ORTHODONTIC REGULATION DEVICE

Abstract

An orthodontic device for displacing a tooth and/or a group of teeth of a patient, which directly adjoin the tooth along a mandibular arch, in particular in the lower jaw in the area of the molars, the device comprising: a rigid, dimensionally stable connection between the tooth to be displaced and an attachment point for the device which fixed to the jaw and substantially does not change during the treatment of the patient, a regulating device for changing the length of the rigid connection in direct vicinity of the tooth to be displaced. A torsion-proof attachment of the device in the jaw bone may be provided. Alternatively, a point of support is provided on one tooth.

Claims

1. An orthodontic device for displacing at least one tooth of a patient directly adjoining the at least one tooth along the mandibular arch, in particular in the lower jaw in the area of the molars, the device comprising: a rigid, dimensionally stable connection between the at least one tooth to be displaced and an attachment point fixed to the jaw and substantially not changing during the treatment of the patient, a regulating device in the rigid connection which comprises a screw spindle for changing the length of the rigid connection between the attachment point and the at least one tooth to be displaced and, thus, for generating an alteration stimulus on the tissue surrounding the at least one tooth to be displaced.

2. A device according to claim 1, wherein the attachment point fixed to the jaw is immobile and torsion-proof.

3. A device according to claim 1, further comprising a point of support in the jaw for the rigid connection between the at least one tooth to be displaced and the attachment point fixed to the jaw, wherein the point of support is at least one of a bracket and an upper screw hole.

4. A device according to claim 3, wherein the rigid connection consists of two parts mechanically connected with each other, namely one anchoring part connected to the attachment point fixed to the jaw and a driving part leading to the at least one tooth to be displaced, which includes adjusting means.

5. A device according to claim 4, wherein the connection leading from one point of support to the at least one tooth to be displaced and the connection of the rigid connection, which leads from the point of support to the attachment point fixed to the jaw, are vertically upon each other in functional respect.

6. A device according to claim 4, wherein the adjusting means comprises a spindle drive with a threaded rod aligned in the displacement direction of the at least one tooth to be displaced, which is connected with the at least one tooth to be displaced.

7. A device according to claim 1, wherein the at least one tooth to be displaced is a molar and that the point of support is located on a premolar tooth.

8. A device according to claim 1, further comprising a point of support in the jaw for the rigid connection between the at least one tooth to be displaced and the attachment point fixed to the jaw, wherein the point of support is a clamp on a premolar tooth.

9. A device according to claim 8, wherein the connection starting at the point of support ends at several, preferably two points fixed to the jaw.

10. A device according to claim 9, wherein the device leads to a distributor from which arms lead to points fixed to the jaw in the opposite direction.

Description

[0070] The invention is explained in greater detail in two examples of embodiment by means of the FIGS., wherein:

[0071] FIG. 1 schematically shows an orthodontic regulatory device according to the invention for displacing a tooth, in particular a molar, which comprises an anchoring part and a driving part, which each start from a support point, and

[0072] FIG. 2 shows a variant of the anchoring part, and FIG. 3 shows a variant of the regulatory device.

[0073] A first embodiment of a regulatory device 1 for displacing a tooth of a patient and/or a group of teeth directly adjoining this tooth consists of two parts mechanically connected with each other, namely an anchoring part 2 and a driving part 3.

[0074] Both parts start from a point of support which is located in the jaw, e.g. a bracket 4, which is attached on the tooth No. 4. The bracket serves as an intermediate element between the parts 2 and 3 which are connected with each other bridging a short distance. Due to the spatial conditions the connection should be as short as possible. Other points of support are possible as described below with respect to FIG. 3.

[0075] The anchoring part 2 comprises a stable wire 5 which starts from the bracket 4 and leads to an attachment point S which is firmly connected to the jaw, for instance a TAD element such as a miniature implant screw held in the mandibular alveolar process of the bone. Several screws may also be used to hold the anchoring part in a torsion-proof fashion.

[0076] The attachment point does not change its position during the treatment. The wire 5 comprises some clamping elements 6, in this case two, so-called crimp stops, with which the connecting wire 5 to the miniature implant is clamped.

[0077] Likewise, stops must be attached to both ends of the intermediate bracket 4 in order to limit a mesial and/or distal movement.

[0078] A variant of the connection between bracket and the screw head of the TAD element consists in directly connecting only one square wire which is e.g. 20 mm long and e.g. welded to the bracket with the TAD screw head. Since the connection between the bracket and the screw head must largely be rigid and stress-free, this requires more skill when bending the wire and a correspondingly advantageous shape of the screw head.

[0079] Moreover, the device can be configured in such a way that it is compatible with all customary mechanics within the purview of the invention. More detailed indications on the design are left to the discretion of a person skilled in the art.

[0080] A further stable short square wire 7 largely leads from the bracket 4 at a right angle (here represented in an exaggerated long form) to the driving unit 3, which is held in a receiving element 8 of an adjusting means 9. A threaded nut 10 of the adjusting means 9 of the driving unit 3 is connected with the receiving element 8. A threaded rod and/or a threaded spindle 11 moves in it. The threaded rod is provided with, for instance, a hexagon cog at its proximal end facing the oral aperture of the patient, in which a corresponding hexagon socket spanner for adjusting the threaded rod can be inserted in its longitudinal direction.

[0081] The threaded rod 11 possesses a smooth bolt- or pin-shaped projection 12 which engages in the lumen of a bumper tube 13 with accurate fit. The bumper tube is part of a known attachment on the tooth to be displaced.

[0082] The lead of the thread of the threaded rod 11 is selected in such a way that the adjusting means 9 may also be adjusted for very short changes in length.

[0083] The dimensions and in particular the course of the stable wires Sand 7 are indicated only by way of example. It is possible to bend the stable wire S slightly in the form of a bayonet, for instance, when it leaves the bracket 4 in order to prevent an irritation of the alveolar mucous membrane. Of course, the length of the stable holding wire 7 must likewise be adapted to the geometry of the jaw.

[0084] A variant for the anchoring part 2 is represented in FIG. 2. The stable wire S starts from the intermediate bracket 4 and leads to a distributor 21, from which two stable wires 22a and 22b start in this case in opposite directions, which end in each case at an attachment point Sa and/or Sb fixed to the jaw, for instance a TAD element. The attachment points are preferably located on opposite (mesial, distal) sides of the root of the anchoring tooth 4 which supports the intermediate element bracket.

[0085] The principle of a rigid connection or coupling which is as short as possible between one to two or more miniature implants and an adjacent tooth can be extended to a kind of system, if several teeth which, as described above, are provided with a bracket, are connected with each other along the mandibular arch with a strong attachment wire via their attachment points. Due to this, an anchoring system is formed which, if required, comprises the entire mandibular arch.

[0086] As a by-product of the mechanical system presented here it must be noted that, above all due to their high total rigidity in the lateral, vertical and sagittal plane and the restricted guiding of the tooth movement obtained by this, this construction in capable of ensuring a largely physical movement of the molar, substantially without any influence on the jaw structure. The possibility of carrying out physical tooth movements with it is an important judgement criterion for an orthodontic device. This performance feature is achieved without the necessity of the use of a complex multi-band device. Consequently, the device can also be used prior to the conclusion of the second dentition, the result being that important therapy measures such as, for instance, the closing of aplasia gaps can be initiated earlier.

[0087] A variant of a regulatory device 101 is represented in FIG. 3.

[0088] The device comprises an attachment arm 102 which, for the torsion-proof attachment of the device in the jaw bone within the gingiva, comprises two linearly superimposed screw holes, an upper one 103a and a lower one 103b, which receive corresponding screws. Other embodiments are possible.

[0089] Outside the gingiva the attachment arm 102 is bent twice by about 90 degrees, a retainer 105 for a longitudinally slotted screw such as a Gurin screw is provided in a short end piece 104. A wire 106 can be inserted into and fixed in this retainer with an accurate fit in the direction the arm 102 extends, said retainer comprising a groove corresponding to the dimension of the connecting arch 104 so that the same is defined in its position, said wire leading to an adjusting means 107 after a bend of about 90 degrees for displacing the tooth as it was described and shown above. The design of the attachment arm with respect to its bends must be adapted to the anatomic conditions.

[0090] The screw spindle of the adjusting device extends approximately along the mandibular arch in the direction of displacement of the tooth and/or group of teeth to be corrected.

[0091] In this embodiment no separate point of support is directly provided between the attachment fixed in the jaw and the adjusting means. However, the screw in the upper screw hole 103a for the torsion-proof attachment of the arm 102 functionally corresponds to the point of support of the bracket. As opposed to the point of screw screwing in the TAD, which is located in the area of the gingiva propria (attached gingiva), the torsion-proof arm 102 or a corresponding anchoring plate is directly screwed into the jaw bone in the area of the movable oral mucosa below the area of the gingiva propria. There, the quality of the bone, above all the width of the cortical substance, makes a higher loadability of the fixing screws possible.

[0092] The advantage of the mechanically stable anchoring requires a minor surgical intervention. Here, the surface of the bone must be exposed, the mucous membrane must be opened at the place intended for the insertion of the fixing screws and sutured after the insertion of the art 102 or a connecting plate.

[0093] The device can be used in both jaws. Here, modifications are necessary taking into account the respective jaw-specific anatomic conditions above all as regards the correct connection of the device with the remaining orthodontic brace and the anchoring means. The device is to be incorporated into the lower jaw, preferably buccally/vestibularly between at least one implant screw and/or a basal arch and a palatal lock with a round tube attached thereto (analogously to the bumper tube) which is preferably located on the 1st molar.

[0094] The device is identical for both jaws as regards its structure, design and functional features.