RU188811U1 - DEVICE FOR TREATMENT OF SAMPLES OF BIOLOGICAL MATERIAL - Google Patents

Abstract

The apparatus for processing samples of biological material relates to medical devices used in the diagnosis of oncological diseases and is intended to automate the process of sedimentation of samples of biological material obtained by liquid cytology. The device (Fig. 2, 3) contains a base table (1) with removable protective a casing (2), a loading device (3), made in the form of linear guides with a drive (4), ensuring loading into the device a vial (5) equipped with a container (6) with a glass slide (13) fixed on to the neck of the vial (5) through the compactor (14), the unloading device (7), the manipulator (8), the actuating mechanism of the grip (9). The gripping mechanism (9) ensures the gripping of the container (6) with the vial (5), installation on the loading device (3), movement for positioning at the corresponding drive cell (10), turning 180 degrees, setting in the corresponding drive cell (10), removal after a certain exposure in a static state and installation on the unloading device (7). The loading device (3) and unloading (7) are equipped with a positioning table (11) for placing the container (6) with the vial (5) in a certain position. Using the claimed utility model will automate the process of preparing bioassays and ensure the required quality of the monolayer of drugs. In the end, in the process of researching the biomaterial, the number of false-negative responses is significantly reduced. 1 hp f-ly, 3 ill.

Description

The apparatus for processing samples of biological material refers to medical devices used in the diagnosis of cancer, such as cervical cancer by cervical cytological screening, and is intended to automate the process of precipitating samples of biological material obtained by liquid cytology.

Cervical cancer (CC) for many years ranks second in frequency among malignant tumors of the reproductive system in women, second only to breast cancer. In the structure of oncogynecological pathology in the world of cervical cancer, it is 15%, and the death rate from it reaches 8%. Thus, remaining the most common oncologic pathology, cervical cancer is a serious public health problem worldwide [1].

The pathogenetic factors of the precancerous condition (dysplasia) of cervical squamous epithelium (BL) cells include inflammatory processes, imbalance of sex hormones and previous injuries of the BL. The transition of dysplasia to cervical cancer takes years and even decades, so timely detection of precancerous conditions (cervical cytology screening of cervical cancer) becomes the main way to prevent cancer [2].

The effectiveness of cervical cytological screening for cervical cancer is determined by the method of execution and the quality of the bioassay. Currently, the leading technology in the early diagnosis of gynecological oncological diseases is liquid cytology (LC), which gives more accurate results of cytological research than traditional (TC).

The principle of collecting cells with CMM when carrying out a shopping center or life cycle is the same; however, when taking a life cycle, the biomaterial taken is not transferred directly to glass, but is placed in a vial (vial) with a liquid fixative-preservative, which is sent for research. In a laboratory equipped with high-tech equipment, the delivered biomaterial is automatically cleared of foreign inclusions (leukocytes, erythrocytes, cellular debris, elements of inflammation), applied to a glass slide in a uniform thin layer, subjected to wet fixation and staining [3].

Foreign devices used in domestic gynecology when conducting life cycle are known in the art, based on the principle of centrifugation or filtration (technology Thin Prep, Sure Pass, Cyto System, CellPrep Plus, etc.). Known devices are very expensive and difficult to operate [4]. However, in accordance with clause 7.1.8. normative document on oncology diagnostics at the laboratory stage [5] for sample preparation of CMM material produced for the purpose of detecting and early diagnosis of cancer by the LC method, the use of centrifuges is impractical because several stages of centrifugation can lead to the destruction of cellular structures. Therefore, sample preparation can be carried out on a device whose action is based on the principle of sedimentation (deposition) of a taken biomaterial under the action of gravitational forces.

As shown by the results of the search by sources of patent and scientific and technical information, domestic laboratory instruments of the same purpose and principle of action have not been identified, therefore, according to the applicant, none of the known analogues is the closest (prototype) in relation to the claimed apparatus.

At the same time, the task of developing and commercializing such a device is highly relevant given the current trend of growth of female cancer. At the same time, it is important to automate the process of sample preparation of the material under study, reducing the volume of manual labor as much as possible.

The technical result consists in providing automation of sample preparation of biomaterial, taken by the LC method, using the method of sedimentation in the working process.

The task can be implemented, and its technical result can be achieved through a specific technical solution of the utility model, namely, the structurally declared apparatus for processing samples of biological material is characterized by the fact that it contains a base table, a loading device, made in the form of linear guides with a drive that provides loading into the vial apparatus, equipped with a container with a glass slide attached to the neck of the vial through a gasket, a vial with a ball drive the device, the unloading device, the manipulator containing the vial locking mechanism.

At the same time, the manipulator is designed to capture the vials with the container, install it on the loading device, move the vial in the horizontal plane for positioning against the corresponding drive cell, reverse in the vertical plane 180 degrees, install the drive in the inverted position in the cell, remove the vial from the drive cell after timing in a static state and installation on the unloading device.

The loading and unloading devices are equipped with a positioning table for placing the vial in a certain position, and the apparatus itself is equipped with a removable casing that blocks access to its mechanisms, protecting the latter from accidental damage.

Comparative analysis of the essential features of the claimed utility model in comparison with its counterparts indicates that the prior art does not know the known prior art and does not follow the explicit purpose of the device of the same purpose as the claimed utility model, which would use the entire set of Claim and disclosed in the description of the essential features.

At the same time, the proposed set of essential features ensures that the claimed utility model gives rise to new properties that allow the task to be accomplished, which means its compliance with the “novelty” criterion.

In general, the design of the claimed utility model is technologically feasible to manufacture, therefore its production does not present technical difficulties, which indicates that the utility model also complies with the criterion "industrial applicability".

The claimed utility model is illustrated by drawings, which depicts:

- in fig. 1 is a depiction of the general form of the claimed apparatus;

- in fig. 2 is a depiction of the general form of the claimed apparatus with the protective cover removed;

- in fig. 3 - view of the capture arm.

The apparatus for processing samples of biological material contains a base table 1 with a removable protective cover 2, a loading device 3, made in the form of linear guides with a drive 4, ensuring loading into the device a vial 5 equipped with a container 6 with a slide 13 attached to the neck of the vial 5 through the seal 14, the unloading device 7, the manipulator 8, the gripping actuator 9. To ensure contact of the biomaterial with the slide 13, the seal 14 is provided with a hole coaxial with the neck of the vial (in drawings not clearly shown). The gripping mechanism 9 provides for gripping the container 6 with the vial 5, installing it on the loading device 3, moving to positioning the corresponding cell of the storage device 10, turning it 180 degrees, installing the storage device 10 into the corresponding cell, removing it after a certain shutter speed in a static state and installing it to the unloading device 7. Removable cover 2 closes access to the mechanisms of the device, providing protection from accidental damage. The loading device 3 and the unloading 7 are equipped with a positioning table 11 for placing the container 6 with the vial 5 in a certain position.

On the removable casing 2 a control panel is installed with a control system 12, which provides control of the actuators of the device, as well as including a human-machine interface for visualizing and entering the parameters of the device operation.

The device works as follows.

Vial 5, in which the biomaterial is taken, with container 6 is placed on the positioning table 11. At the command of the control system 12, the positioning table 11 moves the vial 5 with the container 6 inside the device to the extreme position of the loading device 3.

The manipulator 8 seizes the vial 5 with the container 6, lifts it and starts the revolution by 180 ° in the "upside down" position. At the same time, the gripper 9 moves to the corresponding free cell of the accumulator 10 and the container 6 with the vial 5 is installed in an inverted position in the cell. In the storage cell, the container 6 with the vial 5 is kept in a static state for a certain time. When this happens the deposition of the biomaterial under the action of gravity during a short period of incubation with the formation of a monolayer of the drug on the slide 13. The presence of free cells in the accumulator 10 is determined by the control system 12. In the absence of free cells, the control system 12 issues a command to ban loading.

After holding the vial 5 with the containers 6, the manipulator 8, at the command of the control system 12, unloads the vials with the containers from the accumulator 10. The unloading takes place in the reverse order with respect to the loading. Vial 5 with container 6 from the corresponding cell of storage 10 with manipulator 8 is placed on unloading device 7, which moves the vial with container from under protective casing 2 to outside for further processing.

Using the claimed utility model will automate the process of preparing bioassays for their further research and ensure the required quality of the monolayer of drugs. In the end, in the process of researching the biomaterial, the number of false-negative responses is significantly reduced.

References to the sources of information used:

1. http://zodorov.ru/citologicheskij-skrining-raka-shejki-matki.html Vorobyev S.L. et al., “Cytological Screening for Cervical Cancer,” recommendations, 2013, p. 7

2. Yu.G. Payanidi et al. “Screening for cervical cancer. View of a Clinician, Oncogynecology, 2013, No. 1, p. 35

3. http://aptekins.ru/zdorovie/tsitologiya-sheiki-matki "Liquid cytology of the cervix."

4. http://fedlab.ru/apload/medialibrary/ooo/prezentatsii-kazan/Antsilevich.pdf Liquid Cytology in Cervical Screening, p. 11-16.

5. GOST R 57004 - 2016. Diagnostics in oncology. Diagnostic Algorithm. Cervix. Laboratory stage., P. 7.1.8.

Claims (3)

1. Apparatus for processing samples of biological material obtained by the method of liquid cytology, characterized in that it contains a base table, a loading device made in the form of linear guides with a drive that provides loading of a vial into the apparatus, equipped with a container with a glass slide, attached to the neck of the vials through compactor, vial storage with cells, unloading device, manipulator containing vial gripping mechanism, at the same time, the manipulator is designed to capture the vials with the container, install it on the loading device, move the vial in the horizontal plane for positioning against the corresponding drive cell, turn in the vertical plane 180 degrees, install the drive in the inverted position in the cell, remove the vial from the drive cell after timing in a static state and installation on the unloading device. 2. The apparatus for processing samples of biological material under item 1, characterized in that the loading and unloading devices are equipped with a positioning table for placing the vial in a certain position, and the device itself is equipped with a removable casing that blocks access to its mechanisms, ensuring the protection of the latter from accidental damage .

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