DE102013109484B4 - Method of fitting a denture into a repair site - Google Patents

Abstract

A method of fitting a denture into a repair site of a dentition having a jaw and an opposing jaw, wherein a jaw of the denture has at least one repair site. In a receiving step, an image of the jaw and an image of the opposing jaw, in particular of a counter site opposing the repair site is preferably generated in an active state in the area of the repair of the dentition, wherein an active distance Aa between the jaw and the opposing jaw or between the Image of the jaw and the image of the opposing jaw is determined. Furthermore, a virtual model of the jaw and the opposing jaw is respectively created in a passive state of the dentition, wherein in an adjustment step, the jaw model and the opposing jaw model are aligned such that the repair site is arranged opposite the corresponding opposing jaw position, in particular the antagonist. In an adaptation step, the jaw model is brought to bear against the opposing jaw model, whereupon a distance Ax between the jaw model and the opposing jaw model is measured. The jaw model is approximated with the proviso to the opposing jaw model that a distance Ax set between the jaw model and the opposing jaw model is identical or approximately identical to the active distance Aa. After the adaptation step, a model of a dental prosthesis is produced, which model of the dental prosthesis positively rests against the repair site of the jaw model and preferably positively against the opposing jaw position of the opposing jaw model, when the active distance Aa between the jaw model and the opposing jaw model is set. Based on the model of the denture, a denture for the dentition is made.

Description

The invention relates to a method for fitting a dental prosthesis into a repair site.

Methods of the aforementioned type are known in principle from practice. Out DE 102 14 968 B4 For example, a method for the reconstruction of occipital structures is known in which, after the creation of a master cast of a tooth stump, the patient is prompted to press a copy of the Okkusal surface to be reconstructed by chewing movements into a molding compound placed on the tooth stump. However, this method requires that the antagonist opposite the tooth stump be preserved. This in DE 102 14 968 B4 described method is not applicable if the antagonists are absent or antagonistic also one or more repair sites are, as is often observed. Furthermore, this method requires the preparation of various master models, which is quite expensive and error prone. Furthermore, it is known to create master models of the lower and upper jaw and use these models to manufacture the dentures. However, it has been shown that the vertical height of the dental prosthesis manufactured in this way is only partially compatible with the anatomy of the patient and a complex, sometimes unpleasant, reworking of the dental prosthesis is required for the patient. In particular, the adjustment of the occlusion height of the dental prosthesis is critical in the methods known from practice.

The invention is therefore based on the technical problem of specifying a method for fitting a dental prosthesis into a repair site, which is characterized by a simple and functionally reliable feasibility and with the particular vertical height (occlusion height) of the prosthesis is optimally determined.

To solve the technical problem, the invention teaches a method for fitting a denture in a repair site of a dentition with a jaw and a counter-jaw, wherein the jaw of the denture has at least one repair point,
wherein in the region of the repair of the denture an image of the jaw and an image of the opposing jaw, in particular the repair site and the repair site opposite counter-jaw position is created in an active state in a recording step preferred, with an active distance A _a between an image of the jaw and a Image of the opposing jaw is determined
whereby a virtual model of the jaw (jaw model) and a virtual model of the opposing jaw (opposing jaw model) are respectively created in a passive state of the dentition,
wherein, in an adjustment step, the jaw model and the opposing jaw model are aligned such that the repair site is arranged opposite the corresponding opposing jaw position, in particular an antagonist,
wherein in an adaptation step, the jaw model is brought into abutment with the opposing jaw model, whereupon a distance A _x between the jaw model and the opposing jaw model is measured, wherein the jaw model is machined to the opposing jaw model with the proviso that a distance set between the jaw model and the opposing jaw model A _{x is} identical or approximately identical to the active distance A _a ,
wherein after the adjustment step, a model of a dental prosthesis is produced, which model of the denture positively against the repair of the jaw model and preferably positively abuts the opposite jaw position of the opposing jaw model, when the active distance A _{a is set} between the jaw model and the opposing jaw model and wherein based on the model the dentures a denture for the dentition is made.

The region of the repair site of the denture preferably means a region of the dentition, which region comprises the repair site of the jaw, and particularly preferably a corresponding opposing mandibular position opposite the repair site, in particular an opposing tooth (antagonist) of the opposing jaw. Dentures in the context of the invention means, in particular, a crown, a partial crown, an inlay or a bridge. Repair point means within the scope of the invention a prepared for receiving a dental prosthesis, preferably ground tooth (stump) or a preferably cylindrical fixed in an implant healing cap (heal cap) or applied to the tooth stump or the implant backbone of the future dentures. In principle, it is possible for a repair site to be present in the jaw and / or opposing jaw, and a plurality of repair sites to be present in each case in accordance with one embodiment. In one embodiment, the opposing jaw position comprises at least one antagonist, which antagonist of the repair site is opposed in the opposing jaw, and is preferably a natural or artificial tooth. It is possible that the opposing jaw position has another repair point. According to one embodiment, the opposing jaw position is tooth-free.

It is recommended that the image of the jaw and / or the image of the opposing jaw in the active state of the dentition in the recording step be created in a processable with a data processing device (computer) format. virtual Illustration of the jaw or jaw (jaw image or opposing jaw image) means, in particular, that the image of the jaw or jaw in the active state of the dentition is present in each case as a digitized data set and can be processed with the computer. The active distance A _a between the jaw and the opposing jaw is particularly preferably determined on the basis of the Kieferabbildung and the Gegenkieferabbildung with the computer. According to one embodiment, the active distance A _a between two fixed points is determined. It is recommended that a first fixed point is assigned to the jaw and a second fixed point to the opposing jaw. Conveniently, the fixed point on a tooth of the jaw and / or the second fixed point on a tooth of the opposing jaw is arranged. It is within the scope of the invention that the first fixed point and / or the second fixed point is / are positioned in the oral cavity. It is within the scope of the invention that, to determine the active distance A _a on a jaw-side tooth, a first reference bump and / or a second jaw on a counter-jaw tooth is determined and that preferably the distance between the jaw and the opposing jaw the distance between the corresponds to the first reference hump and the second reference hump. In principle, it is possible for the reference hump of the first jaw or of the opposing jaw to be defined as the first or second anchor point.

It is recommended that a bite registration be arranged in the repair site of the bit, so that in the closed state of the bit (active state) the bite registration at the repair site and preferably the antagonist is applied. It is within the scope of the invention that the bite registration is scanned and preferably converted into a digital bite registration that can be processed as recommended with a data processing device. Preferably, the distance between the repair site and the antagonist is determined by means of the digitized bite registration. The image of the dentition in the active state is particularly preferably indicated merely by the image of the repair site, the digitized bite registration arranged in the repair site of the jaw image and optionally by the image of the opposing jaw position. Image of the repair site or image of the opposing jaw position preferably means an image of the repair site or of the opposing jaw, which image only contains or reproduces the repair site or the antagonist or computer record that can be processed with a computer. It is possible that the digitized bite registration of the repair site is created without prints. It is possible that no imprint of the repair site is taken, for example with a bite registration.

In particular, the virtual model of the jaw or jaw model (jaw model or opposing jaw model) means that the jaw model or opposing jaw model are present in each case as a digitized data set that can be processed by the computer. In a particularly preferred embodiment of the method according to the invention, the creation of the jaw model and / or the opposing jaw model in the passive state of the denture is carried out free from imprints or without pressure. It is preferable not to create a physical negative from the dentition of the patient. Advantageously, in the method according to the invention, it is possible to dispense with taking an impression of the jaw and the opposing jaw in the patient to produce a master model.

The fact that the image of the dentition or the image of the jaw and the image of the opposing jaw, preferably the image of the repair site and the image of the repair site opposite, corresponding counter-jaw position is taken in the active state means in the invention that the patient's mouth closed and the teeth of the jaw rest on those of the opposing jaw. Passive state means a state in which the mouth is preferably opened with the proviso that the teeth of the jaw are non-contact with the teeth of the opposing jaw. In the passive state, the lower jaw or a lower jaw span, for example, is narrowed by an average value of 0.35 mm starting from the lower jaw span in the active state.

The jaw model and / or the opposing jaw model preferably each have at least one tooth and more preferably a plurality of teeth. According to a particularly preferred embodiment, the jaw model or the opposing jaw model simulates all teeth present in the jaw or all the teeth present in the opposing jaw of the teeth and possibly artificial teeth. In the adjustment step, the jaw model and the opposing jaw model are particularly preferably aligned on the basis of the image of the jaw and / or image of the opposing jaw or the repair site and the corresponding opposing jaw position recorded in the receiving step. Preferably, the digitized bite registration is placed in the adjustment step on the repair site of the jaw model, wherein the jaw model is aligned in such a way to the opposing jaw model zweckmäßerewise in a virtual articulator that the digitized bite registration with the antagonist or the antagonist occluded or approximately occluded.

Advantageously, the image of the jaw and / or the image of the opposing jaw or the model of the jaw and / or the model of the opposing jaw with an optical recording device recorded, which receiving device scans the jaw and / or opposing jaw preferably without contact. According to one embodiment of the method, no impression of the jaw and / or opposing jaw is made in order to create the image or model of the jaw and / or image or model of the jaw with a preferably shrinkage-free hardening mass, such as gypsum. Expediently, the preferably virtual image or model of the jaw and / or opposing jaw can be detected and / or processed by the computer. It is within the scope of the invention that the virtual image or model of the jaw or opposing jaw can be displayed on a display device (display) of the computer. The fact that the virtual image or model of the jaw and / or the opposing jaw can be handled with the data processing device means, in particular, that the jaw image or jaw model and / or the opposing jaw model or opposing jaw model can be aligned with each other, so that a reproduction of the patient's teeth in the active state and / or passive state is preferably possible in the virtual articulator.

According to one embodiment, an impression is made in the passive state of the jaw or of the opposing jaw for producing an objective jaw model or an objective jaw model, wherein a virtual model of the jaw and / or opposing jaw is preferably selected from the subject jaw model and / or the subject opposing jaw model is created in the passive state in particular by scanning the impression or the representational models of the jaw and / or jaw of the dentition. It is within the scope of the invention that the bite registration is scanned or digitized separately from the jaw or together with the jaw and / or opposing jaw. Preferably, the digitized bite registration is expediently arranged with the computer on the repair site in the jaw model or jaw image.

It is possible that the image of the jaw and / or the image of the opposing jaw or the jaw model and / or opposing jaw model is preferably produced directly respectively by scanning the jaw or the opposing jaw. The jaw is the maxilla or mandible, while the opposing jaw is the mandible or upper jaw. Advantageously, the jaw image or jaw model and / or the opposing jaw model or opposing jaw model is respectively generated by scanning the jaw or opposing jaw at least with the optical recording device in the active state or in the passive state. The recording device is for example a camera arrangement. It is within the scope of the invention that expediently with the receiving device, a preferably three-dimensional image or model of the jaw and / or opposing jaw is received. It is recommended that the image or model of the jaw and / or jaw is transferred to the computer and preferably processed in the computer. In particular, processed means that the image or model of the jaw and / or opposing jaw is displayed on the display and that, particularly preferably, an alignment of the image or model of the jaw relative to the image or model of the opposing jaw is expediently carried out in the virtual articulator , Preferably, the image of the jaw and the image of the jaw in the active state of the patient's dentition and the model of the jaw and / or the model of the opposing jaw are recorded in the passive state of the patient's dentition. The model of the jaw and the model of the opposing jaw are in particular the arrangement of the teeth in the jaw or opposing jaw, including the chewing surfaces of the individual teeth recommended in the passive state again.

It is recommended that the jaw model be subdivided into a plurality of jaw segments (segments), one segment having the repair site (repair segment) and the opposing jaw model being divided into a plurality of opposing jaw sections (sections), one section representing the opposing jaw position opposite the repair site (Repair section). Particularly preferably, the jaw segment designed as a repair segment merely reproduces the repair site of the jaw. In one embodiment, the repair portion of the opposing jaw only reflects the opposing jaw position opposite the repair site.

Particularly preferably, the jaw segments and / or the opposing jaw sections are arranged in a virtual articulator. The arrangement of the jaw model and the opposing jaw model in the virtual articulator with the data processing device is expediently carried out. It is possible that preferably individual segments and / or sections are reversibly removed from the virtual articulator by means of the data processing device. It is within the scope of the invention that the jaw model and the opposing jaw model are arranged in the virtual articulator, whereby preferably no subdivision of the jaw model into a plurality of segments and preferably no subdivision of the opposing jaw into a plurality of sections takes place.

According to a preferred embodiment, in the adjustment step, preferably only the repair segment of the jaw model with the digitized bite registration set on the repair site and the opposing jaw model or at least a section of the opposing jaw model in the arranged virtual articulator. Preferably, in the adjustment step, the active distance A _a between the jaw model and the opposing jaw model is set using the repair segment remaining in the jaw model with the digitalized bite registration placed on the repair site and / or measured in the adaptation step. Expediently, at least the repair section or preferably all sections are or are used in the adjustment jaw and / or adaptation step in the opposing jaw model. It is within the scope of the invention that an orientation of the jaw model to the opposing jaw model takes place through the image of the repair site or the patch of the repair segment placed on the repair site of the repair segment and the corresponding opposing jaw position, wherein all other segments of the jaw or all other sections of the opposing jaw are removed from the jaw model or opposing jaw model. Particularly preferably, the jaw model is aligned with the patch on the repair site, digitized bite registration to the opposing jaw so that the digitized bite registration with the antagonist of the opposing jaw occluded.

Preferably, in the adaptation step, preferably after measuring the active distance A _a, all the jaw segments except for the repair segment are inserted into the jaw model which is preferably clamped in the virtual articulator. It is within the scope of the invention that the jaw model reproducing the passive state of the bit rests on the opposing jaw model reflecting the passive state of the bit, wherein the distance A _x between the jaw model and the opposing jaw model is then preferably greater than the active distance A _a . For example, by the tapering of the jaw and / or opposing jaw, in particular the lower jaw, in the passive state relative to the active state, the chewing surfaces of the teeth of the jaw model do not fit perfectly into the corresponding antagonists of the opposing jaw model. Empfohlenermaßen carried out an adaptation of the jaw model and / or opposing jaw model, which will be described below.

Appropriately, to determine the active distance A _a, a first reference plane is laid through the jaw model, on which first reference plane a first reference point is defined. It is advisable that a second reference plane is arranged at a second reference point in the opposite jaw model, the active distance A _{a is} the distance between the first reference point and the second reference point is, preferably, when the digitized, applied to the repair area of the jaw model bite registration with the Antagonists of the opposing jaw model occluded. In a preferred embodiment of the method according to the invention, the distance A _{x is} obtained by measuring a distance between the first reference plane assigned to the jaw model and the second reference plane assigned to the opposing jaw model, if, for example, due to the geometry of the jaw model or the jaw model changed in passive compared to the active state Countermeasure model excluded optimal occlusion of individual teeth. In the context of the invention, the jaw model is assigned the first reference plane, wherein an orientation of the first reference plane with respect to the jaw model is invariant. Conveniently, the orientation of the second reference plane is invariant with respect to the opposing jaw model. A change in the position of the jaw model or the opposing jaw model preferably causes no change in the orientation of the first reference plane relative to the jaw model or the second reference plane relative to the opposing jaw model. According to one embodiment, the distance A _x between the jaw model and the opposing jaw model is measured. Preferably, the distance A _{x is} the distance between the reference point on the first reference plane of the jaw model and the reference point on the second reference plane of the opposing jaw model. The position and orientation of the first reference plane of the jaw model or of the second reference plane of the opposing jaw model preferably corresponds to the position and orientation of the first reference plane of the jaw image or of the second reference plane of the opposing jaw image. The position of the first reference point of the first reference plane of the jaw image preferably corresponds to the position of the first reference point of the first reference plane of the jaw model. It is recommended that the position of the second reference point of the second reference plane of the opposing jaw image corresponds to the position of the second reference point of the second reference plane of the opposing jaw model. In this way it is ensured that in the setting of the active distance A _a as the distance A _x between the jaw model and the opposing jaw model, the distances between the jaw are correctly reproduced the opposing jaw of the patient's teeth. It is possible that the active distance is determined solely on the basis of the image of the jaw and the image of the opposing jaw, which image only contains the repair site and the section of the opposing jaw opposite the repair site.

It is within the scope of the invention that in the adaptation step, the vertical height of at least one tooth of the jaw model and / or at least one tooth of the opposing jaw model is changed, preferably reduced. It is recommended that in the adaptation step, the distance between the opposing jaw, in particular the antagonist or repair section and the repair of the jaw is reduced. The change of the at least one tooth of the jaw model and / or the at least one tooth of the opposing jaw model is made with the proviso that the jaw model is approximated to the opposing jaw model or lowered in the direction of the opposing jaw model and the passive model of the jaw reproducing jaw model and opposing jaw model in the virtual articulator in particular after the adaptation of the at least one tooth active Map the distance A _{a of} the jaw and the opposing jaw. Preferably, in the adaptation step, the jaw model and the opposing jaw model are aligned against each other such that the distance A _x between the jaw model and the opposing jaw model corresponds to the active distance A _a or substantially corresponds. Particularly preferably, the exact vertical distance between the jaws of a patient in the active state of the bit is reproduced with the jaw model and the opposing jaw model processed in the adaptation step.

Advantageously, a preferably virtual model of the dental prosthesis is preferably generated in the virtual articulator preferably by the computer after the adaptation step, wherein in particular the vertical height (occlusion height) of the dental prosthesis and / or the formation of the occlusal surface of the dental prosthesis is determined or calculated. It is within the scope of the invention that the chewing surface of the model of the dental prosthesis and the prosthesis created thereafter preferably corresponds in shape and function to a natural occlusal surface. The preparation of the denture is carried out in the invention in a conventional manner. With the help of the model of the denture, for example, the prosthesis is manufactured automatically. After creating the model of the dental prosthesis, it is advisable to carry out a modified determination step in which all teeth are removed in the jaw model having the repair site and the model of the dental prosthesis is arranged in the repair site. The distance between the jaw model and the opposing jaw model is expediently determined in the modified determination step. According to a further embodiment, the model of the dental prosthesis is positioned in the repair site of the jaw model in the modified determination step, whereupon in the opposing jaw model all teeth except for the antagonist or repair section are removed. Preferably, in the modified determination step, a distance between the jaw model and the opposing jaw model is determined by preferably measuring the distance between the reference points of the first reference plane and the second reference plane analogously to the fitting step. If the distance between the jaw model and the opposing jaw model in the modified determination step is greater than the active distance, the model of the dental prosthesis is processed with the proviso that the model of the prosthesis at the set, active distance preferably fit or fit according to the rules of Dental technology in the repair site and particularly preferably rests positively on the antagonist. In this way it is ensured that the dental prosthesis manufactured according to the model of the dental prosthesis has the correct, patient-related vertical height (occlusion height). In the context of the invention, vertical height means the expansion of the dental prosthesis starting from the repair site in the direction of the opposing jaw or antagonist.

The invention is based on the finding that with the method according to the invention a dental prosthesis can be fitted reliably and accurately into a repair site in a denture. The fitting of the denture can be done extremely quickly with the method according to the invention, since no complex, mechanical work on the jaw models must be performed. According to one embodiment, the method can do without an impression taking, which is why it can be characterized by a high degree of tolerability for the patient. It is essential in the method according to the invention that the patient's teeth are received both in the active and in the passive state. This approach ensures that in addition to the design of the occlusal surfaces and the vertical distance of the jaw is known in the active state of the dentition. It is thus possible to manufacture the dental prosthesis with the optimum height with regard to the vertical height and the configuration of the chewing surface. Regrinding when inserting the denture in the repair of the patient are avoided or limited to a minimum extent. Likewise, the elaborate recording of a Okklusionsprotokolls can be dispensed with the inventive method. The processing of the virtual image of the dentition in a computer also ensures a rapid creation of a denture, with errors in the reproduction of representational models are excluded.

The invention will be explained with reference to an exemplary embodiment, a schematic drawing. Show it:

1 a side view of a human jaw with a repair point in the active state,

2 a side view of a human jaw with a repair site in the passive state,

3 a schematic side view of the jaw image and the opposing jaw image in the active state in the representation by the computer,

4 a schematic side view of the jaw model and the opposing jaw model in the passive state in the representation by the computer before the execution of the adaptation step and

5 a schematic side view of the jaw model and the opposing jaw model in the representation by the computer after the execution of the adaptation step with inserted dentures.

1 schematically shows the dentition 1 of a human being, with one as a jaw 2 trained lower jaw and an upper jaw represented opposite jaw 3 , Between two molars 4 . 5 indicates the lower jaw 2 a repair job 6 on, which is formed in the embodiment as a stump. The two, the repair job 6 opposite in a counter jaw position arranged teeth 7 . 8th represent the antagonists. According to 1 is the active state of the dentition 1 shown in which the teeth of the lower jaw 2 on the teeth of the upper jaw 3 issue. In a recording step are images of the lower jaw 2 and the upper jaw 3 received the teeth with a recording device, not shown, converted into a digital data set and transferred to a data processing device or computer, not shown.

According to 2 is the denture 1 of the patient in a passive state. That is, the teeth of the lower jaw 2 are spaced from the teeth of the upper jaw 3 arranged. In the passive state is a width or span of the lower jaw 2 smaller than the width of the lower jaw 2 in the active state. In particular, width means an extension of the lower jaw 2 between the molars. With the receiving device and the computer according to the embodiment, a virtual model of the lower jaw 2 and the upper jaw 3 created by preferably the lower jaw 2 and the upper jaw 3 is scanned with the recording device, not shown. The digital scan data are transferred to the computer, also not shown, wherein the scan data from a virtual model of the lower jaw 2 and the upper jaw 3 what is created in 4 is shown. The 3 to 5 show images output by the computer through a display.

According to 3 becomes the virtual image of the lower jaw 2a and the virtual image of the upper jaw 3a used in a better overview, not shown, virtual articulator, wherein the image of the lower jaw 2a and the upper jaw 3a the active condition of the dentition 1 according to 1 played back or simulated in the computer. In 3 It is shown that there is an active distance A _a between the image of the upper jaw 3a and the image of the lower jaw 2a is measured. This is done with the computer through the image of the lower jaw 2a a first reference plane 9 with a first reference point 10 placed, which reference plane 9 in terms of their orientation invariant with respect to the image of the lower jaw 2a is. Furthermore, it is shown that in the image of the upper jaw 3a a second reference plane 11 is arranged, the orientation of the second reference plane 11 relative to the image of the upper jaw 3a is invariant. At the second reference plane 11 becomes a second reference point 12 Are defined. The active distance A _a is according to 3 between the first and the second reference point 10 . 12 measured.

In the 4 and 5 is shown that the jaw model 2 B is divided into three jaw segments (segments) a, b, c, where a segment b is the repair site 6b and hereinafter referred to as repair segment b. The opposing jaw model 3b is divided according to the figures in two opposing jaw sections (sections) d, e, wherein a portion e of the repair site 6b opposite opposing jaw position (repair section) 7b having. In the virtual articulator, not shown, alignment of the lower jaw model takes place 2 B to the upper jaw model 3b preferably according to the embodiment in the adjustment step in that only the repair point 6b having repair segment 7b in the jaw model 2 B is arranged. On the repair site 6b becomes a digitized bite registration 14 which digitized bite registration 14 the active condition of the dentition 1 reproduces. The opposing jaw model 3b or the antagonists having opposing jaw section 7b are arranged in the virtual articulator such that the antagonists of the opposing jaw 3b Occlude with the digitized bite registration. This will be in the adjustment step based on the orientation of the repair 6b having segment b relative to the opposing jaw model 3b the active condition of the dentition 1 played. In this state, which is not shown in the figures, the active distance A _a as in relation to the 3 explained, be measured.

In 4 is a model of the lower jaw (jaw model or lower jaw model) 2 B and a model of the upper jaw (opposing jaw model or upper jaw model) 3b before performing the adjustment step in the virtual articulator. After the execution of the adjustment step, the segments a, b, c and the sections d, e in the jaw model are preferably and according to the exemplary embodiment 2 B or opposing jaw model 3b arranged. The lower jaw model 2 B or the maxillary model 3b give the lower jaw 2 or the upper jaw 3 according to 2 in the passive state again. Because of that, the upper jaw model 3b and the mandible model 2 B reproduce the passive state, although a precise representation of the chewing surfaces of the individual teeth is possible, however, is not an optimal occlusion because of the tapered width or span of the lower jaw model 2 towards the active condition of the dentition 1 possible. Therefore, a distance A _x between the lower jaw model 2 B according to 4 and the maxillary model 3b relative to the active distance A _a according to 3 increased. Between the in 4 illustrated, digitized bite registration 14 and the antagonist of the opposing jaw 3b of an opposing jaw section 7b Therefore, there is no optimal occlusion, what through the gap 15 in 4 is clarified. In addition to the profile of the occlusal surface, the exact vertical height of the denture to be fitted 13 who in 5 is shown to be able to determine the vertical heights of the teeth of the lower jaw model 2 B according to 4 reduced by the computer such that the distance A _x the active distance A _a according to 3 corresponds and the digitized bite registration 14 for attachment to the antagonists of the repair section 7b are brought, which antagonists preferably and according to the embodiment undergo no change in their height.

In 5 is the mandible model 2 B and the maxillary model 3b shown after the adjustment step, wherein after the adjustment step, the distance A _x corresponds to the active distance A _a . Based on the lower jaw model 2 B and the maxilla model 3b after the execution of the adaptation step, a model of a dental prosthesis 13 created or calculated, the vertical height is dimensioned such that the model of the dental prosthesis 13 with the models of antagonists 7a . 8a occluded. Preferably and according to the embodiment, starting from the model of the tooth set 13 an unrepresented dentures made, which dentures after attachment in the repair 6 or the stump of the lower jaw 2 of the dentition 1 then in the active state of the dentition 1 optimal with the antagonists 7 . 8th of the upper jaw 3 occluded.

Claims (10)

Method for fitting a tooth replacement into a repair site ( 6 ) of a dentition ( 1 ) with a jaw ( 2 ) and a counter-jaw ( 3 ), whereby the jaw ( 2 ) of the bit ( 1 ) at least one repair point ( 6 ), wherein in a receiving step at least in the area of the repair site ( 6 ) of the bit ( 1 ) an image of the jaw ( 2 ) and the opposing jaw ( 3 ) is created in an active state, wherein an active distance A _a between an image of the jaw ( 2a ) and an image of the opposing jaw ( 3a ) is determined by a first fixed point ( 10 ) the jaw ( 2 ) and a second fixed point ( 12 ) the opposite jaw ( 3 ), wherein the distance A _a between the first fixed point ( 10 ) and the second fixed point ( 12 ), wherein a virtual model of the jaw (jaw model) ( 2 B ) and the opposing jaw (opposing jaw model) ( 3b ) in each case in a passive state of the bit ( 1 ), wherein in an adjustment step the jaw model ( 2 B ) and the opposing jaw model ( 3b ) are aligned such that the repair point ( 6 ) is arranged opposite to the corresponding opposing jaw position, wherein in an adaptation step the jaw model ( 2 B ) for engagement with the opposing jaw model ( 3b ), whereupon a distance A _x between the jaw model ( 2 B ) and the opposing jaw model ( 3b ) is measured by the distance A _x between the first fixed point ( 10 ) and the second fixed point ( 12 ), the jaw model ( 2 B ) to the opposing jaw model ( 3b ) is approximated with the proviso that one between the jaw model ( 2 B ) and the opposing jaw model ( 3b ) distance A _{x is} identical or approximately identical to the active distance A _a , wherein after the adaptation step a model of a dental prosthesis ( 13 ), which model of the dental prosthesis ( 13 ) positively at the repair point ( 6b ) of the jaw model ( 2 B ) is applied when the active distance A _a between the jaw model ( 2 B ) and the opposing jaw model ( 3b ) and wherein based on the model of the dental prosthesis ( 13 ) a denture for the dentition ( 1 ) is manufactured. Method according to claim 1, wherein the image of the jaw ( 2a ) and the image of the opposing jaw ( 3a ) each as a virtual image of the jaw ( 2 ) of the bit ( 1 ) and the opposing jaw ( 3 ) of the bit ( 1 ). Method according to one of claims 1 or 2, wherein the image of the jaw ( 2a ) and / or opposing jaw ( 2 B ) and preferably the jaw model ( 2 B ) and / or opposing jaw model ( 3b ) by scanning the jaw ( 2 ) and / or the opposing jaw ( 3 ) is / are generated. Method according to one of claims 1 to 3, wherein the jaw model ( 2 B ) is divided into a plurality of jaw segments (segments) (a, b, c), wherein a segment (b) the repair point ( 6b ) and wherein the opposing jaw model ( 3b ) is subdivided into a plurality of opposing jaw sections (sections) (d, e), wherein a section (e) of the repair point ( 6b ) opposite opposing jaw position (repair portion) has. Method according to claim 4, wherein a jaw segment (a, b, c) designed as a repair segment (b) comprises only the repair site ( 6b ) of the jaw ( 2 ). Method according to one of claims 4 or 5, wherein the jaw segments (a, b, c) and / or the counter-jaw sections (d, e) are arranged in a virtual articulator. The method of claim 6, wherein in the adjustment step, the repair segment (b) of the jaw model ( 2 B ) with a digitized bite registration ( 14 ) and the opposing jaw model ( 3b ) are placed in the virtual articulator. Method according to one of claims 4 to 7, wherein in the adaptation step, all the jaw segments (a, c) except for the repair segment (b) in the jaw model clamped in the virtual articulator ( 2 B ) are used. Method according to one of claims 1 to 8, wherein the active distance A _{a is} obtained by a distance between a jaw model ( 2 B ) associated with the first reference plane ( 8th ) and one of the opposing jaw model ( 3b ), second reference plane ( 11 ) is measured. Method according to one of claims 1 to 9, wherein in the adaptation step, the vertical height of at least one tooth of the jaw model ( 2 B ) and / or at least one tooth of the opposing jaw model ( 3b ) is changed, preferably reduced.

Images