RU150414U1 - VACUUM TEST FOR TAKING BLOOD SAMPLES WITH SEPARATING GEL - Google Patents

Abstract

A vacuum tube for taking blood samples with a separation gel, consisting of a cylindrical element with one open end, a cap with a rubber stopper, and also a layer of a separation gel, characterized in that the layer of a separation thixotropic gel is made in the form of a cylinder located along the tube at a distance of 1 up to 3 cm from the closed end of the tube and adjacent to the inner walls of the tube, in which at least one through hole is made along the generatrix

Description

The utility model relates to a medical device and can be used for rapid sampling of biological fluids, including blood, and their further research.

The functionality of the widely used vacuum blood collection tubes is now expanded. It is proposed to produce tubes with additional substances that simplify research procedures.

So, from patent No. 4579828 US known improved systems aclot activator clot to reduce the clotting time of blood samples in tubes during separation of serum, as well as increase the degree of coagulation, and at the same time, reduce the cost of production. This is achieved by adding pieces of glass to the tube, and they are formed using the sol-gel process. Glass particles are porous, inorganic sponges with a significant reaction area. When a blood sample is placed in a serum separation tube containing such particles, blood enters the free space between the particles that cause blood fragmentation.

Axial rotation-based blood separation system is known from US Pat. No. 5,853,600, which contains a tube with longitudinal ribs located on the inner walls and filled with gel to form concentric layers of cells during centrifugation.

It is advisable to increase the efficiency of blood separation during centrifugation.

From the patent No. 4994393 US known composition for the separation of blood, which includes a balanced two-component resin, which provides hydrophobic properties, while controlling viscosity and specific gravity. The specified resin consists of a resin poly-alpha-pinene, which provides good recovery, but has a low density, as well as a chlorinated hydrocarbon resin, which provides an appropriate level of density while maintaining the hydrophobic properties of the resin mixture. Thixotropic properties are achieved by adding silicon dioxide and a network stabilizer.

The closest analogue is a centrifugation blood sampling device known from patent No. 2052186 RU, which contains a transparent tubular container with a vacuum volume, having a closed end in the form of an end wall made as a whole and an open end in which an elastic plug is formed, forming a self-tightening after piercing it with a needle shutter. The device is characterized in that in the cavity of the container with an annular gap of 125 μm, a float is additionally placed in the form of an elongated body of constant cross-section, configured to be located inside the erythrocyte mass to stretch the layer of platelets and leukocytes. In this case, the container is filled with inert gas. The container further comprises means for restricting the movement of the surface plasma layer during centrifugation. A means of limiting movement is a thixotropic gel, made in the form of a disk. The groups of cells during centrifugation are stabilized by a layer of a fluid substance, which is located on the plasma layer and forms a thin film on it. The disadvantage of the analogue is the complexity of manufacturing associated with the need for precision manufacturing of the float.

The purpose of the utility model is to increase the functional properties of the tube for taking blood samples and for further centrifugation.

The goal is achieved due to the design of the vacuum test tube, which in addition to the cylindrical element with one open end and the cap with the rubber stopper also includes a cylinder made of a thixotropic separation gel located along the test tube at a distance of 1 to 3 cm from the closed end of the test tube and adjacent to it internal walls, having also at least one through hole along the generatrix. Due to this, acceleration of filling of the test tube during sampling, as well as acceleration of the process of separation of blood components during centrifugation is achieved. In addition, it is possible to centrifuge at a lower rotational speed of the centrifuge, which reduces the cost and simplifies the research process.

Utility Model Implementation

The vacuum tube is made in the form of a hollow cylinder with one open side, made, for example, of transparent polyethylene terephthalate by extrusion. The cylinder may contain a filler, for example, a clot activator. Also, the design of the vacuum tube includes a cap with a rubber stopper, which provides a tight closing of the cylinder canopy and has a color coding in accordance with the filler. The rubber stopper is designed for piercing during the blood sampling procedure. Also, a thixotropic gel is placed inside the tube, which serves to separate the blood clot and serum during centrifugation. The specified gel is made in the form of a cylinder adjacent to the walls of the tube, and has at least one through longitudinal hole. The gel cylinder itself is placed at a distance of 1 to 3 cm from the bottom of the tube. The gel may be olefin, siloxane or acrylic based with various additives, for example, with silicone oil to prevent flow from the walls of the tube.

When sampling due to holes, the blood quickly and evenly fills the entire free volume of the tube. With further centrifugation of the tube due to holes in the gel, the various blood components in less time and with less relative centrifugal force are separated along the direction of the centrifugal force. Then the gel is deformed, the holes are tightened, and a disk is formed that separates the serum from fibrin and blood cells.

Description of drawings

Figure 1 shows a vacuum tube for collecting blood samples with a separation gel assembly. 1 - test tube, 2 - separation gel cylinder, 3 - cap with rubber stopper, 4 - through hole in the gel cylinder.

Claims (1)

A vacuum tube for taking blood samples with a separation gel, consisting of a cylindrical element with one open end, a cap with a rubber stopper, and also a layer of a separation gel, characterized in that the layer of a separation thixotropic gel is made in the form of a cylinder located along the tube at a distance of 1 up to 3 cm from the closed end of the tube and the tube adjacent to the inner walls of the tube, in which at least one through hole is made along the generatrix

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