscope equipped with a mechanized stage (on which a dry stained blood smear is placed) with movement mechanisms in its plane and a focusing mechanism made on the basis of stepper motors, connected in color to a television color optical microscope a camera, a stepper motor control unit and a system of functional blocks, including an analog-to-digital converter, a video encoding unit, time storage device, microcomputer, digital-to-analog converter, etc. {RU 2122733 C1, 1998). This device allows the classification of blood cells. However, it is difficult in design and inconvenient to operate, because it is not fully automated and contains a number of separate functional units that require independent settings, and does not provide a high degree of informational content of the cellular composition of the blood required by a hematologist.

IPC: G01N33 / 49

Of the known devices, the closest to the claimed one is a blood composition analysis device containing a biological optical microscope with a trinocular nozzle and an automated stage with scanning and focusing mechanisms based on stepper motors connected to the control unit, a color imaging device mounted on the trinocular nozzle and personal computer connected to it and to the control unit (Automated workstation of a hematologist at aze complex Mekos Ts-1. A / o Unimed, www.glasnet.ru, 2003). In it, the device for generating color images is made in the form of a color television camera equipped with an adapter, the personal computer is equipped with a frame input unit (frame grabber), and the control unit is made in the form of an independent unit separate from the personal computer. In this device, a prepared blood smear is placed on an automated stage of a biological optical microscope under its lens. A smear scan is carried out according to a given program by issuing commands from a personal computer. The microscopic image of the smear is recorded with a color television camera and is entered into a personal computer via a frame grabber, where the digitized image of the blood smear is processed. This provides automated viewing of a blood smear; analysis of the morphology of red blood cells; the full leukocyte formula is calculated; a gallery of cells is created for each type of white blood cell.

It is possible to correct the results of automatic analysis.

However, this known device still does not allow to obtain comprehensive information about the cellular composition of the blood, including does not allow to calculate the number of shaped blood cells per unit volume, and is not convenient enough to operate.

The problem solved by the utility model is to create a device for analyzing the composition of the blood, devoid of the disadvantages of the prototype. The technical result provided by the utility model is to expand the operational capabilities of the device.

This is achieved by the fact that in a device for analyzing blood composition containing a biological optical microscope with a trinocular nozzle and an automated stage with scanning and focusing mechanisms based on stepper motors connected to the control unit, a color imaging device mounted on the trinocular nozzle and connected to him and with the control unit a personal computer, a device for forming color images is made in the form of a digital video camera, connected digital with the interface card for digitizing and inputting images installed in the personal computer, and the control unit is made in the form of the interface board for controlling stepper motors installed in the personal computer.

The drawing shows a structural block diagram of a device for analysis of blood composition.

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- 3 bright fields of transmitted light, for example, DMLS from Leika (Germany) or Mikmed 1 from LOMO (Russia), with a trinocular nozzle 2 and an automated stage 3 with scanning 4 and focusing (autofocus) 5 mechanisms based on stepper motors. The scanning mechanism 4 is made mainly in the form of two stepper motors fixed on a fixed part of an automated stage 3. The sliders mainly consist of a high-precision lead screw, a backlashless nut and a bracket system. The focusing mechanism 5 is made mainly in the form of a single stepper motor mounted on a bracket mounted on a biological optical microscope 1, while one of the ends of the axis of the stepper motor is equipped with a manual adjustment handle. Scanning mechanisms 4 and focusing 5 are connected to a control unit made in the form of an interface board (card) 8 for controlling stepper motors installed in the corresponding slot (socket) of a personal computer 7. On the trinocular nozzle 2 is installed, mainly using an adapter (adapter), a device for forming color images, made in the form of a digital video camera b, for example, EDC2000 company Electrim (ONA). The digital video camera b is connected to an interface board (video card) 9 for digitizing and inputting images that is installed in the corresponding slot (socket) of the personal computer 7. As a personal computer 7, it was predominantly selected as an IBM PC compatible with at least Pentiiom, with a clock frequency of 233 MHz and operating memory of at least 64 MB. IN

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the composition of the personal computer 7 includes a monitor, printer, and other peripheral devices. The software 10 of the device for analysis of blood composition consists of software for managing the device and software for processing graphic information on an appropriate medium.

A device for analyzing blood composition works as follows. Before the start of the analysis, control of its technical condition is carried out. The prepared stained blood smear in the form of a monolayer is placed on the movable part of the automated stage 3. Set the necessary mode of the personal computer 7. The movable part of the automated stage 3 is moved under the lens of the biological optical microscope 1 and digital video camera b in accordance with the software used 10. Image focusing also supported automatically. The following operations are sequentially performed:

-the field of view of the smear is entered into the memory of the personal computer 7 in the form of a series of digital frames,

- in each saved frame, cells of all types and their intracellular structures are allocated (segmented),

- the number of selected cells of each type (red blood cells, white blood cells, platelets) is calculated

- their ratio is determined,

- selected objects are measured with the ability to reproduce the shape of the object with a given accuracy,

- classification of images of red blood cells and white blood cells is carried out,

- normal and pathological forms of red blood cells are distinguished and their ratio is calculated,

- the leukocyte formula is determined.

The results of the analysis are presented on the monitor screen in the form of a standardized form, which can be transferred through a printer to paper.

The implementation of all these operations is provided by the appropriate software 10 most optimally due to the claimed configuration of the device for analysis of blood composition.

A device for analyzing the blood composition, made in accordance with the utility model, is more efficient compared to known similar devices, for example, Mekos C-1 from Unimed (Russia), Micro 21 from Intelligent Medical Imaging Inc. (USA) and others, allowing you to use more advanced specialized software and receive more output information. It is convenient in operation and can be widely used in diagnostic centers and hospitals of various specializations. In addition, it can be used to control the quality of donated blood and its components, as well as during mass preventive examinations of the population.

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Claims (1)

A device for analyzing the blood composition containing a biological optical microscope with a trinocular nozzle and an automated stage with scanning and focusing mechanisms made on the basis of stepper motors connected to the control unit, a color imaging device mounted on the trinocular nozzle and connected to it and with the control unit computer, characterized in that the color imaging device is made in the form of a digital video camera connected installed in the personal computer interface board and digitizing the input image, and the control unit is installed in a personal computer interface stepper motor control card.