RU66058U1 - AUTOMATIC ANALYZER FOR MONITORING WATER-ELECTROLYTIC BALANCE IN A HUMAN ORGANISM - Google Patents

Abstract

The claimed technical solution relates to the design of automatic analyzers and can be used to monitor the water-electrolyte balance in physiological fluids, which is necessary in the diagnosis and treatment of diseases of the cardiovascular system, kidney pathology, etc.

An automatic analyzer for monitoring the water-electrolyte balance in the human body includes a sampler, valve, pump, drain tank, measuring cell equipped with measuring electrodes and a reference electrode, connected through a valve to containers containing calibration solutions, an electronic control unit, and a power supply unit. The inventive analyzer differs from the known analyzers in that the measuring cell is connected to three containers containing three calibration solutions.

Description

The claimed technical solution relates to the design of automatic analyzers and can be used to monitor the water-electrolyte balance in physiological fluids, which is necessary in the diagnosis and treatment of diseases of the cardiovascular system, kidney pathology, etc.

Currently, the concentration of physiologically important metal cations in various physiological environments (for example, potassium and sodium in the blood) is measured using complex and expensive automated foreign-made analyzers. They are distinguished by the high cost of the apparatus itself, the high cost of spare parts and consumables, and the complexity of maintenance.

In our country, an automatic potassium and sodium ion analyzer manufactured by Wauer (Germany), model 614, is widely used. This device contains a sampler, a valve that provides a message to the measuring cell (which contains electrodes for measuring potassium, sodium and a reference electrode) with a sampler (in the measurement mode of the sample), with containers containing calibration solutions (in the calibration and measurement mode), with an air line (in the purge mode). In this analyzer, the measuring cell communicates via a valve with two vessels containing two calibration solutions. The measuring cell is connected to a peristaltic pump designed to move the test samples, calibration and washing solutions along the above nodes of the analyzer. The sampler, valve, measuring cell, pump are connected to the electronic control unit and operate under its control. The power supply of the above nodes and the control unit is carried out using the power supply.

However, the wide use of these analyzers is hindered by the high cost of both the device itself and spare parts and accessories. When designing an analyzer based on domestic elements and components, it is necessary to take additional measures to ensure the reliability and accuracy of measurements.

Thus, the purpose of the proposed technical solution is to increase the accuracy and reliability of measurements.

This goal is achieved by the fact that the inventive automatic analyzer of potassium and sodium ions contains a sampler, valve, pump, drain tank,

a measuring cell equipped with measuring electrodes and a reference electrode, connected to three containers containing three calibration solutions, as well as an electronic control unit and a power supply unit that control the operation of these nodes.

Figure 1 presents a schematic diagram of an automatic analyzer, where 1 is a sampler, 2 is a valve, 3 is a pump, 4 is a drain tank, 5 is a measuring cell, 6 is a tank with calibration solutions, 7 is an electronic control unit and 8 is a power supply .

The presence of electrical channels for the exchange of information between analyzer elements. In this case, the exchange of electrical signals is one-way.

In this case, the exchange of electrical signals between the various elements of the analyzer occurs in a two-way manner.

This symbol indicates the circulation of fluids (blood, serum, calibration solutions, flushing fluids, etc.) between the analyzer elements.

The principle of operation of the inventive analyzer is as follows:

- the test liquid (blood, serum, dialysis solution, etc.) from the test tube or syringe enters sampler 1. The main function of this unit is to take a sample of the required volume and inform the electronic control unit 7 about the sampling and the need to start measuring.

- then the test liquid enters the valve 2. Its main task is to communicate the measuring cell 5 with the sampler 1 (in the measurement mode of the sample), with containers 6, which contain the calibration solutions (in the calibration mode). The valve operates under the control of the control unit and, in turn, provides the control unit with the necessary information.

- further, the test liquid enters the measuring cell 5. The cell contains measuring electrodes (for measuring the concentrations of potassium and sodium ions) and a reference electrode. The reference electrode provides the necessary conditions for the operation of the measuring electrodes.

- the movement of samples, calibration and washing solutions is provided using the pump 3. The pump operates under the control of an electronic control unit 7, ensures uniformity and laminar flow of solutions, as well as the disposal of the test fluid, calibration solutions in the drain tank 4.

The main operation that determines the accuracy of the inventive analyzer is its calibration. The proposed analyzer is calibrated

automatically when you turn on the device using three calibration solutions located in three containers 6.

Two calibration solutions are used to configure the analyzer, a third solution is needed to control the accuracy of the adjustment and significantly increases the measurement accuracy, and the third solution is used to control the accuracy after each measurement, while minimizing the possibility of an unreliable result.

Claims (1)

An automatic analyzer for monitoring the water-electrolyte balance in the human body includes a sampler, valve, pump, drain tank, measuring cell equipped with measuring electrodes and a reference electrode, connected through a valve to containers containing calibration solutions, an electronic control unit and a power supply unit, characterized in that the measuring cell is connected to three containers containing three calibration solutions.