RU2818126C1 - Vacuum test tube for producing plasma enriched with growth factors - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine and can be used to produce plasma enriched with growth factors. Vacuum test tube consists of a cylindrical housing with an inlet hole with a locking cover, which body is made of borosilicate glass, characterized by that the housing is made of borosilicate glass with inclusion of a pigment which blocks ultraviolet radiation. Vacuum with intensity is created in the test tube, which allows independent filling of the test tube with patient’s blood in volume of 9 ml. Test tube has volume of 10 ml. Inner wall of the test tube is coated with Enoxaparin in dosage 150–220 IU. Test tube contains a thixotropic separation gel.

EFFECT: test tube enables to obtain plasma enriched with platelet growth factors, due to the use of an anticoagulant which does not affect the platelet activation process, and a sparing centrifugation mode, in which from thrombocytes growth factors are released in high concentration, but in physiological proportion.

1 cl, 2 dwg, 2 tbl

Description

Field of technology to which the invention relates

The invention relates to medicine and can be used to obtain plasma enriched with growth factors.

State of the art

A device for obtaining an enriched fraction of biological material is known from the prior art; it includes a hollow cylindrical body with an intake-outlet end and an open support end; a piston element having a threaded blind hole and located inside the cylindrical body so that the hole is located at the end of the piston element on the side of the open support end of the cylindrical body; a means of blocking the piston, preventing the piston element from exiting the housing during centrifugation. The intake-outlet end of the housing is made in the form of a neck, equipped with a Luer-Lock threaded fastener for connecting a removable auxiliary element. The piston locking means is made in the form of a plug latch for holding the piston element and for fixing the device in the centrifuge adapter during centrifugation, the plug latch is connected to the piston element using a threaded connection, and the plug latch has a head with a threaded fastening leg. Moreover, the threaded blind hole of the piston element is configured to accommodate the threaded fastening leg of the plug-clamp and interact with it. In this case, the head of the clamp-plug is configured to be placed in the centrifuge adapter and in the supporting end of the cylindrical body and has a diameter that corresponds to the diameter of the centrifuge adapter. The inner surface of the body on the side of the supporting end has a radial notch for holding the piston element, made integral with the body (RU 202348 U1 02.12.2021).

In addition, a vacuum tube is known from the prior art, consisting of a cylindrical body with an inlet with a locking lid and a device for creating a vacuum. The housing consists of three compartments connected to each other by plug valves with the ability to rotate relative to each other. In this case, one compartment is equipped with a lid rigidly connected to it, made with an inlet hole in the middle part for introducing a blood sample using a syringe and equipped with a membrane made of elastic material, the middle compartment is made with a hole for removing the prepared drug using a syringe with a needle, equipped with a stopper made of elastic material, and the third compartment is equipped with a movable cylindrical bottom connected to the compartment with a threaded connection, while the ratio of the volumes of the compartments is 4:1:4. Each plug-valve has a corrugated outer surface and consists of two parts equipped with a cavity with a hole for the flow of liquid between the compartments, both parts are hermetically connected to each other by means of an o-ring made of elastic material and can be rotated relative to each other. Each part of the valve plug is rigidly connected to an adjacent compartment, while the outer walls of adjacent compartments and the corrugated surface of the valve plugs contain an indicator for visual observation of the position of the holes of both parts of the valve plugs, made in the form of diametrically located colored stripes (RU 2740100 C1 01/11/2021) .

The disadvantages of previously known test tubes are:

1. Open systems were used with a high risk of contact of a medical worker with the patient’s blood and a high probability of plasma contamination.

2. High labor intensity of plasma production

3. Use of sodium citrate as an anticoagulant, which blocks platelet activation and reduces the effectiveness of the resulting autoplasma.

The problem to be solved by the stated technical solution is to create a closed vacuum system for collecting and processing blood in order to obtain a platelet fraction of blood plasma enriched with growth factors. Increasing the clinical effectiveness of using active platelet plasma.

Disclosure of the Invention

The technical result consists in obtaining plasma enriched with platelet-derived growth factors, due to the use of an anticoagulant that does not affect the platelet activation process (Enoxaparin) and a gentle centrifugation mode, in which growth factors are released from platelets in high concentrations, but in physiological proportions. When using this technology for obtaining plasma, the high efficiency of use in treatment is due to the rapid direct effect of platelet-derived growth factors on body tissue, which is expressed in the stimulation of regeneration, local immunity and the treatment of trophic disorders.

The specified technical result is realized due to the following design features of the vacuum tube.

A vacuum tube consists of a cylindrical body with an inlet with a locking cap. A vacuum with a certain intensity is created in the test tube, allowing the test tube to be independently filled with the patient’s blood in a fixed volume of 9 ml. The body is made of borosilicate glass with the inclusion of a pigment - MAXITHEN, which blocks the effect of ultraviolet radiation on the resulting plasma and prevents free radical oxidation. The test tube has a volume of 10 ml. Enoxaparin is sprayed onto the inner wall of the tube in a dosage of 150-220 IU as an anticoagulant; the tube contains a thixotropic separation gel that prevents reverse mixing of the plasma after centrifugation.

Brief description of drawings

In fig. Figure 1 shows the appearance of vacuum tubes, where under d₁ - diameter of the test tube cap, d₂– test tube diameter, l₁ - length of the tube cap, l₂- length of the tube label, H is the height of the entire test tube with a lid, h is the thickness of the test tube stack.

In fig. Figure 2 shows a diagram of the production of platelet-derived growth factors using the stated tube, in comparison with untreated plasma in different groups of individuals.

Carrying out the invention

A vacuum tube consists of a cylindrical body with an inlet with a locking cap. A vacuum with a certain intensity is created in the test tube, allowing the test tube to be independently filled with the patient’s blood in a fixed volume of 9 ml. The body is made of borosilicate glass with the inclusion of a pigment - MAXITHEN, which blocks the effect of ultraviolet radiation on the resulting plasma and prevents free radical oxidation. The test tube has a volume of 10 ml. Enoxaparin is sprayed onto the inner wall of the tube in a dosage of 150-220 IU as an anticoagulant; the tube contains a thixotropic separation gel.

Example. 1

We make a test tube from borosilicate glass, into which we add the pigment - MAXITHEN, cast a vacuum test tube with a volume of 10 ml, spray 150 IU of enoxaparin onto the inner wall of the test tube, add a thixotropic separation gel. We create a vacuum with an intensity that allows us to fill the test tube with the patient’s blood in a volume of 9 ml.

Example 2. Using the resulting test tube, blood was taken from 50 patients, it was centrifuged, and when examining the resulting plasma, the results presented in the diagram in FIG. 2.

According to the studies, the content of platelet growth factors increased compared to the initial level by:

Growth factor Normal in whole blood Result obtained in MeaPlasma tubes, men 46.8 years old Result obtained in MeaPlasma tubes, men 27.1 years old Result obtained in MeaPlasma tubes, women 45.7 Result obtained in MeaPlasma tubes, women 26.3 years old TGF-B1/B2 32.17 95.44 (+296%) 113.66 (+353%) 123.34 (+383%) 126.39 (+393%) PDGF-AA 131.6 207.23 (+157%) 211.45 (+160%) 236.17 (+179%) 245.47 (+186%) VEGF 11.7 107.96 (+920%) 139.34 (+1190%) 115.18 (+984%) 129.04 (+1102%) IGF-1 48.85 107.35 (+219%) 125.59 (+257%) 114.24 (+233%) 111.42 (+228%) EGF 150 206.93 (+137%) 192.11 (+128%) 176.72 (+117%) 258.77 (+172%)

Thus, the developed test tube allows you to collect a given amount of patient’s blood in a volume of 9 ml, obtain plasma enriched with platelet growth factors, due to the use of an anticoagulant that does not affect the process of platelet activation - Enoxaparin and a gentle centrifugation mode, in which growth factors are released from platelets in high concentration, but in physiological proportion. When using this technology for obtaining plasma, the high efficiency of use in treatment is due to the rapid direct effect of platelet-derived growth factors on body tissue, which is expressed in the stimulation of regeneration, local immunity and the treatment of trophic disorders.

Claims (1)

A vacuum tube consisting of a cylindrical body with an inlet with a locking lid, the body of which is made of borosilicate glass, characterized in that a vacuum is created in the test tube with an intensity that allows the tube to be filled with patient blood in a volume of 9 ml, the body is made of borosilicate glass with the inclusion pigment that blocks ultraviolet radiation, the test tube has a volume of 10 ml, Enoxaparin is sprayed on the inner wall of the test tube in a dosage of 150-220 IU, the test tube contains a thixotropic separation gel.