The present invention relates to an improved .implant prosthetic system. More specifically, the invention relates to an implant system of the above kind permitting obtaining optimum bore absorption and an aesthetically pleasant emergency profile.

As it is well known, modern implantology is based on studies carried out by Branemark during the seventies. The solution suggested in the past years by Branemark provided the insertion of a titanium self- tapping screw within the patient bone to be then used as anchorage of a titanium pin, then a crown is cemented or screwed on said pin.

Coupling between implant and pin always involves a bone re- absorption, varying between 2 and 3 mm, and essentially depends on two different factors:

- bacterial colonization occurring within the micro-space at the junction between implant platform and pin platform, causing a chronic infection of the surrounding bone (restoration of the biological thickness);

- distribution of the occlusion stresses on the bone surface at the level of the implant edge.

It is known that bone re-absorption always causes a gingival defect.

Recently, solutions have been suggested wherein, employing a bigger implant and coupling it by a standard pin, bone re-absorption is remarkably reduced (this technology is known as platform switching or platform shifting).

It has also been observed that bone re-absorption is directly proportional to the difference between the implant diameter and pin diameter (difference between implant/abutment). In order to exploit advantages of this technique, the doctor must always use implants having a diameter than necessary, thus being difficult to be introduced.

Furthermore, all implants used for this kind of technique have a flat platform or a platform having a flaring or inclination faced upward (in figure 1 of the enclosed drawings it is shown an example of an implant having a platform faced upward, while in figure 2 it is shown a section of an implant with a flat platform), This kind of solutions, mainly in case a platform switching is employed, always involve presence of an emergency profile that can be difficulty covered by gingival edge.

In view of the above, the Applicant has surprisingly found that, starting from the switching platform solution, realizing an inverted platform, i.e. with flaring or inclination faced toward the implant apex, it is possible obtaining an optimum bone re-absorption and an aesthetically pleasant emergency profile.

It is therefore specific object of the present invention an improved implant system, comprising a self-threading screw, preferably comprised of titanium, to be inserted and Osseo-integrated within the patient jaw, and having an inner upper threading, and a pin, preferably comprised of titanium, threading above said self-threading screw on said inner threading, and on which pin a dental crown is coupled, said implant system being characterized in that the coupling zone between the self- threading screw and the pin has an abutment platform having an inclination directed upward, from inside toward outside, in the end portion of said platform being provided a space between the pin outer surface and the screw inner surface. Preferably, according to the invention, said pin provides a profile diverging outward in correspondence of the coupling with the self- threading screw in order to create a further grow space for gum, and thus a sealing.

Particularly, according to the invention, said abutment platform has an inclination between 20° and 60°, preferably an inclination between 25°and 40°, and particularly an inclination of about 32°.

Still according to the invention, diameter of connection between self-threading and pin can be included between 3.3 mm and 3.8 mm.

Always according to the invention, diameter of abutment platform ranges between 4.0 mm and 5.5 mm.

The present invention will be now described, for illustrative but not limitative purposes, according to its preferred embodiments, with particular reference to the figure of the enclosed drawings, wherein figure 1 is a perspective view of a first implant system according the know art; figure 2 is a section view of a second implant system according to the known art; figure 3 schematically shows an improved implant system according to the present invention; and figure 4 shows a particular of the implant system of figure 3.

Observing now figures 3 and 4 of the enclosed drawings, it is shown an implant system according to the invention, generically indicated by reference number 1 , having a pin 2 to be inserted within patient jawbone and a self-threading screw 3 to be coupled to said pin 2, and that will support the tooth.

In figure 4 it is shown a particular of coupling between pin 2 and self-threading screw 3, providing a coupling platform 4, having an inclination upward. A space 5 is provided between pin 2 and self-threading screw 3, in correspondence of the platform 4, having a walling off function.

Furthermore, said pin 2 has a profile 6 diverging outward in correspondence of coupling with self-threading screw 3, in order to create a further space for growing of gingiva, and thus a further walling off space.

Gingiva grows within space 5, 6, thus realising an optimum walling off.

Diameter of platform 4 and connection ray are respectively indicated by references "e" and "d". As it is well evident from the previous specification, solution suggested according to the invention has different advantages with respect to the known solutions, and particularly:

- displacement downward of the profile emerging from implant, with a consequent aesthetical improvement; - increase of mismatching between implant and pin, due to the fact that platform is hypotenuse of a rectangle triangle;

- a better load distribution, with a consequent reduced stress on the bone/implant edge, due, as demonstrated by a finite elements analyses, to the inclined coupling instead of the flat coupling. Rounded shape of the pin emergency profile further permits grow of a fibrotic dense tissue that, on the basis of last published researches, also has the walling off function with respect to the bacterial contamination (walling off function). This effect can be particularly observed in figure 4. Double coupling provided further permits a stability of connection, with remarkable structural benefits. Under a strictly engineering point of view, inclination has an angle between 20° and 60°, with an optimum value of about 45°.

Diameter of connection can be included within the range of 3.8 - 5:5 mm. Diameter of implant platform can be included within the range of

4.0 - 5.5 mm.

The present invention has been described for illustrative but not limitative purposes, according to its preferred embodiments, but it is to be understood that modifications and/or changes can be introduced by those skilled in the art without departing from the relevant scope as defined in the enclosed claims.