RU2239421C1 - Plastic surgery-destination transplant - Google Patents

Abstract

FIELD: ophthalmology and surgery.

SUBSTANCE: transplant comprises knitted cloth of polyamide or polyester fibers, having polymer coating based on ε-caprolactam/hexamethylenediammonium adipate copolyamide and containing therapeutical preparation panaxel at specified proportions of components.

EFFECT: enabled formation of strong sclera-transplant complex and activated proliferative and reparative function of wound tissue.

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Description

The invention relates to medicine, namely to plastic surgery.

The invention is intended for carrying out scleroplastic operations with progressive myopia, retinal detachment, for facial contouring in maxillofacial surgery, for surgical repair for extensive wound defects, etc.

It is known that myopia steadily occupies one of the leading places among the causes of disability due to visual disturbances, and complicated myopia takes 2-3 places among the causes of visual impairment.

Currently, the most effective and pathogenetically substantiated method of treating progressive myopia is admittedly scleroplastic (sclero-strengthening) operations (Bushueva N.N. On indications for various methods of surgical treatment of progressive myopia and their effectiveness // Oftalmol. Zh. - 1998. - No. 1, - pp. 1-8. Bushueva NN Explant for strengthening sclera during surgical treatment of progressive myopia // Ophthalmol. Journal. -1992. - No. 2, - p. 70-73).

The most widely used transplants are cadaver tissues (broad fascia of the thigh), canned dura mater, homosclera, etc. However, a year after the operation, the donor tissue loses its elastic strength properties, being replaced by defective collagen fibers of the sclera, which is a possible reason for the further progression of myopia after surgery (EPTarutta, LDAndreyeva. A Morphological Study of the Transplants after Scleroplasty in Progressive Myopia / / Exp. Eye Res., V. 67, suppi. I. Abstr / of XIII CER, 1998, p. 68).

For contour plastic surgery of the face, with wound defects, donor tissues (fascia of the thigh, bone, skin) are also used, often with autotissues. With extensive wound defects, this becomes difficult, and in some cases impossible.

Retinal detachment to date also remains one of the most serious problems in ophthalmology. Annually, visual impairment in patients with retinal detachment ranges from 2 to 9%.

The detachment process is most often the result of perforated and contusion wounds of the eyeball, myopic disease, endocrine disorders (diabetes mellitus), etc.

The relevance of treatment of retinal detachment with an injury to the organ of vision is currently particularly increasing due to changes in the political and social situation in the country, worsening of the criminal situation, and anti-terrorist operations.

One of the main methods of treating retinal detachment is scleroplasty, both an independent type of operation and in combination with endovitreal interventions.

The materials used for surgery for retinal detachment are divided into biological and artificial.

The most common biological materials in Russia and abroad in this type of operation are cadaver tissues: homosclera, dura mater, autotissues: auricle and knee cartilage, and others.

Despite the positive results of using various biomaterials for scleroplastic operations, their main disadvantages should be noted, such as additional trauma to the patient, and the limited amount of material.

In addition, the use of donor tissues, which had previously encountered difficulties due to national and religious traditions, has recently been complicated due to the possibility of infection with specific or non-specific agents (HIV infection, hepatitis, tuberculosis, etc.), and the imperfection of methods preservation and sterilization of cadaveric tissue does not ensure its safe use.

Among artificial grafts, the most common is silicone material. Since the 60s, transplants made of silicone rubber-like material, which have become widespread both abroad and in our country, have entered into ophthalmological practice.

However, when using silicone grafts at various times after operations, complications are encountered, such as graft rejection, the formation of pressure sores with sclera perforation, the presence of pain, anterior segment ischemia syndrome, compression syndrome, graft infection and, finally, biological inertness of the material (Kiseleva O.A. ., Morozova I.V. // Bulletin of Ophthalmology - 1992. - No. 4-6, - p. 18-19).

The above-mentioned disadvantages of silicone transplants and the serious complications that develop during their use in scleroplastic surgery have led to the need to develop artificial plastic materials of a new generation, which can be replaced with connective tissue over time, sprout with blood vessels, have high elasticity, areactivity and good modeling.

Known combined graft for scleroplasty (RU 2157159, class A 61 F 9/01, publ. 10.10.2000,), which is a mesh of a lanceolate form based on nylon or polyester fibers with a mesh size of 1 × 1 mm, which is stitched on the length of the collagen thread (suture material “collagen 5.0”) in increments of 1 mm. This mesh size provides the most dense mesh, taking into account the cross-sectional diameter of the threads used. The length of the transplant obtained varies from 48 to 52 mm (depending on the length of the anteroposterior axis of the operated myopic eye), the width in the narrow part is 5 mm, and in the wide - 12 mm.

The disadvantages of this material include the practical impossibility of reproducing the same type of material shape and cell size, because firmware is done manually, non-universality of the material due to its size and poor ability to model. In addition, suture material “collagen” (catgut) is obtained from animal tissues, which means that being a “donor” product, it is not completely relieved of the above negative qualities (possible HIV infection, etc.).

As a prototype, an ABACOD ^R ophthalmic implant manufactured in a warp knitting method of polyester yarn is offered. The implant is a knitted fabric tightly rolled into a roll, which allows you to adjust its diameter by cutting the extreme section. The implant is used in the surgical treatment of retinal detachment (manufacturer: Centralny Osrodek Badawczo-Rozwojowy Przemyslu Dziewiarskiego (ABACOD ^R prospectus).

The disadvantage of this material is its lack of biological properties, for example, stimulating reparative processes in wound tissues, which is especially important with a lowered immune status of the body. In addition, this material has increased stiffness to the touch, which complicates its modeling, and has a narrowly targeted purpose - operations for retinal detachment.

An object of the present invention is to provide a graft for plastic surgery, which, for various types of surgical intervention, performs, on the one hand, the role of a structural frame material that simulates the shape of an object — sclera, face, etc., and, on the other hand, a donor of “building material” ”And an accelerator of proliferative and reparative processes in tissues.

The problem is solved in the present invention due to the fact that the graft for plastic surgery includes a knitted fabric made of polyamide or polyester fiber, which has a polymer coating based on copolyamide E-caprolactam and hexamethylene diammonium adipate containing the drug Panaxel, in the following ratio of components, wt.%% :

Knitted fabric 77.0-99.2

Copolyamide 0.50-8.0

Panaxel 0.30-15.0

The proposed transplant allows to solve the technical problem.

A knitted fabric made of polyamide or polyester fiber allows the transplant to play the role of a structural frame material. Due to the active germination of the cellular structure of the knitted fabric by the body’s tissues, a durable graft-scleral complex or graft-muscle tissue is formed, providing a long-lasting and lasting strengthening effect.

The polymer coating on the synthetic knit material has a dual function.

1) Is a donor of the drug Panaxel.

2) Fixes the structure of the knitwear and aligns it, does not allow the edges of the material to get loose and maintains the shape of the graft for a specific operation.

The introduction of Panaxel into the transplant accelerates proliferative and reparative processes in the tissues of the body.

Panaxel is a germanium-containing preparation (FSP 42 0166124101, FSP 42 0166124001) based on selective ginseng strains.

A large volume of studies of biological activity carried out with various germanium-organic compounds indicates their possible use as antihypertensive agents that reduce high blood pressure and do not affect it normally, normalize cardiac activity, have an interferon-inducing and immunomodulating effect, and also activating cell proliferation. (E.Ya. Lukevich, T.K. Gar, L.M. Ignatovich, V.F. Mironov. Biological activity of germanium compounds. Riga: Zinatne, 1990, 191 p .; EV Soloviev, VV Shcherbinin, EA Chenyshev, MV Kotrelev, SD Maltsev, SA Bashkirova, TV Tickhonovitch. Germatranes and their complexes with biologically active compounds. Xth International Conference on the Coordination and Organometallic chemistry of Germanium, Tin and Lead (ICCOC-GTL-10), Bordeaux, France, 8-12 July 2001, 1P59). Selective strains of ginseng with germanium compounds incorporated into its cells are capable of exhibiting the complex biological activity characteristic of ginseng and germanium compounds (Slepyan LI, Selected strains of Cinsend with Geo-organic compounds and its effects. Advances in Ginseng Research. Proceedings of the 7- th International Symposium on Ginseng, Sept. 22-25, 1998, Seoul, Korea, pp. 71-82).

Panaxel is a biodegradable product and contains polysaccharides, aminoglucosides, proteins, which during biodegradation can serve as a “building material” in the surgical area, which will allow proliferative and reparative processes to be activated in a dystrophically altered sclera of the eye with high myopia, as well as speed up the healing process wounds in all three phases of the wound process: inflammation, regeneration and epithelization, stimulating the formation of granulation tissue and its transformation into fibrous tissue uchsheniem morphological, biochemical and biomechanical properties of the granulation-fibrous tissue and epithelialization.

Polyester and polyamide ophthalmic fabrics are used as synthetic knitted material (“Ophthalmic polyester cloth” TU 6-13-129-2003; “Ophthalmic polyamide cloth” TU 6-13-130-2003).

For the film coating, alcohol-soluble copolyamide based on E-caprolactam and hexamethylene diammonium adipate is used in a ratio of 60:40 (OST 2224-438-02099342-93).

The copolyamide content in the graft is from 0.50 to 8.0 wt.%. At a higher copolyamide content, the graft becomes stiff and poorly modeled. The lower content does not allow to achieve the lack of effect razvorennosti edges of the graft.

For the manifestation of the therapeutic effect of the graft, a panaxel content in the material of 0.3 wt.% Is sufficient. A smaller amount does not provide the necessary therapeutic effect. The increase in the content of panaxel above 15.0 wt.% Is impractical, because dramatically increases the price of the material with almost the same therapeutic effectiveness.

The graft is obtained as follows.

The knitted fabric is treated with an alcohol solution of copolyamide with a germanium-containing preparation Panaxel in a semi-continuous installation and dried with hot air at a temperature of 140-160 ° C. The obtained material determines the physical and mechanical parameters (breaking load, elongation) and the effect of the graft on the proliferative and reparative function of tissues according to the composition of the wound exudate.

The composition of the wound exudate is determined after 6 and 12 hours by cytological examination. The material is taken according to the method of M.P. Pokrovskaya and M.S. Makarova (Wounds and wound infection; a guide for doctors under the editorship of M.I. Kuzin, B.M. Kostyuchenok. M: Medicine, 1990, p. 38-223) by manufacturing imprints on slides.

The study of drugs is carried out under a light microscope with an increase in lens 90 using an eyepiece micrometer.

The invention is illustrated by the following examples.

Example 1

2 g of copolyamide are dissolved in 996 g of ethanol, then 2 g of panaxel are added to the resulting solution.

The resulting composition is treated with a knitted polyester fabric with a density of 140 g / m ² in a semi-continuous installation and dried at a temperature of 140 ° C.

Get a graft for plastic surgery, having the following composition, wt.%:

Knitted fabric 99.2

Copolyamide 0.5

Panaxel 0.3

The properties of the obtained graft are shown in the table.

Example 2

Analogously to example 1, a graft is obtained by treating a knitted polyamide fabric with a density of 100 g / m ^{2 with a} composition containing 8 g of copolyamide and 35 g of panaxel in 957 g of ethyl alcohol. The canvas is dried at 150 ° C.

Get a graft for plastic surgery, having the following composition, wt.%:

Knitted fabric 93.3

Copolyamide 1.0

Panaxel 5.7

The properties of the obtained graft are shown in the table.

Example 3

Analogously to example 1, a graft is obtained by treating a knitted polyester fabric with a density of 160 g / m ^{2 with a} composition containing 30 copolyamide and 60 g panaxel in 910 g of ethyl alcohol. The canvas is dried at 155 ° C.

Get a graft for plastic surgery, having the following composition, wt.%:

Knitted fabric 87.0

Copolyamide 5.0

Panaxel 8.0

The properties of the obtained graft are shown in the table.

Example 4

Analogously to example 1, a transplant is obtained by treating a knitted polyester fabric with a density of 180 g / m ^{2 with a} composition containing 60 g of copolyamide and 120 g of panaxel in 820 g of ethyl alcohol. The canvas is dried at 160 ° C.

Get a graft for plastic surgery, having the following composition, wt.%:

Knitted fabric 77.0

Copolyamide 8.0

Panaxel 15.0

The properties of the obtained graft are shown in the table.

As can be seen from the table, the claimed graft for plastic surgery compared with the prototype causes the activation of proliferative and reparative functions of wound tissue. When used after 6 hours, a more pronounced reaction of neutrophil eviction is observed, accompanied by an increase in their size and an increase in phagocytic activity. In the wound exudate, the appearance of mature forms of macrophages, actively phagocytic, was also noted. Analysis of cytograms of wound exudate after 12 hours indicates a more pronounced increase in the number of neutrophils with larger sizes than when using the prototype. There is also a violent reaction from macrophages, manifested in a noticeable increase in their number and size. Thus, the plastic using the inventive graft containing the germanium-organic compound Panaxel, leads to the intensification of eviction in the area of damage to cellular elements while increasing their functional activity, which indicates the acceleration of the process of formation of connective tissue.

In addition, the claimed graft has the best physical and mechanical properties, softness, good simulability, and therefore less trauma, a wider range of uses (prevention of progressive myopia, retinal detachment, facial plastic surgery, etc.).

Claims (1)

A graft for plastic surgery, including a knitted fabric made of synthetic fiber, characterized in that the knitted fabric made of polyamide or polyester fiber has a polymer coating based on copolyamide E-caprolactam and hexamethylene diammonium adipate containing Panaxel drug in the following ratio, wt.%: Knitted fabric 77.0-99.2 Copolyamide 0.50-8.0 Panaxel 0.30-15.0