METHOD FOR MEASURING PATIENT-SPECIFIC TEMPOROMANDIBULAR JOINT RELATION AND TRANSFERRING IT INTO A VIRTUAL ARTICULATOR

Abstract

The present invention relates to method of measuring patient-specific temporomandibular joint relation and transferring it into a virtual articulator (2) by using, a device (1) comprising: a transfer linkage (3) which can be attached from its upper end to a ace bow (4); an impression means (5) for bolding impression material (6) and for taking the impression of the upper jaw and/or the lower jaw of the patient through said impression material (6); at least a first form-fitting component (7) fixed at the lower end of the transfer linkage (3), for leaving an impression (8) on the impression material (6) to be placed on the grip (9) of the impressions means (5) projecting out of the mouth of the patient.

Claims

1. A method of measuring patient-specific temporomandibular joint relation and transferring it into a virtual articulator, the method comprising: inserting an impression means such as a bite fork, an impression tray or a dual-arch impression tray into the mouth of the patient and fixing on the upper jaw; fixing the face bow on the patients head and aligning according to a predefined cranial reference plane (C); fixing of a transfer linkage including at least a first form-fitting component fixed at its lower end, to the face bow: leaving an impression of the first form-fitting component with the help of silicone impression material or the like on the grip of the impression means; removing the face bow, the transfer linkage and the impression means from the patient; and separating the first form-fitting component from the impression in the impression means; further comprising: creating digital 3D models of the upper jaw and the lower jaw of the patient; detecting by using a surface scanner, the surface of the impression means including at least part of the upper jaw impression and the surface of the impression left by the first form-fitting component optionally with/without a scanbody inserted therein, thereby creating a model of the impression means; correlating the upper jaw model with the model of the impression means, wherein this step is dispensed with when using an impression tray; determining the transformation between the upper jaw model and the face bow based on the model of the impression means and a transformation between the first form-fitting component and the face bow; transferring of the upper jaw model into the virtual articulator using the determined transformation; determining the relation of the upper jaw model to the lower jaw model, wherein this step is dispensed with when using a dual-arch impression tray; a transferring the lower jaw model into the virtual articulator according to the determined relation between upper jaw model and lower jaw model.

2. A method of measuring patient-specific temporomandibular joint relation and transferring it into a virtual articulator, the method comprising: inserting an impression means such as a bite fork, an impression tray or a dual-arch impression tray into the mouth and fixing on the upper jaw; fixing the face bow on the patient's head and aligning according to a predefined cranial reference plane (C); fixing a transfer linkage including at least a first form-fitting component fixed at the lower end, to the face bow, fixing a second form-fitting component to the impression means with the help of silicone impression material or the like when the first form-fitting component and the second form-fitting component are in the engaged state, removing the face bow, the transfer linkage and the impression means from the patient: releasing the second form-fitting component from the first form-filling component fixed to the transfer linkage; further comprising: creating digital 3D models of the upper jaw and the lower jaw of the patient; detecting by using a surface scanner, the surface of the impression means including at least part of the upper jaw impression and the surface of the second form-fitting component fixed with the help of impression material to the impression means, thereby creating a model of the impression means; correlating the upper jaw model with the model of the impression means, wherein this step is dispensed with when using an impression tray; determining the transformation between the upper jaw model and the face bow based on the model of the impression means and a transformation between the first and second form-fitting components and the face bow transferring of the upper jaw model into the virtual articulator using the determined transformation; determining the relation of the upper jaw model to the lower jaw model, wherein this step is dispensed with when using a dual-arch impression tray; transferring the lower jaw model into the virtual articulator according to the determined relation between upper jaw model and lower jaw model.

3. The method according to claim 1, wherein the step of creating digital 3D models of the upper jaw and lower jaw of the patient includes: recording directly in the patient's mouth with an intraoral scanner, of a step of generating with an extraoral scanner previously generated silicone impressions or plaster models, and wherein the step of determining the relation of the upper jaw model to the lower jaw model includes: recording of the two jaws in the final bite position.

4. The method according to any one of claims 1, characterized in wherein the impression means comprises a bite fork or an impression tray or a dual-arch impression tray.

5. The method according to any one of claims 1, wherein the first form-fitting component has one or more recesses and/or one or more projections.

6. (canceled)

7. The method according to claim 5 wherein the recess and the projection have matching rounded and/or cornered shapes.

8. The method according to claim 1, wherein the transfer linkage is rigid.

9. The method according to claim 1, wherein the device further comprises: an adjustment means for adjusting the position of the lower end of the transfer linkage in the height direction (Y); and a reading means for reading the position of the lower end of the transfer linkage in the height direction (Y),

10. The method according to claim 9, wherein the adjustment means is further adapted to selectively adjust the position of the lower end of the transfer linkage in the height direction (Y) and the horizontal direction (X), and the reading means is further adapted to read the position of the lower end of the transfer linkage in the height direction (Y) and the horizontal direction (X).

11. The method according to claim 10, wherein the transfer linkage comprises: a first rod which extends in the height direction (Y); and a second rod which extends in the horizontal direction (X), wherein at least the first form-fitting component is fixed at the end of the second rod, and wherein the adjustment means comprises a slider which has a first slot slidably engaged with the first rod, and a second slot slidaby engaged with the second rod, and wherein the reading means comprises two scales for reading the position of the first form-fitting component.

12. The method according to claim 2, wherein the step of creating digital 3D models of the upper jaw and lower jaw of the patient includes: recording directly in the patient's mouth with an intraoral scanner, or generating with an extraoral scanner previously generated silicone impressions or plaster models, and wherein the step of determining the relation of the upper jaw model to the lower jaw model includes: recording of the two jaws in the final bite position.

13. The method according to any one of claim 2, wherein the impression means comprises a bite fork or an impression tray or a dual-arch impression tray.

14. The method according to any one of claim 2, wherein the first form-fitting component has one or more recesses and/or one or more projections.

15. The method according to any of claim 2, wherein the second form-fitting component has one or more projections and/or one or more recesses releasably and form-fittingly engaging respectively with the one or more recesses and/or one or more projections of the first form-fitting component.

16. The method according to claim 15 Wherein the recess and the projection have matching rounded and/or cornered shapes.

17. The method according to claim 2, wherein the transfer linkage is rigid.

18. The method according to claim 2, wherein the device further comprises: an adjustment means for adjusting the position of the lower end of the transfer linkage in the height direction (Y); and a reading means for reading the position of the lower end of the transfer linkage in the height direction (Y).

19. The method according to claim 18, wherein the adjustment means is further adapted to selectively adjust the position of the lower end of the transfer linkage in the height direction (Y) and the horizontal direction (X), and the reading means is further adapted to read the position of the lower end of the transfer linkage in the height direction (Y) and the horizontal direction (X).

20. The method according to claim 19, wherein the transfer linkage comprises: a first rod which extends in the height direction (Y); and a second rod which extends in the horizontal direction (X), wherein at least the first form-fitting component is fixed at the end of the second rod, and wherein the adjustment means comprises a slider which has a first slot slidably engaged with the first rod , and a second slot slidaby engaged with the second rod and wherein the reading means comprises two scales for reading the position of the first form-fitting component.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0021] In the subsequent description, the present invention will be described in more detail by using exemplary embodiments and referring to the drawings, wherein

[0022] FIG. 1 is a schematic view of a face bow, a transfer linkage and a bite fork according to the prior art;

[0023] FIG. 2 is a schematic view of the Camper's plane as cranial reference plane for the orientation of the upper jaw;

[0024] FIG. 3 is a schematic view of the face bow, the transfer linkage and the bite fork of FIG. 1 according to the prior art as attached to a patient's head;

[0025] FIG. 4 is a schematic view of the transfer linkage and the bite fork attached into a physical articulator, wherein the upper and lower jaw models are plastered in their correct positions according to the prior art;

[0026] FIG. 5 is a schematic view of a virtual articulator from the inLab software;

[0027] FIG. 6 is a schematic view of a device used in the process of leaving the impression of a first form-fitting component into the impression material on a bite fork according to a first embodiment of the present invention;

[0028] FIG. 7 is a schematic view of a device used in the process of plastering a second form fitting component on the bite fork through the impression material according to a second embodiment of the present invention;

[0029] FIG. 8 is a schematic top view of the impression means of FIG. 7 having the second form fitting component plastered on the grip and the impression of the upper jaw;

[0030] FIG. 9 is a schematic view of a device including a transfer linkage with an adjustment means according to a third embodiment of the present invention.

[0031] The reference numbers shown in the drawings denote the following elements which will be referred to in the subsequent description of the exemplary embodiments. [0032] 1. Device [0033] 2.. Virtual articulator [0034] 3. Transfer linkage [0035] 4. Face bow [0036] 5. Impression means [0037] 6. Impression material [0038] 7. 1.sup.st form-fitting component [0039] 8. Impression [0040] 9. Grip [0041] 10. 2.sup.nd form-fitting component [0042] 11. Bite fork [0043] 12. Recess [0044] 12′ Recess [0045] 13. Projection [0046] 13′ Projection [0047] 14. Adjustment means [0048] 15. Reading means [0049] 16. 1.sup.st rod [0050] 17. 2.sup.nd rod [0051] 18. Slider [0052] 19. 1.sup.st Slot [0053] 20. 2.sup.nd Slot [0054] 21. Scale
Y: Height direction
X: Horizontal direction
C: Cranial reference plane

[0055] FIG. 6 is a schematic view of the device (1) according to a first embodiment of the present invention for measuring patient-specific temporomandibular joint relation and transferring the same into a virtual articulator (2) or a physical articulator.

[0056] The device (1) has a transfer linkage (3), a face bow (4), and an impression means (5). The transfer linkage (3) is attached from its upper end to the face bow (4). The impression means (5) is suitable for holding impression material, (6) and for taking the impression of the upper jaw and/or the lower jaw of the patient through said impression material (6). The device (1) has at least a first form-fitting component (7) fixed at the lower end of the transfer linkage (3), for releasably leaving an impression (8) on the impression material (6) to be placed on the grip (9) of the impressions means (5) projecting out of the mouth of the patient. The dentist uses the device (1) of FIG. 6 as follows. The impression means (5) such as a bite fork (11), an impression tray or a dual-arch impression tray is inserted into the mouth of the patient and fixed on the upper and/or lower jaw of the patient. Next, the face bow (4) is fixed on the patient's head and aligned according to the cranial reference plane (C). Thereafter, the transfer linkage (3) including at least a first form-fitting component (7) fixed at its lower end is attached to the face bow (4). Later silicone impression material (6) or the like is placed onto the grip (9) of the impression means (5) such that the first form-fitting component. (7) leaves an impression (8). Depending on the type of the impression means (s) also the imprints of the upper and/or lower jaws are taken. For example, when using a bite fork (11) only the impression of the upper jaw is taken. After the imprint material (6) is cured the face bow (4), the transfer linkage (3) and the impression means (5) are removed from the patient. Finally, the first form-fitting component (7) is separated from the impression (8) in the impression means (5) as shown in the lower part of FIG. 6, and the impression means (5) is sent to the dental laboratory.

[0057] FIG. 7 is a schematic view of the device (1) according to a second embodiment of the present invention for measuring patient-specific temporomandibular joint relation and transferring it into a virtual articulator (2) or a physical articulator. As shown in FIG. 7, the device (1) further includes a second form-fitting component (10) which can be releasably and form-fittingly engaged with the first form-fitting component (7). The second form-fitting component (10) can be plastered into the impression material (6) to be poured on the grip (9) of the impression means (5) projecting out of the mouth of the patient. The dentist uses the device (1) of FIG. 7 as follows. The impression means (5) such as a bite fork (11), an impression tray or a dual-arc impression tray is inserted into the mouth of the patient and fixed on the upper and/or lower jaw of the patient. Next, the face bow (4) is fixed on the patient's head and aligned according to the Camper's plane (C.). Thereafter, the transfer linkage (3) including at least a first form-fitting component (7) fixed at the lower end, is attached to the face bow (4). Later the second form-fitting component (10) is releasably engaged with the first form-fitting component (7). Next, the second form-fitting component (10) is plastered to the impression means (5) with the help of silicone impression material (6) or the like when the first form-fitting component (7) and the 2.sup.nd form-fitting component (10) are in the engaged state. Depending on the type of the impression means (5) also the impressions of the upper and/or lower jaw are taken. For example, when using a bite fork (11) only the impression of the upper jaw is taken. After curing, the face bow (4), the transfer linkage (3) and the impression means (5) are removed from the patient. Next, the second form-fitting component (10) together with the impression means (5) is separated from the first form-fitting component (7) fixed to the transfer linkage (3) as shown in the lower part of FIG. 7, and the impression means (5) is sent to the dental laboratory. FIG. 8 is a schematic top view of the impression means (5) of FIG. 7. As shown in FIG. 8 the impression means (5) holds the impression of the upper jaw and the second form fitting component fixed with the help of silicone impression material (6) or the like.

[0058] As shown in FIG. 7, the first form-fitting component (7) has a recess (12) and a projection (13) which engage with the projection (13′) and the recess (12′) of the second form-fitting component (10).

[0059] According to the present invention the transfer of the face bow (4) information, i.e., the position and the orientation, into the virtual articulator (2) or physical articulator takes place in two major steps. In the first major step, the position and orientation of the face bow (4) is transferred to the impressions means (5) through the impression (8) generated by the 1.sup.st form-fitting component (7) thereon or through the 2.sup.nd film-fitting component (10) plastered thereon. The first major step may be performed at the dentist. In the second major step, the information is transferred into the virtual articulator (2) or the physical articulator. The second major step may be performed in the dental laboratory.

[0060] To transfer the patient-specific temporomandibular joint relation into a virtual articulator (2), the dentist or dental technician uses the device (1) of FIG. 6 or 7 for the second major step as follows. Digital 3D models of the upper jaw and the lower jaw of the patient are created. Next the surface of the impression means (5) including at least part of the upper jaw impression and the surface of the impression (8) left by the first form-fitting component (7) (see FIG. 6) or the surface of the second form-fitting component (10) fixed with the help of impression material (6) to the impression means (5) (See FIG. 7) is detected by using a surface scanner, and thus a model of the impression means (5) is created. Next, the upper jaw model is correlated with the model of the impression means (5). This step can be omitted when an (individual) impression tray has been used as the impression means (5). Next, the transformation between the upper jaw model and the face bow (4) is determined based on the model of the impression means (5) and the deposited transformation between the first second form-fitting components (7,10) and the face bow (4). Next, the upper jaw model is transferred into the virtual articulator (2) by using the determined transformation. Next, the relation of the upper jaw model to the lower jaw model is determined. This step can be omitted when an (individual) dual-arch impression tray has been used. Next, the lower jaw model is transferred into the virtual articulator (2) according to the determined relation between upper jaw model and lower jaw model.

[0061] According to the present invention, digital 3D models of the upper jaw and lower jaw are created by directly recording in the patient's mouth with an intraoral scanner. Alternatively, digital 3D models of the upper jaw and lower jaw are created by recording previously generated silicone impressions or plaster models with an extraoral scanner. According to the present invention, the relation of the upper jaw model to the lower jaw are determined by recording the two jaws in the final bite position.

[0062] According to the present invention, the transfer of the face bow (4) information i.e., position and orientation can also be transferred into a physical articulator. To transfer the patient-specific temporomandibular joint relation into a physical articulator, the dentist or dental technician uses the device (1) of FIG. 6 or 7 for the second major step as follows. After the impression means (5) is sent to the dental laboratory, a copy/duplicate of the transfer linkage (3) is attached to the physical articulator. Next, the impression means (5) is joined with the copy of the transfer linkage (3) in the physical articulator. Next, the upper/lower jaw model are joined in the correct position in the physical articulator. Alternatively, the original transfer linkage (3) may be used.

[0063] As shown in FIG. 6 and FIG. 7 the transfer linkage (3) is rigid according to the first and second embodiments of the present invention.

[0064] Alternatively, the device (1) in FIG. 6 and FIG. 7 may be provided with a transfer linkage (3) that is adjustable. FIG. 9 is a schematic view of the device (I) according to a third embodiment of the present invention which has adjustment means (14) adapted to selectively adjust the position of the lower end of the transfer linkage (3) in the height direction (Y) and the horizontal direction (X), and a reading means (15) adapted to read the position of the lower end of the transfer linkage (3) in the height direction (Y) and the horizontal direction (X). As shown in FIG. 9, the transfer linkage (3) comprises a first rod (16) which extends in the height direction (Y) and a second rod (17) which extends in the horizontal direction (X). As shown in FIG. 9, the first form-fitting component (7) is fixed at the end of the second rod (17). As shown in FIG. 9, the adjustment means (14) comprises a slider (18) which has a first slot (19) slidably engaged with the first rod (15), and a second slot (20) slidaby engaged with the second rod (17). The reading means (18) has two scales (21) for reading the adjusted position of the first form-fitting component (7).