RU2679144C1 - Viscose based carbon filament production method for the glaucoma surgical treatment - Google Patents

Abstract

FIELD: medicine.SUBSTANCE: invention relates to medicine. Disclosed is the viscose-based carbon filament production method for the glaucoma surgical treatment, including the viscose-based filament heat treatment, produced carbon filament activation in the COflow at 900 °C for 45 minutes with the gas consumption of 20 l/h, its surface dressing in 40 % glucose solution and sterilization with gamma irradiation of 25 Mrad in the packaged form, characterized in that before the heat treatment, the viscose filament is washed in the sodium hyposulfite aqueous (15 %) solution at a temperature of 110 °C and drying in the ventilated drying chamber, and the heat treatment is carried out in two stages: carbonization to the temperature of 400 °C, high-temperature treatment is carried out with continuous transportation through the thermal heating zone in an inert atmosphere at temperature of 1,600 °C.EFFECT: invention allows to achieve the persistent hypotensive effect in antiglaucomatous operations, when using appotransplants, used as the drains.1 cl

Description

The present invention relates to medicine, namely to surgical ophthalmology - the treatment of glaucoma.

One of the most important problems in ophthalmology is the treatment of glaucoma, which is medically incurable. Currently, laser treatment is widely used, the essence of which is the formation in the biological tissue of the "groove" for the outflow of fluid from the bottom of the eyeball, which closes the optic nerve. Laser treatment is the most gentle in eye surgery, but, unfortunately, this method is only effective for a short time.

In world practice, in the treatment of glaucoma, surgical treatment using drainage materials is used. Drainage surgery in this case is most effective, but the used drainage materials are not without drawbacks. The use of appotransplants used as drains has opened up new possibilities in achieving a stable hypotensive effect in anti-glaucomatous operations (1, 2, 3, 4). Biological compatibility of drainage materials is considered as the absence of biochemical reactions with direct and prolonged contact with living tissues. From this point of view, carbon materials satisfy all the requirements for drainage materials, the main of which are the absence of toxicity and carcinogenicity .; lack of extractable products.

Known carbon microdrainage (5) (patent for a utility model of the Russian Federation No. 81894) is a thread 25-30 mm long, with a diameter of 100-150 microns from carbon fiber cellulose, previously heat-treated at 1000 ° C and activated in a stream of CO ₂ at 900 ° C with a carbon dioxide flow rate of 20 l / h, the thread must be aged for 1 min in a 40% glucose solution before direct use. The disadvantages include fragility of carbon fiber, which makes it difficult to actively use this material as microdrainage.

The closest is a method of producing carbon fiber microdrainage for ophthalmic surgery (6) (RF Patent No. 2562541), including heat treatment of viscose-based filament, activation of the obtained carbon filament in a gas stream and impregnation of it in glucose solution, characterized in that the heat treatment temperature the thread is 1700 ° C, and activation is carried out in a stream of air at a temperature of 600 ° C for 45 minutes. In this case, it is sterilized in a hermetically sealed form, gamma is sterilized by irradiation with a dose of 25 Mrad.

The objective of the present invention is to develop a method for producing carbon fiber material based on viscose for the surgical treatment of glaucoma, from which carbon drainage is made, characterized by biocompatibility, durability, with high functional characteristics, providing drainage of fluid from the bottom of the eyeball in the surgical treatment of glaucoma.

The task is implemented in a method for producing a carbon fiber based on viscose for the surgical treatment of glaucoma, including heat treatment of a thread based on viscose, activation of the obtained carbon fiber in a stream of CO ₂ at 900 ° C for 45 minutes with a gas flow rate of 20 l / h, surface finishing it in a 40% glucose solution and sterilization with gamma irradiation of 25 Mrad in a packaged form, characterized in that before heat treatment, the viscose filament is washed in an aqueous (15%) sodium hyposulfite solution at a temperature of 110 ° C and drying in a ventilated drying chamber, and the heat treatment is carried out in two stages: carbonization to a temperature of 400 ° C, high-temperature processing is carried out with continuous transportation through the heat-heating zone in an inert atmosphere at a temperature of 1600 ° C.

Currently, the production of carbon fiber materials used in ophthalmology is carried out through controlled processes for the preparation of raw materials - organic fiber materials, their heat treatment and activation. As organic fibrous materials, it is most preferable to use viscose. Products made of carbon materials based on viscose have the longest climatic stability, biocompatibility, and non-wetting. One of the urgent problems of ophthalmic surgery is reflex glaucoma, including post-traumatic. This disease is characterized by increased activity of human tissue to scarring, therefore, increased demands are placed on the carbon fiber used as drainage, eliminating coarse scarring of the eyeball drainage system and the formation of ways for the fluid to escape from the eye during surgery. The structural features of the carbon drainage system are that the thread of the carbon fiber material has a capillary structure, that is, it is a drainage itself, has properties that allow the outflow of fluid from the eyeball to easily and freely pass. Thus, carbon threads obtained with the appropriate technological parameters will allow to obtain medical drainage products with a set of desired properties. The technological chain of operations for the production of carbon fiber materials depends on the area of their application, specifically on the requirements for the physicomechanical characteristics of the final product.

The problems of manufacturing carbon fiber material from viscose are caused by the peculiarities of its chemical structure, which complicate its technologically simple conversion into carbon material. The thermochemical transformation of viscose fibrous material into carbon occurs as a result of a multistage strictly regulated process (6, 7) (RF Patents No. 2502836, 2520982). In addition, viscose fiber materials have a heterophasic structure, that is, the presence of crystalline and amorphous regions in the fiber. Structural heterophase, as shown by the results of experimental studies, is the most significant negative factor in the process of obtaining carbon fiber materials with stable properties. The structure of viscose fiber materials is very variable and depends on a large number of factors of the numerous stages of the process of their preparation.

When stored on the surface of viscose fiber materials, a dense keratinization layer is formed, which complicates further processes of their processing. The technical feasibility of the initial operation of washing viscose material is determined by the fact that the viscose fiber materials are processed in the process of obtaining various substances - modifiers, which are introduced either into a precipitation bath or into a viscose solution, in addition, lubricants and preparations are applied to the surface of the formed fibers as for improving their formability, and to improve textile processing in the thread. The content of these compounds does not improve the processing of viscose fiber materials into carbon. The primary operation is washing the viscose yarn for 12 minutes in (15%) aqueous sodium thiosulfate at a temperature of 110 ° C and drying in a ventilated drying chamber. An increase in the concentration of an aqueous solution of sodium thiosulfate and the temperature of the solution in which the viscose material is washed increases the intensity of the washing process, promotes preliminary relaxation of the fibrous material, and creates the prerequisites for using this raw material as a medicine. The numerical values of the processing parameters in an aqueous solution of sodium thiosulfate are determined experimentally.

Carbonization is carried out to a temperature of 400 ° C in heat- and gas-insulated from one another at least three heating zones, removing volatile products directly from the zones of their formation; high-temperature processing - graphitization, is carried out with continuous transportation through the zone of thermal heating in an inert medium at temperatures of 1600 ° C. In the practice of producing carbon fiber material, the parameters of high-temperature processing of graphitization range from 1000 ° C to 3000 ° C, depending on the area of its application. In the proposed technical solution, the optimum temperature for producing carbon fiber material is 1600 ° C, this temperature value provides the density, chemical purity, sorption capacity, strength necessary to obtain a drainage system used in the surgical treatment of glaucoma. Higher temperatures of the final processing of the fibrous material lead to a decrease in the sorption capacity and specific surface of the material; The density of the obtained carbon fiber material is 1.42 g / cm ³ , the carbon content is not less than 99.93%.

Then, the obtained carbon fibrous material undergoes surface activation in a stream of CO ² at 900 ° C with a carbon dioxide consumption of 20 l / h for 45 minutes, due to this it increases its sorption capacity from 0.6 to 170 cm ³ / g; specific surface area increases from 0.7 to 700 m ² / g; the density increases to 1.84 g / cm ³ .

A viscose-based carbon fiber for the surgical treatment of glaucoma is a 2440 tex multifilament yarn with a filament diameter of 7-9 microns. However, after conducting surface activation, its finely divided hairiness is noticed, which creates certain inconveniences during surgical operations. To eliminate this drawback, it is subjected to surface sizing in a 40% glucose solution. This type of sizing dissolves after surgery in a short time.

After surface sizing, a viscose-based carbon fiber for the surgical treatment of glaucoma is sealed in plastic bags and gamma sterilized with a dose of 25 Mrad. Sterilization allows you to achieve the necessary medical purity of the proposed facility.

The proposed technical solution made it possible to achieve a persistent antihypertensive effect in anti-glaucomatous operations, using appotransplants used as drains.

The viscose-based carbon fiber for the surgical treatment of glaucoma obtained by the proposed method was tested in the surgical treatment of glaucoma at the Moscow Scientific Research Institute of Eye Diseases named after Helmholtz Federal Agency for High-Tech Medical Care, as part of a cooperation agreement with NIIgrafit JSC.

Information sources

1. A.V. Stepanov, P.I. Zolkin, U.S. Gamzaeva “Prospects for the use of high-tech carbon material as a drainage in glaucoma surgery” ROZH, 2017, vol. 10 No. 4 p. 63-67

2. V.V. Neroev, V.P. Bykov, O.I. Kvasha, T.A. Belevtseva “Surgical treatment of glaucoma by microdraining. Literature Review »Clinical Ophthalmology, 2009, Volume 10, No. 3, p. 113-116.

3. P.I. Zolkin, V.S. Ostrovsky “Carbon materials in medicine” Metallurgizdat, 2014, p. 143.

4. Gorina V.A., Cheblakova E.G., Zolkin P.I. “The effect of heat treatment on the specific surface and porous structure of viscose-based carbon fibers” Izvestiya VUZov, Powder Metallurgy and Functional Coatings, 2012, No. 4, p. 62-65.

5. RF patent for utility model of the Russian Federation No. 81894 IPC A61M 27/00, publ. 04/10/2009 Bul. Number 24.

6. RF patent No. 2562541, IPC A61M 27/00, publ. 09/10/2015 Bull. Number 25.

7. RF patent for utility model No. 81894, IPC A61M 27/00, publ. 04/10/2009 Bull. No. 10.

8. RF patent No. 2502836, IPC D01F 9/16, publ. 09/10/2013 Bull. Number 25.

9. RF patent 2520982, IPC D01F 9/16, publ. 06/27/2014 Bull. Number 18.

Claims (1)

A method for producing viscose-based carbon fiber for the surgical treatment of glaucoma, including heat treatment of viscose-based fiber, activation of the obtained carbon fiber in a stream of CO ₂ at 900 ° C for 45 minutes with a gas flow rate of 20 l / h, surface sizing of 40% glucose solution and sterilization by gamma radiation of 25 Mrad in a packaged form, characterized in that before heat treatment, the viscose filament is washed in an aqueous (15%) sodium hyposulfite solution at a temperature of 110 ° C and dried in a ventilated drying chamber and the heat treatment is carried out in two stages: carbonization to a temperature of 400 ° C, high-temperature treatment is carried out with continuous transportation through the heat-treatment zone in an inert atmosphere at a temperature of 1600 ° C.