SU1585761A1 - Method of determining adhesive properties of implantation materials - Google Patents

Abstract

The invention relates to medicine, namely to endoprosthetics, and can be used to determine the biocompatibility of implant materials outside the body. The purpose of the invention is to simplify and reduce the time it takes to determine properties. For this, a certain amount of vitreous body is collected from the fundus of animals, applied to the surface of the implant material and distributed within a certain circumference. In parallel, the same amount of water is applied to the cover glasses; within the same circumference, the rate of drying of the vitreous body on the implant material and the water on the glass is compared. Moreover, the higher the adhesiveness of the implant material, the more pronounced is the collapse of the vitreous skeleton, i.e. the drying rate decreases.

Description

The invention relates to medicine, namely to endoprosthetics, and can be used to determine the biocompatibility of implant materials outside the body.

The aim of the invention is to simplify and reduce the time to determine the adhesive properties of materials intended for implantation.

The method is carried out as follows.

From the eye block of animals, a certain amount of vitreous is drawn into graduated tubes. Measured fragments of the vitreous body are placed on the surface of the implantation material and

The limits are within a certain circle. In parallel, the same amount of water within the same circumference is applied to the cover glasses. The glasses are then placed upside down in separate Petri dishes on paper filters. The cups are half crushed. The rate of drying of the vitreous body on the implant material and water on the glass is compared. A quantitative indicator (indicator of drying) characterizing the degree of adhesion of the alloplastic material is obtained by the ratio of the drying time of the vitreous body on the implantation material to the time of water drying (.

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implant implantation motherness; la, the more pronounced is the collapse of the vitreous Stoov, which is a collagen fibrils covered with hyaluronic acid adsorbed by the material. Since the core is a structure that retains water in the vitreous, its collapse leads to a reduction in the drying time of the vitreous body. Therefore, with increasing adhesion of the implant material, the rate of drying decreases. It is also possible to permanently record 55 differences in the drying rate of the vitreous body on the implant material in comparison with water by graphically recording the difference in the rate of change in weight of samples of the vitreous 2P body on these objects using two-plate analytical scales For this, the drying of the vitreous body on the implant material and the water on the glass is carried out on different 25 cups of damping analytical s, but the registration deviation arrows weights conducted every 5 min. Measurement of the mass of the vitreous body and water in the process of vysy-. Hani allows you to expand the possibilities of the method, since it becomes possible to analyze additional parameters of the resulting graphical record.

Example 1. The adhesive properties of four materials intended for the manufacture of plantants were investigated: rubber-based siloxane rubber SKTN-bB-MED; siloxane rubber based on rubber SKTN-f-MED; polyurethane Vitur; polymethylmethacrylate (USA). On the glass coated with polymers, scratch a circle with a diameter of 15 mm, then apply 50 µl of the rabbit vitreous body and distribute it with a dissecting needle within the specified circle. In parallel, the same amount of water within the same circumference is applied to clean glass. Glasses with a vitreous body and water are placed on different cups of the VLA-200 (USSR) damping analytical balance and dried at room temperature with simultaneous graphic 35

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scrolling the arrow weights. For comparison, the adhesiveness of the said implant materials was also determined by the prototype method. The results of the registration of one of the drying parameters, the dryness steepness, are presented in comparison with the data on the prototype in Table 1.

From Table 1 it follows that there is an inverse relationship between the drying parameter and the relative rate of adhered platelets. With a decrease in the adhesiveness of the implant material, the dryness index increases. Comparison of both methods shows the possibility of using the proposed method instead of the method for determining OPAT.

Example 2. This is the same as Example 1, but the results of drying are calculated using M

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. Results in comparison

data obtained after determining the adhesiveness of the implant material of the prototype are summarized in

Table 2.

From Table 2 it can be seen that there is an inverse relationship between the indicator obtained by the proposed method on various polymers and the OPAT value. This is an indication of. that the differences in the adhesive properties of materials can be determined by the proposed method. When this is what

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Zivnost implant material. The accuracy and sensitivity obtained in the proposed method is not lower than in the prototype, and amounts to from 3 to 10% in the implementation of both methods.

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The proposed method makes it possible to simplify the determination of the adhesive properties of implantation materials, the research time is reduced by a factor of L, and its implementation does not require expensive equipment. When implementing the method, it is possible to use the vitreous body of various animal species and human cadaveric, which makes it more accessible and simplifies the determination of the adhesive properties of implant materials. Biological material can be cold preserved and stored for a long time. A way can find

use in areas of medicine where there is a need for the selection of materials for endoprostheses, for example, in ophthalmology, cardiology, hemotransfusion, in vascular surgery, etc.

Claims (1)

Invention Formula Method for determining the adhesive properties of implant materials by preparing the substrate, making contact of the substrate with image 158 1585761 This implant material is followed by measuring the extent of substrate binding by the sample, characterized in that, in order to simplify and speed up the process, a vitreous body is used as a substrate, which is applied to the sample and dried at 15 to 45 ° C, and The degree of bonding of the vitreous body to a sample is determined by the rate of drying in comparison with the rate of drying of the same mass of water under the same conditions. Table 1 . Relative Tp / Tg-1 platelet aggregate index (PDTT) 5.30 + 0.292.90 + 0.08 5.60 t 0.101.80 + 0.06 6.90 ± 0.101, 0.06 11.4 + 0.321.00 ± 0.07 T a b e c ia 2 OPAT  SUKH 0.70 + 0.052.90 ± 0.08 1.60 + 0.10 .. 1.80 + 0.06 1.80tO, 101.60 + 0.06 3.20 + 0.101, OOiO, 07