RU2629603C1 - Elastic antibacterial material composition - Google Patents

Abstract

FIELD: pharmacology.

SUBSTANCE: invention relates to a composition of elastic antibacterial material comprising 100 wt parts of butadiene-styrene thermoplastic elastomer, type SBS, with a bound styrene content of 15-40 wt %, 1.0-10.0 wt parts of biodegradable thermoplastic selected from L-, D,L- or D-polylactide, poly(3-hydroxy)butyrate, and 0.1-1.0 wt parts of surfactant, which is a quaternary organic ammonium salt with a length of at least one hydrocarbon radical of at least C7.

EFFECT: increased mechanical strength and adhesion to the coated material when creating a composition for the manufacture of elastic articles or elastic antibacterial coatings based on butadiene-styrene thermoplastic elastomers that prevent bacterial colonies formation and possesses a stable prolonged antibacterial effect.

3 cl, 3 tbl, 7 ex

Description

The invention relates to the field of highly filled elastomeric products, namely, to obtain compositions for coatings designed to protect products from polymeric materials (rubbers, thermoplastics, thermosets, thermoplastic elastomers) from the attachment of bacteria and the development of bacterial colonies on the surface of products.

Currently, a significant problem is the uncontrolled reproduction and colony formation of bacteria on the surface of a number of products, including food and medical purposes. Bacterial colonies contribute to the spread of infection, damage to equipment, food, etc., provoke difficulties in the operation of products and equipment due to the need for regular sterilization. In some cases, for example, during colony formation on packaging materials, regular sterilization is not possible; in some cases, sterilization is undesirable or fundamentally impossible. In this regard, the development of protective antibacterial coatings that protect products from attachment and reproduction of bacteria for a long time after primary sterilization or without sterilization in general is an important area in materials science.

Known antibacterial base, suitable, including, for antimicrobial coatings based on elastomers, which is a peptide agent distributed in a polymer base and capable of being released [patent EP 2431429 A2, publ. 03/21/2012].

A significant advantage of the compositions is the combined antibacterial and antifungal (fungicidal) activity, and the disadvantage is the high cost of biosynthetic protein raw materials, as well as the difficulty of introducing into the elastomeric base.

The prior art antimicrobial polymer coating composition suitable for medical use, consisting of a polymer base, water-soluble and water-insoluble carboxylic acids, an antimicrobial agent - oligodynamic metal salts and sulfonylureas, dissolved in a common solvent [US patent 4933178 A, publ. 06/12/1990].

An advantage of the composition is the gradual release of metal ions providing an oligodynamic effect. The disadvantage is the need for mutual dissolution of all components of the composition, which makes it difficult to choose a polymer base, especially in the case of elastomers.

Also known is a composition based on an ethylene vinyl acetate copolymer containing triclosan as an antimicrobial agent and non-steroidal anti-inflammatory drugs in combination with chelating agents as inhibitors of bacterial adhesion [US Pat. No. 8,105,520 B2, publ. 01/31/2012, - the number was confused].

This composition is distinguished by its universality of use, including suitability for coating by extrusion and from a solution in an organic solvent. The disadvantage is that the action of these antimicrobial components decreases over time due to depletion of the surface layer of the material due to leaching and delayed diffusion of the components in the polymer matrix.

The closest analogue of the present invention, taken as a prototype, is the composition of an elastic antimicrobial (antibacterial) material containing a three-block thermoplastic elastomer, a plasticizer and an antimicrobial system comprising a precipitating agent and a precipitated antimicrobial agent based on silver compounds [patent application US 20050220896 A1, publ. 10/06/2005]. The composition includes thermoplastic elastomers such as SEEPS, SEBS or SEPS, a plasticizer, a precipitating agent and an antimicrobial agent based on silver compounds.

The advantage of the composition is the "supply" of the antimicrobial agent to the active surface (in contact with the working medium) by isolating and sedimenting the antimicrobial agent during molding, which gives the material good antimicrobial properties. The disadvantages of the composition are both a decrease in the concentration of the antimicrobial agent in the material upon contact with the medium, and the inability to use protective coatings and, in addition, the negative effect of silver compounds on the vital functions of the human body and warm-blooded animals.

The technical result of the claimed invention is to increase the mechanical strength and adhesion to the coated material when creating a composition for the manufacture of elastic products or elastic antibacterial coatings based on styrene-butadiene thermoplastic elastomers, which prevent the colony formation of bacteria, and having a stable prolonged antibacterial effect.

The specified technical result is achieved by the composition of an elastic antibacterial material, including butadiene-styrene thermoplastic elastomer of the SBS type with a content of bound styrene of 15-40% by weight, a biodegradable thermoplastic selected from L-, D, L- or D-polylactide, poly- (3-hydroxy ) butyrate, and a surfactant, which is used as a quaternary organic ammonium salt with a length of at least one hydrocarbon radical of at least C ₇ , in the following ratio of components, mass. hours (mass parts):

Styrene butadiene thermoplastic elastomer 100.0 Biodegradable Thermoplastics 1.0-10.0 Surfactant 0.1-1.0

In one preferred embodiment of the invention, the composition further comprises a plasticizer, which is used aliphatic or aromatic oil in the amount of 5.0-50.0 wt.h.

In another preferred embodiment, the composition further comprises a solvent in an amount of 400.0-600.0 parts by weight

Butadiene-styrene thermoplastic elastomer SBS type with the content of bound styrene 15-40% of the mass. the following grades can be used: DST-30-01, DST-30R-01 manufactured by Voronezhsintezkauchuk OJSC; LG 501, LG 411, LG 604 manufactured by LG Chem; or KTR 101, KTR 201 manufactured by Kumho Petrochemical.

The principle of operation of the invention is to create a semi-liquid transition layer on the surface when the material obtained from the developed composition is in the aqueous medium. The transition layer is formed due to insignificant destruction of the outer layer of the material when there is a biodegradable thermoplastic in it that can hydrolyze. In the presence of bacteria or other microorganisms in the medium, the semi-liquid transition layer serves as protection against cell attachment due to: a) the lack of an accessible solid surface necessary for cell attachment, b) the release of a surfactant that reduces the adhesive properties of the appendages of microbial cells and has direct antibacterial activity, c) maintaining the concentration of surfactants at the working level due to the slow hydrolysis of the retaining surfactant polymer matrix. The semi-liquid transition layer is self-renewing when it is in the working environment, not allowing bacteria to prepare the surface for attachment due to waste products.

The composition is made by mixing the components in an extruder or batch mixer or by co-dissolving the components in an organic solvent.

The following are examples of the invention, which are illustrative and do not limit the possibilities of carrying out the invention.

Examples 1-5

Compositions consisting of 100.0 parts by weight styrene-butadiene thermoplastic elastomer (BSTEP), 5 parts by weight plasticizer, 1.0-10.0 parts by weight polylactide or polyhydroxybutyrate and 0.5-1.0 parts by weight A surfactant is obtained by a one-time loading and single-stage mixing for 5 min in a batch type thermoplastics mixer at a temperature of 150 ° C. Compositions after unloading are pressed into plates with a thickness of 1 mm using a hydraulic press at a temperature of 150 ° C.

Samples are cut from the plates to determine the physical and mechanical characteristics. Tests are conducted according to GOST 270-75. Physico-mechanical properties for both the present compositions and the prototype depend mainly on the type of BSTEP used. However, a significant change in the properties of the compositions with the addition of modifying components should be taken into account.

Also, 2 × 2 cm samples were cut from the plates to determine the adhesion of model microorganisms (Escherichia coli and Staphylococcus aureus) upon contact of the sample with a suspension of viable bacterial cells. Samples are placed in a suspension of the corresponding bacteria in a Petri dish for a period of 2 seconds to 30 days. After the specified time, an optical microscope counts colony forming units (number of CFU).

The compositions are shown in table 1.

The results of physical and mechanical tests are shown in table 2.

The results of measuring the adhesion of model bacteria are shown in table 3.

From the results shown in table 2, it can be seen that all the examples considered exceed the prototype in basic physical and mechanical indicators.

From the results shown in table 3, it can be seen that, despite the equally successful resistance to bacterial attachment up to 6 days, the prototype is inferior to the composition developed in the present invention with a longer residence of the material in an infected environment.

Claims (4)

1. The composition of the elastic antibacterial material, including butadiene-styrene thermoplastic elastomer of the SBS type with a content of bound styrene of 15-40% by weight, biodegradable thermoplastic, selected from L-, D, L- or D-polylactide, poly- (3-hydroxy) butyrate and a surfactant, which is used as a quaternary organic ammonium salt with a length of at least one hydrocarbon radical of at least C ₇ , in the following ratio of components, mass. hours (mass parts): Styrene butadiene thermoplastic elastomer 100.0 Biodegradable Thermoplastics 1.0-10.0 Surfactant 0.1-1.0 2. The composition according to p. 1, characterized in that it further comprises a plasticizer, which is used as an aliphatic or aromatic oil in the amount of 5.0-50.0 mass. hours 3. The composition according to p. 1, characterized in that it further comprises a solvent in an amount of 400.0-600.0 mass. hours