DE102007012298B4 - Hardenable dental composition for the production of moldings and their optical detection - Google Patents

Abstract

A curable dental composition for the production of shaped articles, comprising:
(a) at least one condensation or addition-crosslinkable curable silicone material; and
(b) at least one mixed phase pigment.

Description

The The invention relates to a curable composition for the preparation of shaped bodies, in terms of three-dimensional image capture on photographic Paths and / or an optimized light scattering system with a laser scanner. or light reflection behavior, so that the surface structure of the molding nearly can be recorded digitally without loss of information. Furthermore For example, the invention relates to those made from the curable composition moldings as such, as well as a method for producing the shaped bodies. Finally, concerns the invention also a method for optical detection of Surface structure of the from below the moldable body produced under the hardenable composition Use of photographic methods or by means of a laser scanner. The invention is particularly applicable in medical technology and in the dental field.

The optical detection of molded structures by photographic means (for example with a CEREC3 camera from Sirona using infrared or visible light) as well as by optical scanning (for example using a laser scanner CEREC Scan from Sirona) and the subsequent reproduction of the three-dimensional body is known per se. Generally CAD / CAM / CIM (Computer Aided Design / Computer Aided Manufacturing / Computer Integrated Manufacturing) systems are used. In this regard, for example, on the WO 2006/108384 in which the above-mentioned technique is described in more detail when used in the dental field. However, the conventionally used molding compounds show insufficient optical behavior. In particular, they are not suitable to provide sufficient information for the exact reproduction of all morphological details. It is regarded as particularly difficult the exact detection of edges and unfavorable angular positions. Therefore, the use of conventional compositions for the production of moldings to a more or less pronounced loss of information in the digital detection, which leads to a lower quality of the preparations produced in the end. In the dental field, these are usually ceramic restorations, inlays / onlays, veneers, partial and full crowns and multi-unit framework bridges.

Particularly problematic is the use of hard gypsum materials for the production of models in the dental sector, since these are usually optically inadequate detectable. To improve the optical readability suggests the DE 195 48 655 A1 Although the addition of inorganic color pigments such as titanium dioxide, chromium oxide or iron oxide before. However, a significant improvement in the optical detectability can not be proven.

The WO 02/11678 A1 discloses optical systems scannable moldings in which a metal powder, a metal alloy powder, a metallic effect pigment powder or a layered powder is added to improve the optical scannability. In particular, inorganic white pigments or pigments with a metallic effect are used to increase the reflection behavior.

Similarly, the WO 2006/108384 A1 Use of metal oxide powders which have a certain particle size distribution. Particular preference is given to using titanium dioxide having a particle size of less than 50 μm.

A similar approach follows the WO 2006/105579 A1 , Disclosed herein are compositions for use in the dental field comprising a liquid curable polymer, macroparticles having a size greater than about 1 micron in diameter and microparticles sized less than about 1 micron in a particular ratio. The contrast formation is caused by the use of different particle sizes.

On the other hand, another approach is taken by the EP 0 565 174 A1 followed, in which a preferably provided with a dye coating is applied, which can be scanned for example by a scanner. When using such coatings, however, a uniform application is very difficult to ensure. Consequently, the use of such coatings easily leads to the falsification of the recorded data sets, caused by irregular layer thicknesses. Similar problems also occur in the classical preparation using (powdering) of titanium dioxide on the surface to be scanned. The above-mentioned negative influences are additionally reinforced by the presence of an adhesive, so that the sources of error in the creation of the record of the surface structure are further increased. The DE 10 2004 011 497 A1 describes dental materials which have improved body compatibility and contain the following components: (a) a free-radically polymerizable organic binder, (b) at least one radical polymerization initiator; and (c) at least one free radical polymerization accelerator.

It thus turns out that the conventional molding materials used in the prior art and the moldings produced therefrom are not sufficiently capable of digital detection by optical means. In particular, occur in the Conventional moldings information losses in the digital detection, which can miss a required especially in the dental field accuracy of the finally produced preparations, such as inlays, crowns, etc.

The The object underlying the present invention is therefore in the provision of curable compositions for the manufacture of moldings in the dental field, which in terms of three-dimensional optical Image acquisition both by photographic means and by means of a Laser scanner optimized light scattering or light reflection behavior exhibit, so that the surface structure of the molding nearly can be recorded digitally without loss of information.

These Task became surprising through a hardenable Dental composition according to claim 1 solved, which at least one curable condensation or addition-crosslinking silicone material and at least one mixed-phase pigment. These A hardenable composition is according to the method of claim 6 for the production of moldings used. A molded article produced in this way can be prepared according to the method for optical detection of the surface structure according to claim 7 measured by photographic means or by means of a laser scanner become.

The under claims include preferred embodiments the invention.

The hardenable composition according to the invention contains as essential constituents a curable condensation or addition-crosslinking Sili konmaterial and a mixed phase pigment. Preferably the ingredients are a mixture in the hardenable composition in front.

When hardenable materials become condensation or addition-curing Silicones used. The silicones are on the Dental field usually used materials based on organopolysiloxanes, as described, for example, in R.G. Craig, J.M. Powers: "Restorative Dental Materials, "Mosby 2002 are described. According to the invention usable silicones can a structure based on linear polysiloxanes, branched Having polysiloxanes or cyclic polysiloxanes. Furthermore, mixtures the said siloxane structures are present. As already mentioned above the silicones in the form of condensation or addition-curing Structures before. The viscosity that according to the invention preferably used silicones is in the range of 100 to 350,000 mPa · s, preferably in the range of 100-100,000 mPas. Particular preference is given to polydialkylsiloxanes and very particularly Polydimethylsiloxane. The crosslinking structure is exemplified by terminal and / or side-by-side Vinyl groups in the molecule guaranteed. The crosslinking silicones usually consist of a basic component and a catalyst component, as in particular in the dental field is known.

at the invention added Pigments are so-called mixed-phase inorganic pigments. These mixed phase pigments can in principle all Include pigments having an inorganic mixed crystal structure. In this regard, Reference is made to the standard literature of inorganic chemistry. A particularly preferred definition can be found in DIN 1310, 1984-02. The mixed phase pigments used according to the invention are preferably selected from the group consisting of mixed-phase pigments of the rutile type, mixed phase pigments hematite-type and spinel-type mixed phase pigments. Particularly preferred the mixed-phase pigments of the rutile type. The mixed phase pigments according to the present invention The invention also includes mixed oxide colored pigments or mixed crystal pigments called. A preferred pigment of the spinel type is, for example Cr-Fe-Ni-Mn spinel (C.I. Pigment Black 30 / C, I. 77504). A preferred pigment hematite-type is Fe-Cr hematite (C.I. Pigment Green 17). Preferred rutile type pigments are Nickel titanium yellow, a Ni-Sb-Ti rutile (C.I. Pigment Yellow 53; I. 77788), Chromititangelb, a Cr-Sb-Ti-rutile (C.I. Pigment Brown 24; C.I. 77310), as well as mangantitanium brown, an Mn-Sb-Ti rutile (C.I. Pigment Yellow 164; C.I. 77899).

In addition to the excellent suitability of the mixed-phase pigments according to the invention in the optical image acquisition of moldings containing these pigments with almost no loss of information, the pigments mentioned are also FDA-approved (FDA: Food and Drug Administration). For example, the mixed phase pigments nickel titanium yellow and chromium titanium yellow are approved according to the FDA list (21 CFR, § 178.3297) up to 1% in direct food contact and up to 2% in indirect food contact according to FDA Positive List 21 CFR, § 170.39. These approvals are based on the fact that the pigments mentioned have no acute toxicity, are neither sensitizing nor irritating to skin or mucous membranes (H. Endriss, R. Fischer "Nickel and Chromium Titanium Yellow Low-Risk Pigment Class" in Kunststoffe international 4/2005 ). Consequently, they are particularly suitable for use in the dental field. It has been shown that the mixed phase pigments used according to the invention have a high reflection or remission in the visible spectral range, preferably in the range> 500 nm and / or in the infrared range of 700-2,500 nm. Such optical behavior seems to be a reason for the particular suitability of the mixed phase pigments in the curable compositions according to the invention.

The Mixed phase pigments can According to the invention further Dye components are mixed. However, the proportion should be the mixed phase pigments of the total present in the curable composition Dye component 30 wt .-%, preferably 50 wt .-%, especially preferably not less than 80% by weight. Particularly preferred is the dye component of the curable composition of the invention or more mixed phase pigments.

The Amount of mixed phase pigment in the curable composition in principle not particularly limited and is in the for hartbare Dental compositions usual Areas for Pigments. Particularly preferably, the proportion of mixed phase pigment is sufficient in the curable composition from 0.1 to 10% by weight, especially preferably from 0.1 to 5% by weight, more preferably from 0.2 to 2 Wt .-% and most preferably from 0.5 to 1 wt .-%. Is the Amount of mixed phase pigment is too low, the optimized light scattering or light reflection behavior can not be achieved, and the loss of information with optical detection of the moldings becomes unacceptably large. Is the On the other hand, the amount of mixed-phase pigment is too high, increasing the price-performance ratio of hardenable composition to an unacceptable extent.

The The curable compositions of the present invention may contain conventional additives be added. These include especially reinforcing fillers, as surface treated or untreated silicas, Emulsifiers, fragrances, stabilizers, moisture-binding Agent, hydrophilizing agent and thixotropic agent. The used Quantities are in the usual Areas and can be determined by the skilled person readily.

The Components of the hardenable composition can be made by conventional Mixed methods are ideally mixed homogeneously in front.

As already mentioned above, As a rule, the silicones to be crosslinked consist of a basic component and a catalyst component. Preferably, the mixed phase pigment becomes first admixed with the base component and then with the catalyst component homogeneously mixed before this mixture then shaped.

The curable Composition of the present invention can be characterized by in the Technology usual Molding process to moldings, in particular dental moldings be formed. This usual Forming processes are known to the person skilled in the art.

A another embodiment The present invention relates to a method for optical Capture of the surface structure from the hartbaren invention Compositions produced moldings. This method includes the optical Detection of the moldings by photographic means and / or with a laser beam. The Image acquisition takes place in principle in the prior art known way. When capturing by photographic means For example, a CEREC 3 camera from Sirona is used. When capturing by means of a laser scanner, for example a CEREC scan from Sirona is used. The optical detection according to the inventive method However, this is not particularly limited, but results for the expert from the specific field of application.

below the invention will be explained in more detail with reference to some examples. Refer to all specified parts on the weight of the composition.

Example 1 (comparative example)

Basic component (with conventional color pigment):

Be in a mixing vessel
200 parts polydimethylsiloxane, vinyl-terminated, with a viscosity of 100 mPas
50 parts of polydimethylsiloxane, containing SiH groups, with an SiH content of 7.3 mmol / g
710 parts of cristobalite fine dust, methylsilanized, with an average particle size of 4 μm
35 parts of highly dispersed silicic acid, methylsilanisert, with a BET surface area of 200 m ² / g
5 parts of erythrosine lake E 127
and mixed homogeneously in a planetary mixer under vacuum for 30 minutes.

Catalyst component:

Be in a mixing vessel
250 parts polydimethylsiloxane, vinyl terminated, with a viscosity of 100 mPas
4 parts of platinum catalyst, dissolved in silicone oil, containing 1% platinum by weight
0.1 parts of 1,3-divinyl-1,1,3,3-tetramethyldisiloxane
710 parts of cristobalite fine dust, methylsilanized, with an average particle size of 4 μm
35.9 parts of finely divided silica, methylsilanisert, with a BET surface area of 200 m ² / g
and mixed homogeneously in a planetary mixer under vacuum for 30 minutes.

Each 25 parts base and catalyst component are using a Double chamber cartridge and static mixing cannula homogenously mixed and with molded a model denture the mixture thus obtained. After setting the impression is removed. A subsequent photographic Scanning the impression with infrared light of a 3D camera, z. B. with the CEREC3 system (Sirona) does not succeed. It will be a contourless, predominantly received dark picture. The data set obtained is for a subsequent Finishing completely not suitable.

Example 2 (according to the invention)

Base component (with mixed phase pigment according to the invention):

Be in a mixing vessel
200 parts polydimethylsiloxane, vinyl-terminated, with a viscosity of 100 mPas
50 parts of polydimethylsiloxane, containing SiH groups, with an SiH content of 7.3 mmol / g
710 parts of cristobalite fine dust, methylsilanized, with an average particle size of 4 μm
35 parts of highly dispersed silicic acid, methylsilanisert, with a BET surface area of 200 m ² / g
5 parts nickel titanium yellow pigment
and mixed homogeneously in a planetary mixer under vacuum for 30 minutes.

catalyst component

• (from Example 1)

Each 25 parts base component from Example 2 and 25 parts catalyst component from Example 1 become homogeneous with the help of a double chamber cartridge and static mixing cannula mixed and molded with the mixture thus obtained a model denture. After setting, the impression is removed. The following photographic scanning of the impression with infrared light 3D camera, z. B. with the CEREC3 system (Sirona) delivers a complete, exact picture. The data set obtained is for a subsequent Further processing ideally suited.

Out the cited Examples show that the use according to the invention mixed phase pigments in curable compositions for preparation of dental moldings to a significantly improved light scattering or light reflection behavior leads. This can change the surface texture of the molding be recorded digitally with minimal loss of information. consequently are the compositions of the invention clearly superior to the known in the prior art compositions.

Claims (7)

curable A dental composition for the production of shaped articles, comprising: (A) at least one condensation or addition-curing curable Silicone material; and (b) at least one mixed phase pigment. A composition according to claim 1, wherein the mixed phase pigment selected is selected from the group consisting of rutile-type mixed phase pigments, Hematite-type mixed phase pigments and Spinel type mixed phase pigments. Composition according to claim 1 and / or claim 2, wherein the mixed phase pigment is a rutile-type mixed phase pigment is. A composition according to any one of claims 1 to 3, wherein the mixed phase pigment Mangantitanbraun, Nickeltitangelb and / or Chromtitangelb. Moldings, available by molding the curable composition according to any one of claims 1 to 4th Process for the production of moldings, which molding the hardenable composition according to any one of claims 1 to 4 includes. Method for optical detection of the surface structure of shaped bodies, being one of the hardenable ones Composition according to one the claims 1 to 4 produced molded body detected by photographic means and / or with a laser scanner becomes.