RU175737U1 - Portable analyzer for determining hemostasis in human blood - Google Patents

Abstract

The utility model relates to medical equipment, namely, portable analyzers for determining hemostasis indicators (coagulometers). The technical result provided by the utility model is the ability to remotely transmit data about the analyzes and the patient's condition, including online. The claimed technical result is achieved by that in a portable analyzer for determining hemostasis in human blood, containing a housing with a built-in information display, controls and an input port for the cartridge and the power module and measuring module located in the housing so that the power module is electrically connected to the information display, controls and measuring module, and the measuring module is electromechanically connected to the input port for the cartridge, the radio data transmission module and the questionnaire module are additionally placed inside the housing electrically interconnected, as well as with the power module and the measuring module. In this case, the input port for the cartridge may have a removable adapter. analyzer is convenient to use, the cartridges allows the use of different types and provides the test results and questionnaires to any external device.

Description

The utility model relates to medical equipment, namely to portable analyzers for determining hemostasis indicators (coagulometers).

Various automatic hemostasis analyzers are known (see, for example, http://www.tiaramed.ru/Analizatory-gemostaza-koagulometry/APG4-02p.html; http://www.stormoff.ru/thrombolyzer_compact_x/, patent RU 2452936, IPC G01N 11/10, G01N 33/49, G01N 33/86, published June 10, 2012). Known analyzers are stationary devices based on various physical principles that can process a large number of samples.

However, the use of such devices is possible only in specialized laboratories, since their operation requires a certain qualification. In addition, such devices are structurally complex and have a high price, as a result of which their use directly by end users is not provided.

Known portable coagulometers (see, for example, http://www.sweetmed.ru/articles/analizatory_krovi/obzor_coagulometrov_coaguchek_xs_i_inratio2/), in which as a sample it is possible to use whole capillary blood containing a housing with an integrated information display, controls and an input port for the cartridge and the power module and measuring module located in the housing.

The qLabs® ElectroMeter Plus portable coagulometer known as the closest analogue is known (see http://medservice.info/catalog/koagulogiya/qlabs_electrometer_plus_portativnyy_ekspress_koagulometr/), also containing a housing with a built-in information display, controls and an input port for the cartridge power module and measuring module. In this case, the power module is electrically connected to the information display, control elements and measuring module; and the measuring module is electromechanically connected to the input port for the cartridge. Complete with a coagulometer there is an external base unit that provides printing of results and transfer of analysis data to a computer.

Common disadvantages of the known portable coagulometers, including the prototype, are the inability to transfer data to external remote devices (for example, to the attending physician), as well as the inability to use the devices for other types of analyzes.

The objective of the claimed utility model is to create a portable analyzer for determining hemostasis indicators with the ability to work with various types of cartridges, collecting additional information about the patients' condition and transmitting the received data remotely.

The technical result provided by the utility model is the ability to remotely transmit data about analyzes and the patient's condition, including online.

The claimed technical result is achieved in that in a portable analyzer for determining hemostasis in human blood, comprising a housing with a built-in information display, controls and an input port for a cartridge and a power module and a measuring module located in the housing so that the power module is electrically connected to information display, controls and measuring module, and the measuring module is electromechanically connected to the input port for the cartridge, inside the housing additionally placed a radio data transmission module and a questionnaire module, electrically connected to each other, as well as with a power module and a measuring module.

In this case, the input port for the cartridge may have a removable adapter.

In the context of this application, the term “adapter” means a device that allows for the electromechanical connection of the input port of the analyzer with cartridges of various types, the operation of which is based on electrochemical methods, in particular with a cartridge according to patent RU 164923.

The utility model is illustrated by drawings schematically representing the structure of the device: FIG. 1 is a plan view, FIG. 2 is a horizontal section (top view without the upper part of the housing), FIG. 3 - vertical section (side view).

The analyzer comprises a housing 1 with an information display 2, control elements 3 and an input port 4 with a thermostatic substrate 5 and a removable adapter 6 for a cartridge, a power module 7, a questioning module 8, a measuring module 9, and a radio data transmission module 10 located inside the housing.

The analyzer is as follows.

After the device is turned on, the thermostatic substrate 5 is automatically heated. After heating is completed, an analysis cartridge is inserted into the input port 4 of the device, information about this is displayed on the information display 2. The cartridge is installed in the input port 4 so that its output contacts are electrically mated to the input contacts measuring module 9. In the case when a cartridge of a different type is used for analysis, pairing is carried out through a pre-installed in the input port 4 6. 6. Then, a blood sample (whole capillary or venous) is placed on the cartridge for analysis, the interaction of which with the inductor placed in the cartridge triggers a cascade of biochemical reactions leading to blood coagulation due to the formation of a fibrin clot in the blood sample. The impedance of the blood sample is read by the measuring module 9 and the subsequent processing of the obtained data in it. After receiving the final analysis results in the measuring module 9, they can be displayed on the information display 2 using the control elements 3, and the measuring module 9 is instructed to turn on the questionnaire module 8. Using the control elements 3, the patient answers questions displayed on the information display 2 by the questioning module 8. The patient's responses in the form of electronic signals are fed back to the questionnaire module 8. After completing the questionnaire on all questions of the questionnaire, the results of the analysis and the questionnaire data are transmitted using external data transmission module 10 to external remote devices (for example, to a doctor).

The inventive analyzer is convenient in operation, allows the use of cartridges of various types and provides the transfer of analysis and questionnaire results to any external device.

Claims (2)

1. A portable analyzer for determining hemostasis in human blood, comprising a housing with a built-in information display, controls and an input port for a cartridge, and a power module and a measuring module located in the housing so that the power module is electrically connected to the information display, controls, and measuring module, and the measuring module is electromechanically connected to the input port for the cartridge, characterized in that the module is additionally placed inside the housing data transmission and the questionnaire module, electrically connected to each other, as well as with the power module and the measuring module. 2. The portable analyzer according to claim 1, characterized in that the input port for the cartridge has a removable adapter.

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