IMPLANT COMPRISING A RADIALLY ENLARGED POST ON THE SUPPORT STRUCTURE, SOFT TISSUE DISPLACEMENT SYSTEM, MANUFACTURING PROCESS AND PLANNING PROCESS FOR MANUFACTURING AN IMPLANT

Abstract

The invention relates to an implant (1) comprising a support structure (5) which is prepared for anchoring, following the contours of the bone, in a jaw- and/or cranial bone (2), wherein at least one integrally attached post (7) protrudes from the support structure (5), said post being designed to have a finished denture anchored thereto and the post (7) having a base (9) that is formed out of the support structure (5) and is completed by a distal end region (10) with the interposition of a radially enlarged region (11). The invention also relates to a soft tissue displacement system (19) comprising an implant (1), a manufacturing process for a soft tissue displacement system (19) and a planning process for manufacturing an implant (1).

Claims

1. An implant comprising a support structure which is prepared for anchoring, following the contours of the bone, at a jaw and/or cranial bone, wherein at least one integrally attached post projects from the support structure, said post being configured for anchoring a final denture thereto, wherein the post has a base formed from the support structure, which is completed by a distal end region with the interposition of a radially enlarged region, wherein the distal end region has a rotation prevention flat portion for preventing a relative rotation between the support structure and the final denture which can be anchored to the post.

2. The implant according to claim 1, wherein the distal end region is prepared for anchoring a soft tissue holding-down device and/or for anchoring a final denture.

3. The implant according to claim 1, wherein the distal end region has a retention form.

4. The implant according to claim 1, wherein the radially enlarged region is formed as a collar surrounding the post.

5. The implant according to claim 4, wherein the collar is received in a plane through which a center axis of the post runs perpendicular.

6. The implant according to claim 1, wherein several posts protrude from the support structure, wherein the radially enlarged regions of the several posts are arranged in a common plane.

7. A soft tissue displacement system having an implant which has a support structure which is prepared for anchoring, following the contours of the bone, in a jaw and/or cranial bone, wherein at least one post protrudes from the support structure, said post being configured for anchoring a final denture thereto, wherein the soft tissue displacement system has a final denture which can be anchored to the post and a holding-down device different from the final denture which is essentially plate-shaped, has at least one indentation for receiving the distal end region of the post and is anchored to the post, wherein the distal end region has a rotation prevention flat portion for preventing a relative rotation between the support structure and the holding-down device anchored to the post and/or the final denture.

8. The soft tissue displacement system according to claim 7, wherein the holding-down device is optically and functionally adapted to adjacent teeth and adjacent soft tissue.

9. (canceled)

10. A method of manufacturing a soft tissue displacement system according to claim 7, wherein, in a preparatory step, information on the individual dental arch shape acquired by standard measuring devices is used in order to select a specific one from a set of prefabricated standard holding-down devices, wherein an adjustment of the overall extension is subsequently made depending on patient-specific conditions.

11. (canceled)

12. A method of preparing for the manufacture of an implant that includes a support structure and at least one integrally attached post that projects from the support structure, the post being configured for anchoring a final denture thereto and the support structure being configured to follow contours of a jaw bone and/or cranial bone, wherein the post has a base formed from the support structure, which is completed by a distal end region with the interposition of a radially enlarged region, and wherein the distal end region has a rotation prevention flat portion for preventing a relative rotation between the support structure and the final denture which can be anchored to the post, the method comprising designing the post to receive the final denture after removal of a soft tissue hold down device that is essentially plate-shaped, has at least one indentation for receiving the distal end region of the post and is anchored to the post.

Description

[0060] The invention is explained in more detail below with the aid of a drawing. Different embodiments are shown.

[0061] The Figures show:

[0062] FIG. 1 shows a frontal view of an implant according to the invention with a holding-down device according to the invention connected to it to represent a soft tissue displacement system according to the invention,

[0063] FIG. 2 shows a second configuration of such a soft tissue displacement system,

[0064] FIG. 3 shows a further perspective view of the embodiment from FIG. 2,

[0065] FIG. 4 shows the implant from FIG. 1 with the holding-down device removed,

[0066] FIG. 5 shows the single implant from FIG. 4 in contact with a mandible bone,

[0067] FIG. 6 shows a further representation of the implant from FIG. 5 when viewed from above,

[0068] FIG. 7 shows a single representation of the holding-down device, from one side of the implant, as seen in the embodiments of FIGS. 1 and 4,

[0069] FIG. 8 shows two variants of an alternative holding-down device for the configuration of the holding-down device from FIG. 7,

[0070] FIG. 9 shows a view of the alternative holding-down device placed on the support structure of an alternative implant,

[0071] FIG. 10 shows an enlargement of the posts at the support structure of an implant,

[0072] FIG. 11 shows an anchoring sleeve inserted between the holding down device and the support structure, and

[0073] FIG. 12 shows a further configuration of an implant according to the invention with bridge parts protruding particularly far from a treatment site.

[0074] The figures are merely schematic in nature and only serve to understand the invention. The same elements are provided with the same reference signs. Features of the individual embodiments are interchangeable.

[0075] FIG. 1 shows an implant 1 according to the invention. The implant 1 is to be anchored to a jaw bone 2, i.e. a mandible bone. No fixation screws 20 (see FIG. 2) have been inserted in the condition shown. However, the fixation screws 20 are provided for penetrating receiving holes 4. These receiving holes 4 can be present in a grid-like structure, i.e. a support structure 5. In particular, they can be present in fixation portions 6.

[0076] In the embodiment shown in FIG. 1, the support structure 5 has three posts 7, which can also be described as foundation. A holding-down device 8 is attached onto the posts 7. This holding-down device 8 is fitted precisely onto the posts 7.

[0077] As can be seen well in FIG. 5, each post 7 has a base 9. At a distal end of each post 7, there is a distal end region 10. Between the distal end region 10 and the base 9 there is a radially enlarged region 11. The radially enlarged region 11 is shaped like a collar 12. The collar 12 is formed around the surface of the post 7, i.e. circumferentially, and lies in a special plane. This plane is the plane that is oriented perpendicular to the center axis/symmetry axis of the post 7. Finally, the post 7 has a tulip shape.

[0078] The post 7 has a flattening 13 at the front. The flattening 13 can also be called flat portion and is used to realize a rotation prevention flat portion.

[0079] In the embodiment of FIG. 5 it can also be seen that in the receiving hole 4 there is a threaded portion 14, which is provided for interaction and to be filled form-fittingly by an outer thread of the fixation screw 20 which is not shown. The fixation screw 20 penetrates into the bone, i.e. the jaw bone 2.

[0080] In anticipation of FIG. 12, it is already explained that certain fixation portions 6 can be formed as bridge parts 15. It is also possible that at a distal end of such a bridge part 15, an additional grid structure 16 may be present, e.g. in the form of a plate. That plate may in turn have receiving holes 4, as realized in the embodiment of FIG. 12.

[0081] Coming back to FIG. 1, it should be explained that the holding-down device has a gingiva reconstruction region 17, which is complemented on the side of the oral cavity by a tooth reconstruction region 18 remote from the implant.

[0082] The implant 1 and the holding-down device 8 together form a soft tissue displacement system 19.

[0083] In the embodiment of FIGS. 2 and 3, fixation screws 20 are already inserted in receiving holes 4. As can be seen in FIG. 2 and FIG. 3, the surface marked with the reference sign 21 has a different surface structure than the adjacent elements of the support structure 5.

[0084] In FIG. 4, the placement along the arrows 22 is shown. The holding-down device 8 is thus placed on the posts 7, which project integrally/in one piece/in one material from the support structure 5. The lower edge 23 of the holding down device 8, which is referenced by the reference sign 23, rests on the collar 12, wherein alternatively a spacing can be considered.

[0085] As can be seen in FIG. 7, the holding-down device 8 has indentations 24, so that the posts 7 can be inserted there.

[0086] FIG. 8 shows two different configurations of holding-down devices 8, i.e. on the left side a holding-down device 8 having two indentations 24, which are each formed as troughs 25. The holding down device 8 shown on the right side in FIG. 8 has four indentations 24 formed as blind holes.

[0087] In FIG. 11, an anchoring sleeve 26 is shown, which is to be inserted between a holding down device 8, which is not shown, and the support structure 5. The anchoring sleeve 26 has two anchoring pins 27. The two anchoring pins 27 of the anchoring sleeve 26 protrude radially in opposite directions on opposite sides of the anchoring sleeve 26 (orthogonal to a center axis 28 of the post 7).

[0088] In the embodiment shown in FIG. 9, anchoring screws 29 are inserted to fix the holding-down device 8 from the implant 1 and then generate a soft tissue displacement system 19 according to the invention. The blind holes 30, in which the respective anchoring screws 29 are sunk, can each be covered by a cover element that is not shown.

[0089] Two of the posts 7, which can be clearly seen in FIGS. 4 and 6, are shown larger in FIG. 10.

LIST OF REFERENCE SIGNS

[0090] 1 implant [0091] 2 jaw bone [0092] 3 mandible bone [0093] 4 receiving hole [0094] 5 support structure [0095] 6 fixation portion [0096] 7 post [0097] 8 holding-down device [0098] 9 base [0099] 10 distal end region of the post [0100] 11 radially enlarged region [0101] 12 collar [0102] 13 flattening [0103] 14 threaded portion [0104] 15 bridge part [0105] 16 additional grid structure [0106] 17 gingiva reconstruction region [0107] 18 tooth reconstruction region [0108] 19 soft tissue displacement system [0109] 20 fixation screw [0110] 21 surface of the post [0111] 22 placement direction [0112] 23 lower edge [0113] 24 indentation [0114] 25 trough [0115] 26 anchoring sleeve [0116] 27 anchoring pin [0117] 28 center axis [0118] 29 anchoring screw [0119] 30 blind hole