FR2594029A1 - Novel dental prostheses with posts - Google Patents

Abstract

The present invention relates to novel dental prostheses with posts made in integral assemblies comprising one or more posts and an inlay core (or a complete artificial collar) characterised in that they consist of oxides and inorganic salts to the exclusion or almost to the exclusion of organic or metal substances. The assemblies of the invention preferably comprise a post made of practically pure alumina and an inlay core made of a baked ceramic which does not change its shape and dimensions during baking. According to the invention, the parts of the assemblies are assembled by binding with wire or keying. The present invention also relates to methods of manufacture of the novel prostheses with posts of the invention.

Description

 The field of the present invention is that of dental prosthesis, and more precisely that of coronary reconstruction.

 According to the state of the art, the artificial crown, partial or total, is often set by a ring of unalterable cast alloy, for example nickel - chrome or gold, around a reconstituted stump, the grinding face being able to be ceramic, in acrylic resin or other composite material. We improve the fixation of the prosthesis by fixing the crown on one or more tenons according to the Richmond or Davis principles in which a radical tenon in metal or metal alloy supports the reconstruction of the crown, it - same metal alloy, resin or composite material.

 According to another double-stage technique, it is a reconstruction of a stump called "inlay-core" which is fixed on the post or posts and covered with a cap of material recalling the appearance and the color of the dental enamel, ceramic or resin. The different parts of the artificial crown are sealed together with a cement.

 Despite the progress made little by little in the implementation of these traditional techniques, they have notable intrinsic drawbacks: low biocompatibility, a risk of toxicity due to the nature of certain alloys, harmful thermal and electrical conductivity, risks of watermarking , ect ... In addition, ceramic materials retain a certain transparency at low thickness, and we cannot avoid the existence of unsightly metallic reflections on artificial crowns.

In addition, the different parts that make up the artificial crown are joined together by a cement joint which also fills the gap between them. If the play is noticeable, the cement joint is too thick and it risks, in the long run, another permeable to saliva and eventually deteriorate. Another disadvantage is that metals and their alloys are radiologically opaque, which can present gray areas when examining dental roots.

 The present invention, quite surprising in view of the state of the art, makes it possible to avoid the drawbacks described above and relates to a set of good resistance comprising one or more studs and an artificial crown, characterized in that at the At the end of its manufacture, it is made up of biocompatible oxides and mineral salts, excluding or almost excluding any organic or metallic substance.

Often the set has only one stud.

 According to the spirit of the invention, the post or posts can be connected to an inlay-core on which a cap is to be placed, or to an artificial crown with a single stage.

 According to the invention, the oxides and mineral salts which make up the whole are those which constitute the enamels and ceramics such as silica, zircon, aluminates, in particular magnesium, alumina, phosphates, salts of calcium, barium, ect ...

 According to the invention the whole is obtained by cooking, the material to be cooked is often complex, its precise composition often kept secret by their manufacturers, may contain substances other than oxides and mineral salts, for example substances organic which decompose during cooking.

According to a preferred embodiment of the invention, the post consists of practically pure alumina which has the advantage of having sufficient resistance to bending. We can choose for example alumina type
AF 998P distributed by DESRQUEST.

 According to another embodiment of the invention, the inlay-core (or the reconstitution of the crown) is made up of high resistance alumina and / or magnesium aluminate.

 According to a preferred embodiment of the invention, the material undergoing cooking to form the inlay-core (or the reconstruction of the crown) has the particularity of fully retaining its shape and dimensions during cooking. A substance which possesses this property is for example 1 "CERESTORE alumina from the firm COORS.

 According to one embodiment of the invention a post is fixed to an inlaycore while according to another embodiment, a post is fixed to an artificial crown with a single stage.

 According to yet another embodiment of the invention, the crown or the inlay-core are fixed to one or more keyed studs.

 According to a preferred embodiment of the invention, the resistance of the stud (s) is reinforced by shrinking the inlay-core or the crown.

 The present invention also relates to the method for manufacturing the set of studs - inlay-core or tenons - artificial crown of the invention according to methods known for each of the two parts but characterized by the combination of these methods and by the fact that 'we join the two parties together.

 According to a preferred mode of the manufacturing process of the invention, a non-metallic and inorganic post is secured to the inlay-core or to the artificial crown by shrinking. one can for example interpose between the two parts, during the modeling, an organic film, preferably in teflon, which disappears during the cooking of the whole. This unexpected process makes it possible to avoid the use of a cement joining the two parts and the risks of deterioration which are attached to it. In addition, it considerably strengthens the resistance of the post.

 According to another embodiment of the invention, a post is fixed to the inlay-core or the artificial crown by keying in a hole. This is done, for example, by attaching a metal preform to a model generally of epoxy resin: we remove the metal preform before cooking the inlay-core (or the crown) and then key it when it is cooked with the final post.

 The invention will be better understood on reading the following examples given by way of illustration and not limiting of the invention, many variants remaining in its spirit.

Example 1: Fretted inlay-core
An epoxy resin model master is prepared according to the known method of
CERESTORE. In addition, an AF 998P alumina head post from DESMARQUEST was prepared which is fixed to the epoxy resin model, taking care to make the tip emerge and a sufficient part of the body to maintain the future inlay-core. The emerging part of the post is coated with Teflon varnish and the future inlay-core made of "CEItESTORE alumina" is molded and baked according to the process and with the equipment recommended by the trademark holder to make caps. During the phase baking, up to 500 C, the Teflon decomposes and creates a vacuum which is not filled. By cooling the contraction of the inlay-core ensures the hooping of the post without cracking or cracking, which considerably strengthens its resistance at the average bending of the aluminum
2 ne of the post which is already around 305 Newton / mm (according to the AFNOR test
NF49110 of June 1972 adapted to the shape of the test pieces) when it is not shrunk.

Example 2: Keyed inlay-core
We use the same technique as before, but instead of molding CERESTOE "alumina" on an alumina post, we mold it on a stainless steel post, here simply playing the role of preform. The tenon - inlay-core assembly is separated from the epoxy resin master model, then the metal tenon is removed by applying moderate but sufficient heat to its end to soften the teflon without degrading the RESTORE material of the inlay blank -core which thus presents a leak in place of the extracted metal. After baking, it suffices to place an alumina key of the same size as the metal preform. This key plays the role of a tenon.

 In fact, this method gives a less resistant post than that which is obtained by shrinking, and it will preferably be used to manufacture inlay cores or crowns with divergent roots.

Example 3: C-suronne frettée
The operation is carried out according to Example 1 by directly molding an entire Richmond-type crown on the alumina post, taking care to coat the head of the post in the CER $ STORE "alumina" to be cooked and the operation is terminated as in Example 1.

Claims (10)

RESENDCATIa3S  1) dental prosthesis with tenons of good resistance made of the integral assembly of one or more tenons and an artificial crown characterized in that it consists of oxides and mineral salts biocompatible with the exclusion or almost -exclusion of any organic or metallic substance.  2) A dental prosthesis according to claim 1 characterized by the fact that it consists of an assembly comprising one or more studs, an inlay-core and a cap.  3) A dental prosthesis according to claim 1 characterized in that it consists of an assembly comprising one or more pins and an artificial crown on one floor.  4) A dental prosthesis according to any one of claims 1, 2 or 3, characterized by the fact that the post or posts are made of practically pure alumina.  5) A dental prosthesis according to any one of claims 1,2,3 or 4 characterized in that the inlay-core or the entire artificial crown is made of a material which is the result of cooking during which the starting pdate fully retains its shape and dimensions.  6) A dental prosthesis according to any one of claims 1,2,3,4 or 5 characterized in that the post or posts are fretted by the inlaycore or the artificial crown.  7) A dental prosthesis according to any one of claims 1,2,3,4 or 5 characterized in that the post or posts are fixed by keying in 1'4nlay-core or the artificial crown.  8) A method of manufacturing a dental prosthesis according to any one of claims 1,2,3,4,5,6 or 7 characterized in that one assembles one or more studs and an inlay-core or a crown artificial.  9) A method of manufacturing according to claim 8 of a dental prosthesis according to claim 6 characterized in that the post or posts are fixed by shrinking in one inlay-core or the artificial crown.  10) A method of manufacturing according to claim 8 of a dental prosthesis according to claim 7 characterized in that one or more pertuisdans in the inlay-core or the artificial crown are prepared and one or more studs are introduced therein by keying.