RU2642303C1 - Polymeric composition for application on endoprostheses for reconstructive surgery - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: polymeric composition for application to an endoprosthesis contains 2-10 wt % of water-soluble polymer, 10-15 wt % of antimicrobial component of 3-methacryloxysulfolane, the rest is ethyl alcohol.

EFFECT: invention allows to expand the assortment of compositions for application to endoprostheses for reconstructive surgery, the spectrum of action due to the manifestation of antimicrobial and anti-inflammatory effect, the operational possibilities due to the applicability for both meshes and threads while simultaneously providing improved processability of polymeric composition application to the endoprosthesis.

2 cl, 6 ex

Description

The invention relates to medicine, namely to polymer compositions for application to endoprostheses in the form of non-absorbable surgical sutures and non-absorbable surgical nets for reconstructive surgery.

The prior art composition adopted for the prototype for applying to the mesh endoprosthesis according to the patent of the Russian Federation No. 2292224 (publ. 01/27/2007), containing a water-soluble polymer, an antimicrobial component and an organic solvent.

The known composition contains as an antimicrobial component the substance of poviargol, which is a water-soluble silver-containing bactericidal composition based on highly dispersed metallic silver stabilized with the synthetic polymer collidone.

The mechanism of action of silver on a microbial cell, in the light of modern data, is that silver ions or nanoparticles are sorbed by the cell membrane. The cell remains viable, but some of its functions are violated, for example, division (bacteriostatic effect). Silver penetrated into the cell inhibits the respiratory chain enzymes, and also divides the processes of oxidation and oxidative phosphorylation, as a result of which the cells die (bactericidal effect) [Blagitko EM, Burmistrov VA, Kolesnikov AP and others. Silver in medicine. - Novosibirsk, Science Center, 2004. - 254 p.].

However, there is no reliable information on the accumulation and removal of silver ions or nanoparticles from the human body. The use of sufficiently high concentrations of silver with a toxic effect for application to the endoprosthesis as an antimicrobial component can lead to inflammation of the patient’s tissues and the formation of a purulent necrotic focus, which reduces the benefit of the pronounced antimicrobial activity of the prototype composition and thereby reduces the effectiveness of the endoprosthesis with a known composition coverings.

A significant amount of polyvinylpyrrolidone (excipient) in the composition, readily soluble in liquid media, leads to the rapid ablation of the silver-containing coating from the surface of the endoprosthesis, and, therefore, causes an insufficiently long period of antimicrobial action of the coating.

In the manufacture of an endoprosthesis coated with the composition of the prototype, drying with hot air at a temperature of 60-80 ° C is required to fix a large amount of auxiliary substance on the surface of the endoprosthesis. The need to use elevated temperature complicates the process of applying the composition, reduces its manufacturability, increases the cost of the final product and labor costs.

Moreover, the known composition is suitable exclusively for application to the endoprosthesis in the form of a mesh, the application for monofilament is not considered in the description of the prototype, since the known composition is practically not retained on monofilaments and does not penetrate into the threads due to the specificity of its constituent components. Thus, the known composition has reduced operational capabilities.

The objective of the proposed technical solution is to create a formulation of a polymer composition for application to endoprostheses for reconstructive surgery, expanding the range of formulations for this purpose, the spectrum of action (not only antimicrobial focus, as in the prototype, but also anti-inflammatory effect), operational capabilities due to applicability for application both on the nets and on the threads by creating conditions for the penetration of the components of the composition into the structure of the threads while ensuring claimed composition increased processability in application of the composition by reducing the endoprosthesis in its quantitative content of adjuvant.

The problem is solved by the proposed polymer composition for application to endoprostheses for reconstructive surgery containing a water-soluble polymer, an antimicrobial component and an organic solvent. The peculiarity lies in the fact that the composition as an antimicrobial component contains 3-methacryloxysulfolane, and as an organic solvent - ethyl alcohol, in the following ratio of components, mass. %:

Water soluble polymer 2-10 3-methacryl oxysulfolane 10-15 Ethanol Rest

In particular, the composition as a water-soluble polymer contains medical high molecular weight polyvinylpyrrolidone or a mixture thereof with polyethylene oxide-400 in a ratio of 2: 1.

The use of the first alternative is preferably when applying the inventive composition to the endoprosthesis in the form of a mesh to improve the uniformity of application, and the second is preferably when applying the inventive composition to the endoprosthesis in the form of a thread to maintain its elasticity during storage and use.

A comparative analysis shows that the claimed composition differs from the prototype in another antimicrobial component - 3-methacryloxysulfolane (in the prototype - the substance of poviargol containing highly dispersed metallic silver and poly-N-vinylpyrrolidone as a stabilizer); another organic solvent is ethyl alcohol (in the prototype distilled water); lower quantitative content of the main active substance and excipient - a water-soluble polymer.

The prior art does not know the technical solution to the problem in which the proposed combination of features would take place.

The inventive composition is suitable for application to endoprostheses in the form of non-absorbable surgical sutures, both hollow and monolithic, and nets, both fine and coarse.

The inventive composition is suitable for application, in particular, on synthetic threads of polyethylene terephthalate or polycaprolactam.

The inventive composition is suitable for application, in particular, on a mesh made of polypropylene or polyvinylidene fluoride yarns.

The use of ethyl alcohol as an organic solvent improves the incorporation of 3-methacryloxysulfolane inside monofilament or mesh threads and allows it to be fixed in the endoprosthesis structure, and not only on its surface, using polyvinylpyrrolidone or its mixture with polyethylene oxide-400 in the ratio 2: 1, as in the prototype , ensuring minimization of leakage and evaporation of the active substance together with the polymer outside the zone of surgical intervention in the environment. In addition, the stability of the properties of endoprostheses during long-term storage is achieved.

The prior art it is known that sulfolane derivatives exhibit anti-inflammatory effect - RF patents No. 2123003, publ. 12/10/1998, No. 2156140, publ. 09/20/2000, No. 2526188, publ. 08/20/2014, and as an antiflogistics are part of medical adhesives.

The studies conducted by the applicant (a copy of protocol No. 149 of September 23, 2016 is attached) unexpectedly showed that 3-methacryloxysulfolane has a pronounced antimicrobial activity.

It should be noted that at present, antibiotics are most common as substances with both anti-inflammatory and antimicrobial effects.

Information on the manifestation of the double action of 3-methacryloxysulfolane in the prior art is not found.

Going beyond the declared limits of the content of components in the proposed composition is impractical, since the ratio of the components in the composition is optimal and is selected to ensure the necessary level of the entire complex of properties of the polymer composition for application to endoprostheses for reconstructive surgery.

The invention is illustrated by the following examples of specific performance.

The inventive composition is obtained by mixing the components using a magnetic stirrer at room temperature. In particular, to speed up the process of dissolution of polyvinylpyrrolidone in alcohol, their mixture is heated to a temperature of 30-40 ° C.

Example 1. 75.0 g of ethyl alcohol, 10.0 g of polyvinylpyrrolidone are placed in a 250 ml beaker and stirred until the latter is completely dissolved, then 5.0 g of polyethylene oxide-400 and 15.0 g of 3-methacryloxysulfolane are added and mixed until a clear solution. The resulting composition is applied using, for example, a Nanospider ™ NS 1WS500U unit, onto a mesh material of a size desired by the consumer. Then carry out drying with warm air at a temperature of 30 ° C for 60 minutes. The resulting endoprosthesis is packaged for shipment to the consumer. As non-absorbable mesh material used in surgical practice material from polyvinylidene fluoride monofilaments.

Example 2. The process is carried out analogously to example 1, while as a non-absorbable mesh material used in surgical practice material from polypropylene monofilament.

Example 3. In a 250 ml beaker, 84.0 g of ethanol, 6.0 g of polyvinylpyrrolidone are placed and stirred until the latter is completely dissolved, then 10.0 g of 3-methacryloxysulfolane is added and mixed until a clear solution is obtained. The resulting composition is applied using, for example, a Nanospider ™ NS 1WS500U unit, onto a mesh material of a size desired by the consumer. Then carry out drying with warm air at a temperature of 40 ° C for 40 minutes. The resulting endoprosthesis is packaged for shipment to the consumer. As non-absorbable mesh material used in surgical practice material from polyvinylidene fluoride monofilaments.

Example 4. The process is carried out analogously to example 2, while the material of polypropylene monofilaments used in surgical practice is used as a non-absorbable mesh material.

Example 5. 85.5 g of ethyl alcohol, 2.0 g of polyvinylpyrrolidone are placed in a 250 ml beaker and stirred until the latter is completely dissolved, then 12.5 g of 3-methacryloxysulfolane is added and mixed until a clear solution is obtained. The resulting composition is applied using, for example, the installation of Nanospaider ™ NS 1WS500U, on the thread of the desired consumer length. Then carry out drying with warm air at a temperature of 30 ° C for 60 minutes. The resulting endoprosthesis is packaged for shipment to the consumer. As a non-absorbable surgical suture, a polyethylene terephthalate suture used in surgical practice is used.

Example 6. Into a 250 ml beaker was placed 86.0 g of ethanol, 3.0 g of polyvinylpyrrolidone and stirred until the latter was completely dissolved, then 11.0 g of 3-methacryloxysulfolane was added and stirred until a clear solution was obtained. The resulting composition is applied using, for example, the installation of Nanospaider ™ NS 1WS500U, on the thread of the desired consumer length. Then carry out drying with warm air at a temperature of 40 ° C for 40 minutes. The resulting endoprosthesis is packaged for shipment to the consumer. As a non-absorbable surgical suture, the polycaprolactam suture used in surgical practice is used.

The applicant has established the possibility of scaling the process of obtaining the claimed composition with reproducible properties on industry-existing equipment.

The shelf life of endoprostheses coated with a polymer composition of the claimed composition is 4 years. Store in a dark place at a temperature not exceeding 25 ° C.

Thus, the proposed technical solution is practically feasible, the claimed composition has a set of advantages compared to the prototype and can satisfy a long-standing need for solving the problem.

Claims (3)

1. A polymer composition for application to endoprostheses for reconstructive surgery, containing a water-soluble polymer, an antimicrobial component and an organic solvent, characterized in that it contains 3-methacryloxysulfolane as an antimicrobial component and ethyl alcohol as an organic solvent, in the following ratio of components mass. %: Water soluble polymer 2-10 3-methacryloxysulfolane 10-15 Ethanol Rest 2. The composition according to claim 1, characterized in that as a water-soluble polymer contains high molecular weight polyvinylpyrrolidone medical or its mixture with polyethylene oxide-400 in a ratio of 2: 1 by weight.