DD210607B5 - Coated implant - Google Patents

Description

Field of application of the invention

The invention relates to coated implants for use as hemi and endoprosthesis.

Characteristic of the known technical solutions

The known implants consist according to their intended use of carbon, tantalum, titanium, alumina ceramics, organic plastics, defined alloys and other materials. An improvement of the implant properties is achieved by a compensation of the surface. In DE-OS 2324867 it is described that lithium, boron, carbon, fluorine, sodium, magnesium, silicon, phosphorus, potassium and / or calcium ions are incorporated into the surface to the tissue friendliness of the surface to increase. Although this can accelerate the growth of the tissue, the harmful influence of the implant materials that enter the implant bed by diffusion is not restricted.

This can be achieved by a passivation of the implant surface, as described in DE-OS 2838759. Here, an attempt is made, by applying a passivating layer, to combine the diffusion of the implant material ions and to create a physiologically active layer, which produces an identity of implant surface and implant bed. The application of these layers is possible only by means of expensive vacuum technology. Another disadvantage is that the adhesive strength of the layers on the implant surface and with each other, depending on the method, is not always sufficient.

Object of the invention

The aim of the invention is to provide an implant with high tissue friendliness and long service life.

Explanation of the essence of the invention

The object of the invention is to produce implants whose surface layer acts tissue-friendly with respect to the implant bed, has passivating properties with respect to the diffusion of implant material ions and has a high adhesive strength to the implant.

According to the invention, the object is achieved by providing an implant of valve metal or its alloys or of a valve metal or its alloys coated material, which is used as hemi and endoprosthesis, is provided with a passivating and physiologically active layer having an anodic oxide layer is that has arisen under spark discharge in aqueous solutions containing stimulators in the form of anions and / or cations and thermal melting as a primer.

The anodic oxidation under spark discharge is carried out according to DD-WP142360.

The aqueous electrolytes in which the anodic oxidation takes place under spark discharge contain for the ingrowth of the implant in the living body stimulators in the form of the anions phosphate, silicate, fluoride, carbonate, borate and in the form of the cations Na, K, Ca, Mg individually or their mixtures in the concentrations preferably from 0.01 to 1 mol / l. These stimulators bring about a similarity of implant surface and implant bed.

Due to the anodic oxidation under spark discharge, a significant species-specific oxide is formed. The oxide produced under process-specific plasma conditions is characterized by its characteristic surface structure with thermal fusions which are pronounced adhesion promoters. The surface structure of this oxide is adapted to the medical requirements by varying the process parameters.

These thermodynamically stable oxide modifications are firmly adhering to the implant material and resistant to corrosion, thus ensuring a long service life even in living organisms.

The preparation of the coated implants usually takes place in a one-step process of a technologically simple and uncomplicated coating.

In order to produce tissue-specific properties of the implant, a post-treatment in specific acting media, such as H ₃ BO ₃ , amino acids, antibiotics, among others, be performed.

embodiment

The invention will be explained in more detail with two examples. An aluminum-coated stainless steel shaft of an endoprosthesis receives an anodic oxide layer of ΙΟμητι thickness by means of spark discharge in an electrolyte containing 0.8 mol / l of fluoride and carbonate and 0.4 mol / l phosphate and 0.1 mol / l borate. The result is a caterpillar-like surface structure with thermal melting, in which the physiologically active ions are incorporated as stimulators. This achieves tissue-friendliness and good hardness mediation.

A coated tantalum implant has a firmly adhering, dense Ta ₂ O ₂ -containing layer with the corresponding stimulators if, according to exemplary embodiment 1, the tantalum implant was subjected to anodic oxidation by means of spark discharge.

Claims (2)

1. A coated implant of valve metal or its alloys or of a valve metal or its alloys coated material for use as hemi and endoprosthesis, which is provided with a passivating and physiologically active layer, characterized in that this layer is an anodic oxide layer which has arisen under spark discharge in aqueous electrolytes, contains stimulators in the form of anions and / or cations and thermal smelting. 2. Coated implant according to item 1, characterized in that the stimulators preferably in the form of the anions phosphate, silicate, fluoride, carbonate, borate and preferably in the form of the cations Na, K, Ca, Mg individually or in a mixture of these ions in the electrolyte in a concentration of preferably 0.01 to 1 mol / l.