RU2735989C1 - Tampon for collection and application of chemical and biomaterials - Google Patents

Abstract

FIELD: medicine.SUBSTANCE: invention refers to medical equipment, namely to instruments for diagnostics in medicine, biology, chemistry, microbiology. Tampon for collection and application of chemical and biomaterials is made from polymer powder material. Swab contains a rod consisting of a holder in the form of a thickened lower part and a thinner upper part terminating with a tip. Thinner upper part terminating with a tip is additionally equipped with a non-detachably fixed spring part curled around a thinner upper part and directed towards a thickened part - a holder. Polymer powder material used is polyamide having porosity of up to 20% of the material volume after printing.EFFECT: use of the invention makes it possible to increase efficiency of collection and application of chemical and biomaterials.1 cl, 3 dwg

Description

The alleged invention generally relates to the field of satisfying human needs, more precisely - to diagnostic tools in the field of medicine, biology, chemistry, microbiology. The use of the claimed technical solution makes it possible to increase the efficiency of collection and application of chemical and biological materials. The invention is applicable for collecting chemical and biomaterials of the environment of various types or for collections, collecting and transporting chemical and biomaterials as in humans, animals or from investigated surfaces, applying the collected material for subsequent analysis.

Traditionally, in medical fields such as diagnostics and clinical analysis, tampons are widely used to collect a sample from a patient's mouth, nasal cavity, or from surfaces of interest. At the same time, the known tampons have the problem of taking a sufficient volume of material for its (sample) analysis of chemical and biomaterials - that is, the more amount of chemical, biomaterial is on the tampon, thereby providing a greater opportunity to obtain more accurate research results.

The technical solutions identified by the applicant from the investigated prior art do not fully solve this problem.

So, the invention is known according to patent US2019307433 "Tampon for collecting biological samples", the essence is a tampon for collecting biological samples of the type consisting of a rod ending at a tip (16) covered with a fiber (17) with hydrophilic properties ensuring the absorption of these samples, characterized in that said fiber (17) covers said tip (16) in the form of a layer applied by means of flocking technology.

The disadvantage of the known technical solution is that the support body does not have a moving part, which leads to an insufficient volume of chemical and biomaterials taken and, accordingly, applied, as compared to the claimed technical solution, as a result of which it has low consumer properties compared to with the stated technical solution.

Known invention according to patent JP2011234666 "Tampon", the essence is a cotton swab in which a cotton piece is provided at one or both ends of the shaft, and there is also a flaky layer obtained by covering short fibers in the form of a brush on the surface of the cotton piece.

The disadvantage of the known technical solution is that the supporting body does not have a moving part, which leads to an insufficient volume of chemical and biomaterials taken and, accordingly, applied, as compared to the claimed technical solution, as a result of which it has low consumer properties compared to the declared technical solution.

Known invention according to patent ES2714712, "Flocked swab and method of collecting and transferring samples of biological material", the essence is a flocked swab for collecting and transferring samples of biological material, and the swab contains at least: a support body (2) having an elongated conformation and having at least a first end part (2a) and at least a gripping part (2b) and at least a flocked layer defined by a plurality of fibers (6) attached and located on the first part (2a) of the support body (2) by means of flocking technology, so as to realize a flocked collecting part (3) aimed at absorbing an amount of a sample of biological material, characterized in that the first part (2a) of the support body (2) is provided with at least a first weakening part (4a) designed to provide and facilitate selective destruction of the tampon (1) in the first part (2a) and separation from at least the first part (3a) of the accumulated collecting part (3), at least from the second part (3b) of the accumulated collecting part (3) and from the gripping part (2b).

The disadvantage of the known technical solution is that the supporting body does not have a moving part, which leads to insufficient, compared with the claimed technical solution, the volume of taken and, accordingly, applied, chemical and biomaterials, as a result of which it has low consumer properties in comparison with the declared technical solution.

From the prior art investigated by the applicant, a source has been identified [https://formlabs.com/covid-19-response/covid-test-swabs/], the essence of which is swabs for taking a swab from the nose, printed using Formlabs 3D printers and biocompatible autoclavable resins.

The disadvantages of the known technical solution are that:

- biocompatible autoclavable resins are used as the tampon material, in which micropores are not formed during 3D printing, while the claimed technical solution uses polyamide powders, in which, as a result of printing technology, micropores are formed, increasing the volume of sampling of chemical and biomaterials;

- the supporting body does not have a moving part, which leads to an insufficient, in comparison with the declared technical solution, the volume of taken and, accordingly, applied, chemical and biomaterials;

- has a uniform smooth structure, which leads to insufficient, compared with the declared technical solution, the volume of taken and, accordingly, applied, chemical and biomaterials, as a result of which it has low consumer properties in comparison with the declared technical solution ..

From the prior art investigated by the applicant, the source [https://envisiontec.com/envisiontec-covid-19-efforts/] was identified, selected by the applicant as a prototype, the essence of which is swabs for taking a swab from the nose, printed using an Envision One 3D printer cDLM and biocompatible autoclavable resins, it should be emphasized that the tampon material has hydrophobic properties, and these (tampons) have a mesh structure to increase the volume of biomaterials taken, while this technology is implemented from biocompatible autoclavable resins and is characterized by a layer-by-layer photopolymerization method.

The disadvantages of the prototype are that:

- biocompatible autoclavable resins are used as the tampon material, in which micropores are not formed during 3D printing, while the claimed technical solution uses polyamide powders, in which, as a result of printing technology, micropores are formed, increasing the volume of sampling of chemical and biomaterials;

- the supporting body does not have a moving part, which leads to an insufficient, in comparison with the declared technical solution, the volume of taken and, accordingly, applied, chemical and biomaterials;

- the mesh structure of the material of the known tampon has a uniform smooth structure with hydrophobic properties, which, in aggregate, leads to insufficient, in comparison with the claimed technical solution, the volume of taken and, accordingly, applied chemical, biomaterials, as a result of which it has low consumer properties compared to the stated technical solution.

The purpose and the technical result of the claimed technical solution is the development of a tampon that eliminates the shortcomings of the prototype and provides an opportunity for the collection and application of chemical, biomaterials, which simultaneously has a complex of higher consumer properties when used as intended; an increased volume of collection of chemical, biomaterials, due to the combined use of the claimed tampon as design features, containing a rod, consisting of a holder in the form of a thickened lower part, and a thinner upper part ending in a tip, to which a spring part is permanently attached, curled, respectively, around a thinner upper part and directed towards the thickened holder part.

At the same time, the developed design is characterized by the fact that the design of the tampon is made using the additive method (3D) printing well known in the art - selective laser sintering, and the developed tampon with respect to the technology used is characterized by simplicity and original design due to the use of polyamide powder with hydrophilic properties. , which (polyamide powder), as a result of the application of printing technology, forms micropores that increase the volume of sampling of chemical and biomaterials compared to the prototype from 10% to 50%, and these indicators are provided as the porosity of the material itself after printing, in which the pores occupy up to 20 % of the volume of the material, and the remaining 30% of the increase in the volume of material intake falls on the spring part.

The essence of the claimed technical solution is a tampon for collecting and applying chemical, biomaterials, made of a polymer powder material, containing a rod, consisting of a holder in the form of a thickened lower part and a thinner upper part ending in a tip, characterized in that a thinner upper part, ending with a tip, is additionally equipped with a permanently attached spring part, curled, respectively, around a thinner upper part and directed towards the thickened part - the holder, while polyamide is used as a polymer powder material, having a porosity of up to 20% of the material volume after printing.

The claimed technical solution is illustrated in Fig. 1 - Fig. 3.

Figure 1 shows a diagram showing the claimed tampon, where:

1 - rod;

2 - thickened part - holder;

3 - thin upper part;

4 - spring part;

5 - tip.

Figure 2 shows a three-dimensional model of the claimed tampon.

Figure 3 shows a photo of the claimed tampon:

3а - tampon;

3b - spring part in the unfolded state;

3c - spring part in a compressed state (for example, compression is done with a needle).

The set goals and the claimed technical result are achieved by the fact that with the help of additive manufacturing technologies, a complex design of a tampon is created for collecting and applying chemical and biomaterials (Figure 1).

The claimed tampon has the configuration of an elongated rod 1 with a lower thickened part 2 (holder). At the end of the upper part 3 of the rod, there is a tip 5 in the form of, for example, a sphere, while the thinner upper part, ending with a tip, is additionally equipped with a permanently attached spring part 4, curled, respectively, around a thinner upper part directed towards the thickened part (holder ). The spring part has the ability to compress and expand with the ability to collect, extract and apply chemical, biomaterials.

The declared swabs are created by the method of selective laser sintering, for example, on an industrial 3D printer of the company "3D Systems" brand "sPro 60 HD".

Polyamide powders, for example, DuraForm PA brand, are used as the tampon material. The advantage of polyamide powders in comparison with analogues made of biocompatible autoclavable resins is that as a result of the printing technology micropores are formed, which increase the volume of intake of chemical and biomaterials.

Moreover, the above analogs US2019307433, JP2011234666, ES2714712 were created by casting from granules of materials. The known method limits the possibility of creating porous tampons capable of increasing their absorbency when collecting and applying samples of chemical and biological materials.

The use of additive technologies of powder printing made it possible to create a tampon with a movable spring part (Fig. 1). When taking a sample, not only the pores formed as a result of the selective laser sintering are filled, but also the cavities located between the turns of the spring part, as a result of which the absorbency of the tampon increases by up to 50% more than that of the prototype. The claimed tampon allows you to easily collect and release a higher percentage of chemical and biomaterials compared to a conventional tampon due to the fact that the polyamide itself has porosity, as well as due to the placement of chemical and biomaterials in the cavity between the turns of the spring part, as a result of the indicated porosity and the cavities between the coils of the spring portion together increase the absorbency of the tampon as a whole.

The claimed technical solution is implemented as follows.

A three-dimensional model of the claimed tampon is created using a known CAD software package (Figure 2).

The dimensions of the claimed tampon are set, for example, as follows:

- the length of the entire rod - 150.00 mm;

- length of the lower thickened part of the rod (holder) - 7.5 mm;

- diameter of the rod in the thickened part - 3.0 mm;

- diameter of the rod in the upper part - 1.45 mm;

- length of the spring part - 10.00 mm;

- diameter of the spring part - 3.0 mm;

- tip diameter - 3.0 mm

Then the 3D model is converted into a file format required for printing on a 3D printer, for example, by 3D Systems, sPro 60 HD.

Next, the converted file is sent to a 3D printer, where the printer is prepared for printing, namely:

- filling the printing chamber with polyamide powder;

- filling the printing chamber with inert gas;

- warming up the print chamber and polyamide powder.

Next, the printing process is started, as a result of which point-by- layer selective laser sintering of the polyamide powder occurs in accordance with the program specified in the file.

During layer-by-layer sintering of polyamide powder, micropores are formed between the layers as a result of inhomogeneous melting of powder particles.

As a result of the use of polyamide, a rough surface of the tampon is obtained (the horizontal step of irregularities is in the range from 1 to 1000 microns, and the height is from 0.01 to 10 microns).

Next, take out the finished tampon and clean it from the remnants of powder particles by either blowing with compressed air or by mechanical shaking off.

Next, the finished tampon is checked for compliance with the specified characteristics, for example, by visual inspection, measurement.

Receive the declared tampon (Fig. 3).

Further, the applicant gives an example of the use of the claimed tampon.

The claimed tampon is used, for example, as follows.

When collecting chemical, biomaterials from the mucous membranes from the patient, the claimed tampon is introduced into the cavity with the mucous membrane. Due to the small diameter of the tampon, it easily enters and exits the cavities with mucous membranes.

When introduced, the spring part of the tampon expands and captures between the coils and the rod, as well as into the micropores, chemical, biomaterial.

After removing the tampon from the cavity, the spring part is manually compressed with the maximum extraction of the collected chemical, biomaterial.

In addition, if necessary, additional extraction of chemical and biomaterial from micropores is possible using known physical and chemical methods, for example, dissolution, adsorption, etc.

The extracted chemical and biomaterial is applied, for example, to a Petri dish for further research.

Thus, from the foregoing, it can be concluded that the applicant has achieved the goals and the claimed technical result , namely, a tampon has been developed for collecting and applying chemical and biomaterials, providing an increase in the volume of collection of chemical and biomaterials.

The claimed technical solution complies with the "novelty" requirement of patentability for inventions, since from the prior art investigated by the applicant the set of features given in the independent claim has not been identified.

The claimed technical solution meets the requirement of patentability "inventive step" for inventions, since the state of the art investigated by the applicant has not revealed the totality of the features given in the independent claim and the totality of the obtained technical results.

The claimed technical solution meets the condition of patentability "industrial applicability" for inventions, since the claimed technical solution can be implemented in industry by using materials, equipment and technologies known from the prior art.

Claims (1)

A tampon for collecting and applying chemical, biomaterials made of a polymer powder material, containing a rod consisting of a holder in the form of a thickened lower part and a thinner upper part ending in a tip, characterized in that the thinner upper part ending in a tip is additionally equipped with one piece the attached spring part, curled, respectively, around the thinner upper part and directed towards the thickened part - the holder, while polyamide is used as a polymer powder material, which after printing has a porosity of up to 20% of the material volume.

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