RU2314787C1 - Method for coating bone implant - Google Patents

Abstract

FIELD: medical engineering.

SUBSTANCE: method involves using titanium alloy casing coated with alumina. First, the casing is etched with hydrofluoric acid, washed with distilled water, covered with calcium ions over external casing surface. Then, alumina layer is sprayed by atomizing sapphire target with argon ions in vacuum. Alumina layer thickness is equal to 0.11-0.2 mcm. Next, calcium ions are introduced into alumina layer.

EFFECT: high quality of implant.

1 dwg

Description

The invention relates to medicine, and more particularly to dentistry.

A known method of coating a bone implant based on an alloy of titanium and coating aluminum oxide (Q-implant, Catalog of the company "TRINON TITANIUM", 1998, p. 3).

However, this method has significant disadvantages: insufficient osseointegration, slow healing of tissues, insufficient quality and effectiveness of dental care.

The technical result achieved by the invention: expanding the range of methods for creating implants, improving osseointegration, accelerating healing processes, improving the quality and effectiveness of implant and dental care for the population.

The technical result is achieved by the fact that in the method of coating a bone implant, which consists in using a case made of a titanium alloy coated with aluminum oxide, the body is initially etched with hydrofluoric acid, rinsed with distilled water, calcium ions are applied to the outer layer of the body, and then an aluminum oxide layer is applied by spraying sapphire target with argon ions in a vacuum, while the thickness of the layer of aluminum oxide lies in the range from 0.11 to 0.2 μm, then calcium ions are deposited in the layer about aluminum sida.

The set of essential distinguishing features proposed by the authors is necessary and sufficient for a definite positive achievement of the technical result.

The method is illustrated in the drawing.

The drawing indicates: 1 - the main titanium case, 2 - a layer of calcium ions in the outer layer of the titanium case, 3 - a layer of aluminum oxide, 4 - a layer of calcium ions in a layer of aluminum oxides.

The method is as follows. A method for coating a bone implant is to use a VT 1-0 titanium alloy body (1, see drawing). Initially, the case is etched with hydrofluoric acid and rinsed with distilled water. Calcium ions 2 are applied to the outer layer of the titanium body 1. Next, an aluminum oxide 3 layer is applied by sputtering a sapphire target (not shown) with argon ions under vacuum. The thickness of the alumina layer lies in the range from 0.11 to 0.2 μm. Then, calcium ions 4 are applied to the alumina layer.

The proposed method is illustrated by examples.

Example 1

A method for coating a bone implant is to use an aluminum oxide coated titanium alloy body. Initially, the case is etched with hydrofluoric acid, washed with distilled water, and calcium ions are applied to the outer layer of the case. Then, an alumina layer is deposited by sputtering the sapphire target with argon ions under vacuum, while the thickness of the alumina layer is 0.11 μm. Then, calcium ions are applied to the alumina layer.

Example 2

A method for coating a bone implant is to use an aluminum oxide coated titanium alloy body. Initially, the case is etched with hydrofluoric acid, washed with distilled water, and calcium ions are applied to the outer layer of the case. Then, an alumina layer is deposited by sputtering the sapphire target with argon ions under vacuum, while the thickness of the alumina layer is 0.2 μm. Then, calcium ions are applied to the alumina layer.

The use of the invention allows to achieve expanding the range of methods for creating implants, improving osseointegration, accelerating healing processes, improving the quality and effectiveness of implantological and dental care for the population.

Claims (1)

A method for coating a bone implant, which consists in using a case made of a titanium alloy coated with aluminum oxide, characterized in that the case is first etched with hydrofluoric acid, rinsed with distilled water, calcium ions are applied to the outer layer of the body, then an aluminum oxide layer is deposited by sputtering the sapphire target with ions argon under vacuum, while the thickness of the alumina layer is in the range from 0.11 to 0.2 μm, then calcium ions are deposited in the alumina layer.