This application is a filing under 35 USC 371 of PCT/EP2004/013964, filed Dec. 8, 2004.
The invention relates to a process for determining the form of a duplicate of a residual tooth area, which is to be fitted with a dental restoration such as a bridge or framework, whereby the duplicate sections to be fitted with the restoration and/or duplicate sections determining their design are taken from the duplicate, and the form data to be allocated to their forms has to be determined and stored in a computer, by means of which the form of the restoration is calculated taking into consideration the spatial allocation of the duplicate sections.
A corresponding process can be taken from EP 0 731 673 B1 (WO 96/10371). It is thereby provided, that in a first procedural step reciprocal positions of the duplicate sections are determined in the duplicate by means of a leveling apparatus. In a second step the duplicate sections taken out from the duplicate are scanned by means of a scanning unit to determine contour data.
Finally, in the third step, the contour data are linked with the position data.
Such a process involves great expense due to the required hardware and consequently bears numerous sources of errors.
From EP-B-0 913 130, a process for producing a dental prosthesis is known, in which the form of a duplicate is determined, then the duplicate is split apart, forms of the removed duplicate sections are determined, and finally the data of the duplicate and of the duplicate sections are combined. Such a process results in exact measurements; however, besides expensive software, it requires expensive technical means to scan the duplicate and the duplicate sections. The special clamping devices that are required also must be aligned with a scanner.
The present invention is based on the need for a process of the above mentioned type so that the form of the residual tooth area to be fitted with the restoration, or the design determining the restoration and therefore the form of the restoration itself, can be determined with a high degree of accuracy. At the same time instrument-related measuring errors can be minimized.
To solve this problem the invention essentially provides that the removed duplicate sections are individually referenced to each other according to a reference system stored in the computer and which is dependent on the duplicate, and that these data are linked for determining the form of the dental restoration in the computer with the form data of the duplicate sections. In other words, the invention provides that the duplicate sections are or are being referenced individually to each other in their spatial allocation according to a reference system stored in the computer.
Referencing independently from the duplicate means, not that the geometry of the duplicate which is obtained by the individual casting of the residual tooth or jaw area to be fitted with the dental prosthesis and according to EP-B-0 913 130 is imperatively used for referencing per se, but that a referencing determined or predetermined independently from the individual geometry of the duplicate, which is stored in the computer, is used to allocate the duplicate sections to each other spatially and geometrically. This, however, does not preclude that already during the fabrication of the duplicate or during casting taking by using (e.g.) a referencing impression spoon, a desired referencing is embossed independently of the individual course of the duplicate of the residual tooth or jaw area.
In deviation from the prior known state of the art, it is no longer necessary to completely scan the duplicate or to use a leveling apparatus to determine the position of the duplicate sections to each other, which are to be fitted with the dental restoration. Instead it is only necessary to reference the duplicate thereupon, in consideration of this referencing, to determine the form of the duplicate sections by e.g. scanning, whereby the referencing presets the spatial allocation of the duplicate sections; that is the spatial reference is determined from the referencing.
The referencing does not occur via the duplicate itself, as this is the case in the state of the art. Rather the duplicate is preferably aligned to a seat such as a holding device, particularly a base plate holding the duplicate, which in turn is referenced. Thus an existing referencing is utilized, which ensures an unequivocal geometric relationship between the duplicate sections.
Data corresponding to the referencing are stored in the computer so that the only new data to be entered is that corresponding to the form of the duplicate sections. Thus a simplification of the software takes place. There are also benefits with respect to the apparatus in that there is only one holding device or one type of holding device for clamping the respective duplicate sections, which are aligned to a sensor such as a scanner. Traditionally, the duplicate section is then taken up into a so-called holding cup, which may contain a silicone mass, in which the duplicate section to be measured is fixable.
For referencing it is particularly planned that the duplicate is mounted on a reference containing base plate, which is split apart, for example by sawing. The individual base plate sections thereby exhibit the required references to ensure a geometric or spatial allocation of the duplicate sections, which have to be scanned separately.
It is thereby especially provided, that the duplicate is surface-ground on the underside, to then be attached to the base plate exhibiting a surface-ground surface.
The invention is characterized in particular by the procedural steps consisting of:
In other words, by capturing the reference data with the data gained from the references provided on the individual model sections, the spatial allocation of the duplicate sections is determined. These data are then linked with the form data; that is data corresponding to the forms of the individual duplicate sections, in order to be able to fabricate the dental restoration, as is for example disclosed in principle in WO 99/47065 or WO 03/007834.
It is especially provided that geometrical properties of the base plate and/or markings are used as references. Possible markings may be points or lines on the base plate. Geometric properties to be mentioned preferably are delimitations such as edges or surfaces of the base plate.
In particular, inner and/or outer longitudinal side walls of the base plate should consist of a zigzag- or wave-shaped geometry, whereby the corresponding geometry is selected such that an unequivocal allocation of base plate sections to each other is ensured. Thus, in a zigzag geometry the height of the elevation or the distance thereof, may be varied to the extent required. The same applies for wave-shaped geometry.
In a zigzag geometry, the respective peaks may also be used as reference points, even if these get damaged for example, in as far as the delimiting surfaces of the base plate cutting the peaks also exhibit an unequivocal geometric position to each other, whereby a referencing takes place.
To ensure that the duplicate to be mounted onto the base plate does not cover the references provided on the base plate, the duplicate has to be spaced to the inner and outer edge of the base plate.
A referencing may, however, also take place directly after taking the casting. Thus, an impression spoon may for example be realized, such that references are obtained in the casting. Other analogous measures are possible as well. References may also be applied directly to the casting.
Further details, advantages, and features of the invention not merely derive from the patent claims—by themselves and/or in combination—but also from the following description of a preferred embodiment which is revealed through the drawing.
Shown are:
In
Then the duplicate 10 is surface-ground on the underside (surface 12) to be attached (e.g., glued) to a plane surface 14 of a ready-made base plate 16. Hereby, the base plate exhibits the geometry of an arc shape that corresponds to the jaw. If needed, several sizes of base plates 16 may be provided to facilitate adjustment of individual duplicates.
Independent from this, the base plate 16 exhibits reference marks 17a, which make or form a referencing. The references may in particular be predetermined by a special realization of the base plate 16. Thus, the embodiment provides for a specially formed geometric shape of the outer sidewall 18, or the inner sidewall 20, or their surfaces, which form references. Thereby the surfaces 18, 20 are shaped such that each section of the base plate 16 is referenced individually, that is, is designated, with the consequence, that taking into consideration the respective reference an unmistakable geometrical or spatial allocation of the respective sections of the base plate 16 to each other is ensured. By attaching the duplicate 10 onto the surface 14 of the base plate 16 the sections of the duplicate 10 consequently also exhibit an unequivocal spatial allocation to each other. The base plate attached to the duplicate 10 is shown in
After attaching the duplicate 10 on the base plate 16, model sections 24 are cut out from the duplicate 10 together with the base plate 16, which correspond to individual teeth, toothless jaw sections, or roots which are to be fitted with the dental restoration or determine their realization. The model sections 24 of the dental model 21 therefore consist of a duplicate section 26, as well as a section 28 of the base plate 16.
The model section 24 to be measured in each case is placed into a holding device 30 in order to capture the geometry by means of a sensor 32 such as a scanner, and to feed the respective measuring values as digital data into the computer, in which the data corresponding to the referencing are stored. Thus, the only thing to be done is to match up the data of the model sections 24 in relation to the reference geometry stored in the computer, and thereby match them to each other to obtain a data record. In other words, the data corresponding to the referencing are matched to the data gained from the references of the model sections, to achieve a spatial allocation of the duplicate sections which corresponds to the situation in the mouth of the patient. In addition to the position data of the respective model section, form data of the respective duplicate section attached on the model section are also available. The dental restoration is then automatically produced from these data as is revealed in principle in WO 99/47065 or WO 03/007834. Hereby, express reference is made to these disclosures.
In the embodiment the holding device 30 is realized as cup 34 which contains a holding mass such as silicone rubber 36 for holding and fixing the base plate section 28 and therefore the model section 24. The cup 34 may then be rotated around its longitudinal axis 38, as symbolized by the arrows 40, 42. Hereby, an alignment to the sensor 32 takes place to the desired degree, to be able to capture or scan the model section 24 to the required degree. Thereby the referencing, i.e. the reference points of the base plate section 28 are captured so that an unequivocal geometrical allocation of the respectively captured duplicate section 26 to the total duplicate 10, or the position of duplicate section 26 in duplicate 10 can be determined.
Obviously there is also the option to additionally move the model section 24 consisting of the base plate section 28 and the duplicate section 26 along the X and Y direction of a rectangular system of coordinates to capture the geometry.
In other words, a relative movement by desired degrees of freedom may take place between the model section 24 and the sensor 32. If needed, the sensor 32 may also be aligned to section 24 to the extent required.
In order to align the model sections in the correct position when fitting the fabricated restoration, a form 22 may be used, as is e.g. known from the “Model-Tray” system (
Pursuant to the invention a geometrical determination of the model of a jaw section to be fitted with a dental prosthesis is available by means of simple process.
Number | Date | Country | Kind |
---|---|---|---|
103 57 699 | Dec 2003 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/EP2004/013964 | 12/8/2004 | WO | 00 | 5/24/2006 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2005/058183 | 6/30/2005 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
4767330 | Burger et al. | Aug 1988 | A |
5338198 | Wu et al. | Aug 1994 | A |
5605459 | Kuroda et al. | Feb 1997 | A |
5607305 | Andersson et al. | Mar 1997 | A |
5644411 | Tamagaki et al. | Jul 1997 | A |
6287121 | Guiot et al. | Sep 2001 | B1 |
20030124492 | Perot | Jul 2003 | A1 |
Number | Date | Country |
---|---|---|
29 920236 | Apr 2000 | DE |
29 110518 | Jul 2002 | DE |
0 913130 | May 1999 | EP |
0 731673 | May 2001 | EP |
Number | Date | Country | |
---|---|---|---|
20070072151 A1 | Mar 2007 | US |