ITBO20120145A1 - ENDOOSSEO MEDICAL PLANT, DENTAL IN PARTICULAR - Google Patents

Description

ENDOOSSEUM MEDICAL IMPLANT, IN PARTICULAR DENTAL

DESCRIPTION OF THE INVENTION

The present invention is part of the technical sector relating to endoosseous medical implants, with particular reference to dental implants.

An intraosseous dental implant is inserted directly into the bone tissue, in which it is substantially fixed along its entire length.

The implant can have different shapes depending on the volume and consistency of the bone tissue in which the implant is inserted.

The most common intraosseous dental implants are the deep ones, so-called "screw" ones, comprising a first submerged portion which is stably inserted into the bone tissue, and a second emerged portion which protrudes from the bone tissue.

The prosthetic structure, i.e. dental crown, is applied to the emerged portion, commonly known as the abutment.

The emerged portion is generally independent of the submerged portion and fixed to it in subsequent times, to favor osseointegration.

In some cases the emerged portion can be made in a single body with the submerged portion.

Titanium alloys are widely used for both the submerged and the emerged portion, which allow to obtain high mechanical characteristics and resistance to wear.

The disadvantage of titanium alloys essentially consists in their poor biocompatibility, together with the ease of corrosion in a physiological environment.

The degree of biocompatibility of the substances and materials used in endosseous medical implants defines the degree of tolerance and / or acceptance of the living organism in which the implants themselves are inserted.

Titanium alloys are easily oxidizable and can create an immune reaction (antigen-antibody) by the living organism in which they are implanted.

The object of the present invention is to obviate the aforementioned problems by proposing an intraosseous medical implant, in particular a dental one, capable of guaranteeing a high degree of biocompatibility with the living organism on which this medical device is implanted.

A further object of the invention is to propose an intraosseous medical implant

relatively low cost, able to allow high mechanical characteristics and wear resistance.

The purposes indicated above are achieved by means of an endoosseous medical implant, in particular dental, comprising a first submerged portion which is inserted at least partially into the bone tissue, and a second emerged portion which emerges from the bone tissue and is associated with the first submerged portion, with the second emerged portion capable of supporting an external prosthetic structure; characterized in that the first submerged portion is made of a metal alloy having a low degree of redox and comprising a combination of primary metals such as palladium (Pd) and silver (Ag).

According to particular embodiments, the intraosseous medical implant, in particular dental, object of the invention includes one or more of the following characteristics, considered individually or in combination:

• the metal alloy provides a percentage of palladium between 20% and 80%, preferably between 25% and 75%;

• the metal alloy also includes the presence of secondary metals selected from gold (Au) and / or platinum (Pt) and / or indium (In) and / or tin (Sn);

• the metal alloy provides a percentage of silver (Ag) and secondary metals between 1% and 50%, preferably between 2% and 45%;

• the second emerged portion is made with a metal alloy having the same characteristics as the alloy used for the first submerged portion; • the first submerged portion has a substantially cylindrical or conical geometry, with the external surface preferably provided with a thread capable of stabilizing the fixation in the bone tissue;

• the first submerged portion has a blade or grid geometry;

The second emerged portion is associated with the first submerged portion by means of fixing means;

• the bone tissue includes the mandibular bone or the maxillary bone, with the prosthetic structure including a dental crown;

• the portions, first submerged and second emerged, are subjected to a stabilization heat treatment capable of eliminating gaseous substances within the crystal lattice, in order to further reduce the degree of redox reduction of the constituent metal alloy; with this heat treatment which involves the use of boron salts (B) conveyed in a thickening medium which burns without leaving residues during this treatment.

The characteristics of the invention will be highlighted in the following in which some preferred, but not exclusive, embodiments are described by way of example, with reference to the attached drawing table in which Figure 1 schematically illustrates a vertical sectional view of a plant. medical according to the invention.

With reference to the aforementioned table it is agreed to indicate with the general reference 1 the proposed intraosseous medical implant, in particular dental, comprising, according to known methods, a first submerged portion 2 which is inserted at least partially into the bone tissue 3, and a second emerged portion 4 which protrudes from the bone tissue 3 and is associated with the first submerged portion 2, with the second emerged portion 4 capable of supporting an external prosthetic structure 5.

In an innovative way, the intraosseous dental implant 1 object of the invention provides the first submerged portion 2 made with a metal alloy comprising a combination of primary metals such as palladium (Pd) and silver (Ag), with this metal alloy having a limited degree of redox capable of allowing optimal biocompatibility of the medical implant 1 following its positioning in the bone tissue 3.

Advantageously, the metal alloy with which the first submerged portion 2 is made provides a percentage of palladium between 20% and 80%, preferably between 25% and 75%.

The metal alloy may further comprise the presence of secondary metals selected from gold (Au) and / or platinum (Pt) and / or indium (In) and / or tin (Sn).

At an experimental level it has been found that the physical-mechanical characteristics of the metal alloy are optimized through the use of a percentage of silver (Ag) and secondary metals between 1% and 50%, preferably between 2% and the Second. preferred embodiment, also the second emerged portion 4 is made with a metal alloy having the same characteristics as the alloy used for the first submerged portion 2.

According to medical requirements, the first submerged portion 2 can have a substantially cylindrical or conical geometry, with the external surface preferably provided with a thread 20 capable of stabilizing the fixation in the bone tissue 3.

Alternatively, the first submerged portion 2 can be shaped according to a blade or grid geometry.

In both types, the second emerged portion 4 can be associated with the first submerged portion 2 by means of fixing means, ie the second emerged portion 4 can be made in a single body with the first submerged portion 2 by means of.

According to the cases, the bone tissue 3 can be constituted by the mandibular bone or by the maxillary bone, and the prosthetic structure 5 can be constituted by a dental crown 50.

The portions, first submerged 2 and second emerged 4, of the dental implant 1 are advantageously subjected to a stabilizing heat treatment capable of eliminating gaseous substances within the crystal lattice, so as to further reduce the degree of redox of the metal alloy. constituent.

This heat treatment involves the use of salts of boron (B), for example sodium borate, conveyed in a thickening medium which advantageously burns without leaving residues during this treatment.

By way of example, the thermal cycle is carried out in a controlled atmosphere with a temperature between 450 C and 980 <°> C, for a time of not less than about 10/15 minutes.

The heat treatment allows the elimination of any gaseous substance present in the crystal lattice of the metal alloy, consequently leading to an optimization of the chemical, physical and mechanical characteristics.

At an experimental level it was found that the aforementioned metal alloy allows an almost total elimination of the oxidation processes that involve the release of potentially toxic metal ions (metallosis).

The heat treatment renders the surface of the portions, submerged 2 and emerged 4, of the dental implant 1 biochemically inert thanks basically to the compacting action of the crystal lattice.

Consequently, a better and faster engraftment of osteoblasts is favored compared to prior art solutions, also thanks to an optimal adhesion of sialoproteins (BPS) on the surfaces of the portions, submerged 2 and emerged 4, of the dental implant 1.

In this way the osseointegration and biocompatibility of the dental implant 1 is favored and optimized with respect to the bone tissue 3 in which it is inserted.

The above description has been provided by way of example for the case of an intraosseous dental implant 1 in which the second emerged portion 4 supports a dental crown 50.

The inventive concept is however applicable to any endosseous medical implant 1 in which the second emerged portion 4 supports a generic external prosthetic structure 5.

From the foregoing it is evident that the proposed intraosseous medical implant, in particular dental, is able to guarantee a high biocompatibility with the living organism on which this medical device is implanted.

The intraosseous medical implant object of the invention, in particular, is capable of ensuring high mechanical characteristics and resistance to wear, at a relatively low cost.

Claims (10)

CLAIMS 1) Endosseous medical implant, in particular dental, comprising a first submerged portion 2 which is inserted at least partially into the bone tissue 3, and a second emerged portion 4 which emerges from the bone tissue 3 and is associated with the first submerged portion 2, with the second emerged portion 4 capable of supporting an external prosthetic structure 5; characterized in that the first submerged portion 2 is made with a metal alloy comprising a combination of primary metals such as palladium (Pd) and silver (Ag), with said metal alloy having a limited degree of redox capable of allowing optimal biocompatibility of said medical implant 1 following its positioning in the bone tissue 3. 2) Plant according to claim 1, characterized in that the metal alloy provides a percentage of palladium comprised between 20% and 80%, preferably between 25% and 75%. 3) Plant according to claim 1 or 2, characterized in that the metal alloy further comprises the presence of secondary metals selected from gold (Au) and / or platinum (Pt) and / or indium (In) and / or the pond (Sn). 4) Plant according to claim 3, characterized in that the metal alloy provides a percentage of silver (Ag) and secondary metals comprised between 1% and 50%, preferably between 2% and 45%. 5) Plant according to one of claims 1 to 4, characterized in that the second emerged portion 4 is made with a metal alloy having the same characteristics as the alloy used for the first submerged portion 2. 6) Implant according to one of claims 1 to 5, characterized in that the first submerged portion 2 has a substantially cylindrical or conical geometry, with the external surface preferably provided with a thread 20 capable of stabilizing the fixation in the bone tissue 3. 7) Plant according to one of claims 1 to 5, characterized in that the first submerged portion 2 has a blade or grid geometry. 8) Plant according to claim 6 or 7, characterized in that the second emerged portion 4 is associated with the first submerged portion 2 by means of fixing means. 9) Implant according to one of claims 1 to 8, characterized in that the bone tissue 3 comprises the mandibular bone or the maxillary bone, with the prosthetic structure 5 comprising a dental crown 50. 10) Plant according to one of the claims from 1 to 9, characterized in that the portions, first submerged 2 and second emerged 4, are subjected to a stabilization heat treatment capable of eliminating gaseous substances inside the crystal lattice, so to further reduce the degree of redox reduction of the constituent metal alloy; with this heat treatment which involves the use of boron salts (B) conveyed in a thickening medium which, during this treatment, burns without leaving residues.