RU164923U1 - CARTRIDGE FOR ANALYSIS OF INDUCED BLOOD Platelet Aggregation by Impedance Aggregometry Method - Google Patents

Abstract

1. A cartridge for the analysis of induced platelet aggregation by impedance aggregometry, comprising a housing with an input port for receiving a test blood sample and connected to the port through a microfluidic channel system with at least four research chambers, each of which has a pair of electrodes for impedance measurements in the test sample, characterized in that in each of the chambers, with the exception of one, which is the control, an inductor is placed that initiates when mixing with the test platelet aggregation, and the inductors in different chambers are different, the volume of the inlet port is at least 100 μl, the volume of each of the chambers is at least 30 μl, the height of each of the chambers is at least 2 mm, and each of the chambers is additionally connected to the outer space through a capillary channel with a length of at least 3 mm, and the pairs of electrodes are interconnected in a common electric circuit so that the potential differences between each of the pairs of electrodes in each of the chambers are the same. 2. The cartridge according to claim 1, characterized in that each of the cameras of the cartridge, with the exception of the control, contains a mixing device in the form of a spherical body of a material having magnetic properties.

Description

Cartridge for the analysis of induced platelet aggregation of blood by impedance aggregometry

The utility model relates to medical and biological technology, namely to auxiliary equipment for the study of induced platelet aggregation (AT) by impedance aggregometry in humans and animals.

There are various methods (for example, optical, physico-chemical) and types (general, per group, state of homeostasis, etc.) of blood tests, and for each of them special devices are needed in which the studied samples are placed.

Optically transparent, flat base plates are known (see, for example, patents: US No. 5856200, IPC G01F22 / 00, published 01/05/1999; RU No. 137369, IPC G01F22 / 00, published 02/10/2014), or tablet cuvettes (see, for example, patent RU No. 2406078, IPC G01N21 / 01, published December 10, 2010), by which it is possible to determine the concentration of microobjects in a liquid sample, for example, in physiological saline, by optical methods. Analysis of the sample in other ways using such devices is not possible.

Known cartridges for analyzing the concentration of cells in a blood sample (see patents: US No. 7771658, IPC G01N 15/10, G01N 15/12, published 08/10/2010; RU No. 137385, IPC G01N 33/49, published 02/10/2014 d) containing a hole for introducing a blood sample, a 1st chamber with a reagent, a 2nd chamber with a magnetic stirrer, two viewing windows for an optical sensor for the presence of liquid, a third chamber for measuring hemoglobin, an aperture for supplying blood from 2nd chamber to the 3rd chamber, a viewing window in the hemoglobin measurement chamber, 4th chamber for the accumulation of waste.

The main disadvantage of the known cartridges is the complexity of their design and, as a consequence, low-tech production and operation (to change the reagent in the first chamber, the cartridge must be prepared again).

The closest to the claimed technical device is, according to the authors, a cartridge for blood analysis (see patent application US 2008/0297169 A1, IPC G01N 33/86, B01J 19/00, published 04.12.2008), containing an input port for receiving a test sample of a liquid sample with a volume not exceeding 20 μL, connected to at least two capillary channels, each of which ends with a chamber with an outlet having a fixed volume not exceeding 2 μL, which contains two electrodes for measuring electrical resistance in research th sample, wherein at least one of the chambers is situated inductor accelerating mixing it with the sample coagulation.

The cartridge for blood analysis selected as a prototype is technologically advanced in production and operation, but with its help it is possible to study blood samples only for coagulation. An analysis of whole blood samples for induced platelet aggregation using such a cartridge is not possible.

When creating a utility model, the problem of obtaining a disposable cartridge that is technologically advanced in production and operation for the analysis of induced platelet aggregation of blood by the impedance method is solved.

The technical results of the utility model are the ability to quickly and accurately study induced platelet aggregation of blood, as well as the use of decalcated whole (usually venous) blood as a test sample.

Technical results are achieved in that the cartridge for analysis of induced platelet aggregation by impedance aggregometry comprises a housing with an input port for receiving a blood sample under study and connected to the port through a microfluidic channel system with at least four research chambers, in each of which there is a pair of electrodes for measuring impedance in the test sample, and in each of the chambers, except for one, which is the control, an inductor is placed, initiating when mixing with the test sample, platelet aggregation, and the inductors in different chambers are different, the volume of the inlet port is at least 100 μl, the volume of each of the chambers is not less than 30 μl, the height of each of the chambers is not less than 2 mm connected to the outer space through a capillary channel with a length of at least 3 mm, and the pairs of electrodes are interconnected into a common electrical circuit so that the potential differences between each of the pairs of electrodes in each of the chambers are the same.

At the same time, each of the cartridge chambers, with the exception of the control one, may contain a mixing device in the form of a spherical body made of a material with magnetic properties.

The inventive utility model is illustrated by the drawing, which schematically shows a top view of the cartridge.

The cartridge for analysis of induced platelet aggregation by impedance aggregometry contains an input port 1 located in the housing, a microfluidic system 2 channels, test chambers 3 with inductors, a control chamber 4 placed in the chambers of the pair of electrodes 5 and 6, capillary channels 7, output openings 8.

The inventive cartridge is used in the analysis as follows.

The cartridge is inserted into the analyzer. In this case, the conclusions of the common electric circuit of the electrodes 5 and 6 are located in such a way that they are interfaced with the corresponding conclusions of the analyzer device. A pre-decalcified test sample of whole blood is placed in the inlet port 1, from which it moves through the microfluidic system of 2 channels under the action of capillary forces and enters the test chambers 3 and the control chamber 4.

The sample entering the chambers 3 and 4 gradually completely fills their volume, while the air replaced by it through the capillary channels 7 and, then the outlet openings 8, is discharged into the outer space. The removal of air from chambers 3 and 4 through capillary channels 7 with a length of at least 3 mm allows full (without air bubbles) filling of chambers 3, 4 with the test sample and, at the same time, prevents excess sample from flowing out through the outlet 8.

In the test chambers 3 containing aggregation inducers, they interact with the incoming sample. The effectiveness of the interaction, which directly affects the quality of the analysis, depends on the homogeneity of the mixture, which is ensured by mixing the incoming sample and inductor, carried out in various ways, for example, by vibration, ultrasound, mechanical mixing, etc. Moreover, the speed of obtaining a homogeneous mixture with stirring depends on the overall dimensions of the test chamber 3. The data determined by the calculation method and confirmed experimentally show that the minimum of the overall dimensions of the chamber (which is the height) should be at least 2 mm, and the total chamber volume should be from 30 μl. As inducers used for aggregation, ADP, arachidonic acid, collagen, adrenaline, etc. are used.

The electrodes 5 and 6 of each of the test chambers 3 and the control chamber 4 are supplied with a predetermined (not more than 0.5 V recommended) potential difference that is the same for all chambers and creates an alternating electric field of a certain frequency. There is an impedance that varies over time. This impedance is measured by the analyzer in the on-line mode for 2 to 10 minutes, the measurement results (changes in internal resistance) in each of the chambers 3 are compared with the results in the control chamber 4. Performing at least three test chambers in the cartridge 3 with different inductors in each, it allows to simultaneously determine the degree of platelet aggregation under the influence of various inductors, which, in turn, can significantly reduce the total time of research (conducting several studies and obtaining results in parallel, not sequentially).

It should be added that to increase the accuracy of the results, it is desirable to temperature the cartridge at a temperature of 37 ⁰ C.

The inventive cartridge for the analysis of induced platelet aggregation of blood by impedance aggregometry is technologically advanced in production and allows you to quickly and accurately carry out studies, as well as use whole blood for research.

Claims (2)

1. A cartridge for the analysis of induced platelet aggregation by impedance aggregometry, comprising a housing with an input port for receiving a test blood sample and connected to the port via a microfluidic channel system with at least four research chambers, each of which has a pair of electrodes for impedance measurements in the test sample, characterized in that in each of the chambers, with the exception of one, which is the control, an inductor is placed that initiates when mixed with the test platelet aggregation, and the inductors in different chambers are different, the volume of the inlet port is at least 100 μl, the volume of each of the chambers is at least 30 μl, the height of each of the chambers is at least 2 mm, and each of the chambers is additionally connected to the outside through the capillary channel is at least 3 mm long, and the pairs of electrodes are interconnected in a common electric circuit so that the potential differences between each of the electrode pairs in each of the chambers are the same. 2. The cartridge according to claim 1, characterized in that each of the cameras of the cartridge, with the exception of the control, contains a mixing device in the form of a spherical body of a material having magnetic properties.

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