SU1075813A1 - Installation for examining aggregation dynamics of plasma thrombocytes - Google Patents

Abstract

INSTALLATION FOR RESEARCH OF THE DYNABLES OF PLASSCHEAM PLAINS ASSEMBLY, a plasma cell, mixing device and device for optical recording, plasma density, including the source The invention relates to medicine, in particular, to biochemical research of liquid destructive media, and tools can be used to apply to the medicine, in particular, to biochemical research of liquid destructible media, and a tool can be used to apply to medicine, in particular, to biochemical research of liquid destructive media platelet plasma. A device for studying the properties of blood is known, which contains a cuvette with a magnetic stirrer, an optical channel, a state recorder, and means for creating pressure. The magnetic stirrer contains a crosspiece with an axis on which an -disk is mounted with a magnetic rod mounted in it. However, in this device, the presence of moving elements in the cuvette contributes to the trauma of platelets, which affects the accuracy of the study. A nickname of light and a photocell associated with a graphic registration authority, characterized in that, in order to improve the measurement accuracy of the degree of aggregation and decrease the trauma of platelets, the mixing device contains two tubes of different lengths of anti-adhesive material, installed at the same distance from the side walls and connected through a collector to a pneumatic pulsator, with the ratio of the length of the smaller tube to the length of the larger tube being between 0.68 and 0.73, and the light source and the photocell are located on both sides cuvettes so that i ensure the passage of the beam between the tubes. (L c. A known installation for investigating the dynamics of platelet aggregation; a plasma containing a tinas Mbi cuvette, a mixing device and a device for optical recording; a PL DENSE plasma including a light source and a photocell associated with a graphical recording body. This setting is the closest to the present invention in technical essence and the achieved result. A mixing device in a known installation contains a coupled with a drive blade paddle consisting of an injection needle diameter of 1.2 mm, coated with silicone, preservatives yuschim needle during rotation of stickiness and medium fortified

Description

NOI at the end of the needle plates from plexiglass, size 4x2 mm. The drive, made in the form of a lightweight electric motor, powered by a dry element, rotates the needle at a speed of 600 rpm. The test container has a volume of 3.5 ml. The degree of aggregation is judged by the magnitude of the change in the optical density of the medium and the time interval, i.e. time, from the moment of introduction of aggregating ingredients into the Gedaum environment, to the moment of maximum activity of the process. The disadvantages of the known device are the presence of a mechanical effect on the test medium plasma, leading to a traumatic effect on platelets; Placement in the tank for the test medium of the paddle of the mixing device requires an increase in the volume of this tank in order to pass a beam of light with automatic optical density recording, which ultimately leads to an increase in the plasma flow rate of the agitator rotating speed (up to 600 rpm) increases the mechanical effect and does not provide high-quality and uniform mixing of the investigated medium in its entirety due to the occurrence in the area of the mixing of the blade of the vortex effect, which reduces the accuracy of measuring penalties for platelet aggregation. The aim of the invention is to improve the accuracy of measuring the degree of aggregation and reduce the trauma of platelets. To achieve this goal, a plasma platelet aggregation dynamics test device containing a plasma cell, a mixing device and a device for optical recording of plasma density, including its light source and photocell associated with a graphical recording unit, contains a tubes of different lengths made from anti-adhesive material, installed at the same distance from the side walls and connected through a collector to a pneumatic pulsator, with this ratio The length of the smaller tube to the length of the larger tube is from 0.68 to 0.73, and the source of the connection and the photocell are located on both 13 sides of the cuvette so that the beam passes between the tubes. The drawing shows an apparatus for studying the dynamics of platelet aggregation of plasma. An installation for investigating the dynamics of platelet aggregation, includes a plasma cuvette 1, a mixing device containing two tubes 2 and 3 of different lengths from the anti-adhesive material, the lower edge of which is below the plasma level proposed, and a plasma density detector, which includes the source light 4 and the photocell associated with the organ 5 of the graphic registration of the tube 2 and 3 are connected to the piston pump 6, set in motion by a crank mechanism connected through a reducer to the motor (not shown). The diameter of the intake port of the tubes 2 and 3 is 2-3 mm. The ratio of the length of the smaller tube 2 to the length of the larger tube 3 is from 0.68 to 0.73. The light source 4 and the photocell are located on both sides of the cuvette 1 so that the light beam passes between the tubes 2 and 3. The installation works as follows. The cuvette is filled with platelet-rich plasma. The tubular elements 2 and 3 are lowered into the cuvette, the pump 6 is turned on, and optical recording devices are included. By means of the pump 6, the plasma from different layers is taken up and re-poured through the tubular elements 2, 3 so that the change in the plasma level takes place over the transmitted light beam, which detects the exact density of the medium. The optimal time for qualitative mixing does not exceed 10 seconds, in a period of one minute 22 cycles occur. Plasma intake into tubes 2 and 3 exceeds 0.4 to 0.5 plasma volumes, the most efficient and high-quality mixing of the plasma is achieved in the case of simultaneous collection of 2.3 O, 25 ... O, 35 volumes of plasma under investigation by both tubes. The height of the set of plasma p tube 2,3 does not exceed 2/3 of their length. Lack of metal materials. Meshes 1075813

a lock with blades and other suitable passage of a ray of light from a signal; in the volume of the cuvette I, nick 4 to the photocell, with sufficient to reduce the volume of the plasma under study, (in the case of mixing the test medium, allows for unimpeded

Claims (1)

INSTALLATION FOR THE STUDY OF PLASMA PLATELET AGGREGATION DYNAMICS, containing a plasma cell, mixing device and device for optical recording, plasma density, including