US20060024636A1 - Orthodontic distalizing apparatus - Google Patents
Orthodontic distalizing apparatus Download PDFInfo
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- US20060024636A1 US20060024636A1 US11/157,117 US15711705A US2006024636A1 US 20060024636 A1 US20060024636 A1 US 20060024636A1 US 15711705 A US15711705 A US 15711705A US 2006024636 A1 US2006024636 A1 US 2006024636A1
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- tooth
- distalizing
- force generating
- generating element
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61C—DENTISTRY; APPARATUS OR METHODS FOR ORAL OR DENTAL HYGIENE
- A61C7/00—Orthodontics, i.e. obtaining or maintaining the desired position of teeth, e.g. by straightening, evening, regulating, separating, or by correcting malocclusions
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61C—DENTISTRY; APPARATUS OR METHODS FOR ORAL OR DENTAL HYGIENE
- A61C7/00—Orthodontics, i.e. obtaining or maintaining the desired position of teeth, e.g. by straightening, evening, regulating, separating, or by correcting malocclusions
- A61C7/10—Devices having means to apply outwardly directed force, e.g. expanders
Definitions
- the present invention relates to an orthodontic distalizing apparatus for correcting the relative position of the teeth.
- Orthodontic distalizing devices for correcting the relative position of the teeth of a dental arch are known.
- spring-loadable pusher means are generally arranged on the side opposite the lingual side of the dental arch.
- the pusher means are interposed between the means for anchoring the framework to a tooth selected for that purpose and the means for fastening to the further tooth being distalized of the same branch of the dental arch.
- the reaction force exerted by the pusher on the tooth being distalized is not discharged completely onto the basal gingiva and underlying bony support of the arch, but can also act at least partially on the tooth selected for anchoring of the framework, thus resulting in the risk of causing displacement of the latter as well.
- the pusher of the known distalizing apparatuses generally consists of a pusher pin which is fastened substantially tangentially to the tooth being distalized, and on which is mounted in coaxially sliding fashion a compression sleeve of a pusher spring.
- the spring is interposed between the head end of the pin, rigidly fastened to the means for fastening to the tooth being distalized, and the facing head end of the sliding sleeve.
- the latter is in turn joined to the anchoring means of the framework via wires or the like, with which it is held in the desired spring compression position.
- the pusher pin must extend sufficiently beyond the anchoring tooth, in a direction opposite to the compression direction of the spring, as a result of which the pusher means have considerable dimensions and are thus retained non-rigidly or only in a direction opposite to the direction of spring compression on the anchoring tooth.
- the pusher pin therefore does not exert sufficiently precise directional guidance on the tooth to prevent the forces exerted by the pusher means from being expressed, even partially, as torques capable of causing tilting of the tooth from the correct vertical orientation and/or rotation thereof, and/or as components transverse to the longitudinal axis of the dental arch.
- a distalizing apparatus 10 (illustrated in FIGS. 1-4 attached hereto) comprises a supporting framework 12 composed of an anatomical support element 14 (in the form of a Nance button) and a transverse structure 16 (in the form of a metal wire) embedded in Nance button 14 .
- Framework 12 is anchored to a pair of anchoring teeth 18 and 20 by attaching the two opposed ends of transverse wire 16 to bands 22 and 24 , respectively.
- Nance button 14 Extending from Nance button 14 are two additional transverse structures 26 and 28 (also in the form of metal wires), both of which have ends joined by means of pusher elements 30 and 32 to bands 34 and 36 , respectively, for fastening to teeth 38 and 40 being distalized.
- each pusher element 30 , 32 generally comprises a pusher pin 42 and a narrow tube 44 that are telescopically engaged with one another (see FIG. 3 ), with an elastic element 46 (e.g., a compression spring as shown in FIGS. 1 and 2 ) captured therebetween.
- each pusher element includes a locking collar 48 that is slidably mounted on tube 44 so that compression spring 46 can be preloaded as desired by moving locking collar 48 towards or away from pusher pin 42 and locking it in position.
- Pusher elements 30 and 32 are assembled and installed in the dental arch with the proper position and orientation so that the forces generated thereby are exerted in the general direction of the longitudinal axis of the dental arch.
- the attachment points of pusher elements 30 and 32 to wires 26 and 28 are located as low as possible within the dental arch so that pusher elements 30 and 32 are within the basal zone of gingiva.
- the attachment points of pusher elements 30 and 32 to bands 34 and 36 , respectively are also provided as low as possible above (or in) the cervical zone so as to be as close as possible to the centers of resistance of teeth 38 and 40 .
- this arrangement largely suppresses those components of the distalizing force exerted by pusher elements 30 and 32 which otherwise would act to tilt teeth 38 and 40 from their correct vertical orientations.
- transverse anchoring wire 16 may be provided with a pair of respective force compensation means 50 and 52 (in the form of wire loops).
- Wire loops 50 and 52 are suitably elastically preloaded by the technician in the direction opposite to the reaction force components resulting from pusher elements 30 and 32 applying their desirable distalizing forces.
- loops 50 and 52 must be carefully shaped to provide an offsetting bias force that is substantially the same magnitude but in the opposite direction as the anticipated reaction forces from pusher elements 30 and 32 acting against teeth 38 and 40 which are not absorbed by Nance button 14 .
- distalizing apparatus 10 Another feature of distalizing apparatus 10 disclosed in the '520 patent is that pusher elements 30 and 32 may be converted into a rigid (or inactive) state to prevent further application of distalizing forces. This makes it possible to use distalizing apparatus 10 as an anchoring structure or molar retainer once distalizing has been successfully completed and when it is necessary to move the anterior teeth toward the distalized teeth to close any space that has been created.
- this conversion may be accomplished by providing a slit (or notch) 54 in the end of tube 44 (see FIG. 3 ) so that it can be readily clamped to pusher pin 42 to prevent any relative sliding movement therebetween (see FIG. 4 ).
- the '520 patent also mentions that this conversion process can be accomplished by applying a cold-setting or photo-activated resin to the junction of pin 42 and tube 44 .
- the distalizing appliance 10 of the '520 patent when converted into a molar retainer by either of the foregoing methods can be reversed to restore pusher elements 30 and 32 to their active (or force-applying) states, the apparatus 10 must generally be removed from the patient's mouth in order to do so.
- an object of the invention to implement an orthodontic distalizing apparatus which, like the devices disclosed in the '520 patent, effectively eliminates all the above-noted drawbacks of conventional distalizing devices, while at the same time offering greater ease of installation, adjustment and conversion between the active and passive states.
- the invention achieves the aforesaid objects with an orthodontic distalizing apparatus comprising at least one force generating element positioned intermediate a force dissipating element secured to the hard palate and/or alveolar ridge and a first tooth (e.g., a molar) being distalized.
- the at least one force generating element is positioned to apply a distalizing force on the first tooth in a direction substantially along a longitudinal axis of the dental arch and a low level of the basal gingiva.
- the at least one force generating element is configured to prevent inadvertent disassembly thereof during installation, adjustment and/or conversion of the apparatus between an active and a passive state.
- the at least one force generating element is reversibly convertible between the active and passive states while remaining installed in the patient's mouth.
- the force dissipating element is connected to at least one anchoring tooth different from the first tooth by a slidable coupling that absorbs all forces transmitted along a direction of the longitudinal arch.
- the at least one force generating element provides a continuous activation force of a substantially constant magnitude as the first tooth is distalized.
- a second force generating element may be positioned intermediate the force dissipating element and a second tooth (e.g., a bicuspid) for closing any gap that is created by distalization of the first tooth.
- a second tooth e.g., a bicuspid
- a method for converting an orthodontic distalizing apparatus such as any of the foregoing between an active state and a passive state is also provided.
- FIG. 1 shows a top view of a prior art apparatus applied to a dental arch.
- FIG. 2 shows a side elevation view of the prior art apparatus of FIG. 1 .
- FIGS. 3 and 4 show an enlarged detail of the pusher elements of the prior art apparatus of FIG. 1 in two different operating states.
- FIG. 5 shows a first embodiment of an orthodontic distalizing apparatus in accordance with the present invention.
- FIG. 6 shows a second embodiment of an orthodontic distalizing apparatus in accordance with the present invention.
- FIG. 7 shows an enlarged sectional view of the locking collar associated with the apparatus of FIG. 6 .
- FIG. 8 shows an enlarged sectional view of an alternative locking collar associated with the apparatus of FIG. 6 .
- FIG. 9 shows a third embodiment of an orthodontic distalizing apparatus in accordance with the present invention.
- FIG. 10 shows a fourth embodiment of an orthodontic distalizing apparatus in accordance with the present invention.
- FIGS. 11 and 12 show a fifth embodiment of an orthodontic distalizing apparatus in accordance with the present invention.
- FIG. 13 shows a sixth embodiment of an orthodontic distalizing apparatus in accordance with the present invention.
- FIG. 14 shows an enlarged, exploded perspective view of a force generating element and an associated support linkage of the apparatus of FIG. 13 .
- FIGS. 15 and 16 show a seventh embodiment of an orthodontic distalizing apparatus in accordance with the present invention.
- apparatus 100 generally includes a pair of force generating elements 102 and 104 , a force dissipating element 106 (e.g., a Nance button) configured for engaging the hard palate and/or alveolar ridge, and a pair of anchoring elements 108 and 110 .
- Each force generating element is preferably positioned and oriented to apply a distalizing force to a respective molar 112 , 114 in a direction substantially along a longitudinal axis of the dental arch and at a low level of the basal gingiva.
- each force generating element 102 , 104 includes an elongated guiding element 116 , 118 , respectively.
- Each guiding element 116 , 118 includes a respective mesial end 120 , 122 which is embedded in force dissipating element 106 and a respective distal end 124 , 126 having an associated distal stop 128 , 130 located thereon.
- each guiding element 116 , 118 may be formed from a solid, heavy wire (e.g., large diameter stainless steel), and each distal stop 128 , 130 may be formed on its associated wire by simply bending or kinking the distal end 124 , 126 thereof.
- distal stops 128 and 130 could take other forms as are well known in the art.
- each guiding element 116 , 118 includes an additional bend or elbow 132 , 134 , respectively, that is located in a substantially vertically spaced relationship with (i.e., generally above or below, depending on whether apparatus 100 is situated on the mandible or maxilla) the entry point of each guiding element 116 , 118 into force dissipating element 106 .
- each guiding element 116 , 118 may include a substantially horizontal main portion 136 , 138 and a mesial portion 140 , 142 having a substantially vertical component.
- the vertical component portions 140 and 142 of guiding elements 116 and 118 provide an improved geometry in that the reactive forces resulting from force generating elements 102 and 104 pushing against molars 112 and 114 are directed deeper into the palate than would be the case for a similar apparatus that is lacking such a vertical component.
- force dissipating element 106 is less likely to slip mesially (i.e., toward the front center of the mouth) than would otherwise be the case.
- each force generating element 102 , 104 further comprises an associated compression spring 144 , 146 which is slidably mounted on the associated guiding element 116 , 118 along with a pair of adjustable spring stops 148 , 150 and 152 , 154 , respectively, abutting against the anterior and posterior ends of each spring 144 , 146 , respectively.
- each spring stop 148 , 150 , and 152 , 154 is releasably lockable in axial position along the horizontal portion 136 and 138 , respectively, of the associated guiding element 116 and 118 .
- each spring stop 148 , 150 , 152 and 154 comprises a locking collar and a set screw 156 which allows the collar to be readily fixed in a position by rotating the screw in one direction or released and moved to a different position by rotating the screw in the opposite direction.
- each posterior spring stop 150 , 154 is fixedly connected to the associated molar 112 , 114 to move therewith by means of a support linkage 158 , 160 .
- each support linkage 158 , 160 may be formed of a relatively short and rigid lingual wire 159 , 161 having one end attached (e.g., by means of soldering or welding) to the associated posterior spring stop 150 , 154 and an opposite end attached (e.g., by means of a lingual tube and an associated band) to the associated molar 112 , 114 .
- support linkages 158 and 160 could take other forms besides simple wires and could be secured to the posterior collars and/or to the molars by other means, e.g., directly attached to the molars using an adhesive compound. Regardless of the particular structure and attachment means used for support linkage 158 , 160 , it can be seen that each force generating element 102 , 104 is operatively positioned at a low level of the dental arch between force dissipating element 106 and the associated molar 112 , 114 being distalized.
- each anchoring element 108 , 110 includes an associated mesial end 162 , 164 embedded in force dissipating element 106 and an associated distal end 166 , 168 fixedly or releasably attached to an associated anchoring tooth (or teeth) 170 , 172 (e.g., a bicuspid).
- an associated anchoring tooth (or teeth) 170 , 172 e.g., a bicuspid
- distal end 166 of anchoring element 108 is secured to the crowns of two adjacent anchoring teeth 170 by use of an adhesive, while distal end 168 of anchoring element 110 is secured to anchoring tooth 172 by use of a soldered band 174 .
- each anchoring element 108 , 110 may comprise a pair of wire segments 176 , 178 and 180 , 182 , respectively, with the wire segments of each pair being joined together by a force absorbing coupling 184 , 186 , respectively.
- Each force absorbing coupling 184 , 186 is designed to prevent transfer of substantially all the forces that are oriented in a direction substantially along the longitudinal direction of the arch, i.e., in a direction substantially parallel to the direction of distalization. Hence, any reaction forces that are imparted to force dissipating element 106 from the action of force generating elements 102 and 104 against molars 112 and 114 are not passed to anchoring teeth 170 and 172 .
- each force absorbing coupling 184 , 186 comprises a slidable connection formed by a tubular cylinder 188 , 190 having an anterior end soldered to wire segment 176 , 180 , respectively, and an opposite posterior end that slidably receives the other wire segment 178 , 182 , respectively.
- a tubular cylinder 188 , 190 having an anterior end soldered to wire segment 176 , 180 , respectively, and an opposite posterior end that slidably receives the other wire segment 178 , 182 , respectively.
- the various elements of force absorbing couplings 184 and 186 could be reversed from that illustrated, i.e., the posterior ends of the tubular cylinders could be soldered to the wire segments.
- distalizing apparatus 100 After mounting apparatus 100 in the maxillary or mandibular jaw, one or both of the force generating elements 102 , 104 may be activated by moving the anterior spring stop(s) 148 , 152 in a posterior direction (i.e., rearwardly or away from the front of the mouth) against the anterior end(s) of the associated compression spring(s) 144 , 146 until the desired degree of compression has been achieved.
- a posterior direction i.e., rearwardly or away from the front of the mouth
- the anterior spring stops(s) 148 , 152 can be fixed in position (i.e., converted into a molar retainer) by turning the screw(s) 156 as appropriate to lock spring stop(s) 148 , 152 in place.
- the technician need not be concerned with either of the force generating elements 102 , 104 inadvertently coming apart because distal stop(s) 128 , 130 prevent any such incident.
- apparatus 100 can readily be converted into a molar retainer by simply tightening the screw(s) 156 of all four spring stops 148 , 150 , 152 and 154 . Once this has been done, apparatus 100 will function as a Nance appliance anchored to molars 112 and 114 , which thus permits selected anterior teeth to be moved toward the recently distalized teeth 112 , 114 to close any spaces created during distalization. If desired, the technician can remove one or both anchoring elements 108 , 110 when apparatus 100 is being used as a molar retainer.
- distalizing apparatus 200 a second embodiment of an orthodontic distalizing apparatus 200 is shown.
- the description of distalizing apparatus 200 will be generally limited to its differences relative to distalizing apparatus 100 described above.
- elements of distalizing apparatus 200 that are substantially similar to corresponding elements of distalizing apparatus 100 will be identified by the same reference numerals but preceded by a “2” instead of a “1”.
- Distalizing apparatus 200 differs from distalizing apparatus 100 described above in that each anterior spring stop 248 , 252 comprises a generally cone-shaped collar 201 and a set screw 256 .
- cone shaped collar 201 comprises a cylindrical base portion 203 and a conical portion 205 .
- Conical portion 205 includes a threaded bore 207 which extends approximately perpendicular to the conical outer surface 217 and is thus at an angle relative to a central bore 209 that extends through collar 201 for slidably receiving one of the guiding elements 216 , 218 .
- FIG. 8 shows an alternatively shaped collar 201 ′ which provides the same advantages as collar 201 but which requires less material for its manufacture. Collars 201 and 201 ′ can be made by casting and/or machining as well as several other manufacturing techniques that are well known in the art.
- Distalizing apparatus 200 also differs from distalizing apparatus 100 described above with respect to anchoring elements 208 and 210 .
- each anchoring element 208 , 210 provides a rigid (i.e., non-force absorbing) connection between force dissipating element 206 and anchoring teeth 270 and 272 . That is, anchoring elements 208 and 210 lack the slidable force absorbing coupling associated with anchoring elements 108 and 110 of apparatus 100 described above.
- Another difference is that the two anchoring elements 208 and 210 of apparatus 200 are secured to anchoring teeth 270 and 272 , respectively, by means of a pair of soldered bands 274 rather than a combination of soldered bands and an adhesive.
- distalizing apparatus 300 a third embodiment of an orthodontic distalizing apparatus 300 is shown.
- the description of distalizing apparatus 300 will be generally limited to its differences relative to distalizing apparatus 100 described above.
- elements of distalizing apparatus 300 that are substantially similar to corresponding elements of distalizing apparatus 100 will be identified by the same reference numerals but preceded by a “3” instead of a “1”.
- Distalizing apparatus 300 differs from distalizing apparatus 100 described above in that force dissipating element 306 is in the form of an osseointegrated (e.g., subperiosteal or endosseous) implant 311 .
- Implant 311 which resembles a button, is a relatively flat, disc-shaped fixture having a threaded aperture 313 for securing thereto the mesial ends 320 , 322 of guiding elements 316 , 318 or another transpalatal member.
- Implant 311 is known as an “indirect anchorage device,” which is a term of art given to implants that are placed solely for orthodontic purposes (e.g., for stabilizing specific dental units to which clinical forces are then applied) and are generally removed once their anchorage duties have been fulfilled.
- Implant 311 provides for reliable anchorage and dissipation of the reactive forces generated by force generating elements 302 and 304 with no possibility of any anterior or mesial movement and no requirement of patient compliance or dexterity.
- a device known as the OnPlant and another called the OrthoImplant.
- Distalizing apparatus 300 also differs from distalizing apparatus 100 described above with respect to force generating element 302 .
- force generating element 302 is shown in its inactive (or passive) state in which the compression spring has been removed and both collars 348 , 350 have been locked in position.
- element 302 will function as a molar retainer.
- FIG. 9 is intended purely for purposes of illustration and that in actual use the technician would typically convert both force generating elements 302 and 304 to the rigid (or passive) state.
- the compression spring can usually be readily removed by simply grasping one end of the spring with a pliers and pulling with sufficient force to cause the spring to unwind from guiding element 316 .
- distalizing apparatus 400 a fourth embodiment of an orthodontic distalizing apparatus 400 is shown.
- the description of distalizing apparatus 400 will be generally limited to its differences relative to distalizing apparatuses 100 described above.
- elements of distalizing apparatus 400 that are substantially similar to corresponding elements of distalizing apparatus 100 will be identified by the same reference numerals but preceded by a “4” instead of a “1”.
- Distalizing apparatus 400 differs from distalizing apparatus 100 described above in that force generating element 404 has been modified to provide continuous force activation. More specifically, force generating element 404 has been modified relative to force generating element 104 of apparatus 100 in that anterior spring stop 452 is free floating (i.e., rather than fixed in one position) during distalization and that element 404 additionally includes an elastic strap (or chain) 415 . As illustrated, elastic strap 415 is stretched (or tensioned) between the medial face of anterior spring stop 452 and the distal end 426 of guiding element 418 . Although strap 415 is illustrated with its anterior-most loop 417 extending around wire 418 , loop 417 could instead be secured directly to collar 452 . One way this could be accomplished would be to substitute for collar 452 a collar similar to locking collar 652 A (see FIGS. 13 and 14 ) which provides a convenient tie off 655 (as described in detail below).
- elastic strap 415 applies a force in a posterior direction to anterior spring stop 452 that directly opposes the force applied in an anterior direction to anterior spring stop 452 by compression spring 446 .
- elastic strap 415 will compress anterior spring stop 452 in a posterior direction against compression spring 446 to drive posterior spring stop 454 distally to cause spring 446 to remain continuously in a (nearly) fully compressed state. That is, so long as elastic strap 415 retains its memory, force generating element 404 will continue to provide its full distalizing force regardless of how far molar 414 moves in a posterior direction during distalization.
- FIG. 10 is intended solely for purposes of illustration and that apparatus 400 when used in actual practice by a technician would be modified to include the elastic strap 415 on both of the force generating elements 402 and 404 .
- distalizing apparatus 500 a fifth embodiment of an orthodontic distalizing apparatus 500 is shown.
- the description of distalizing apparatus 500 will be generally limited to its differences relative to distalizing apparatus 100 described above.
- elements of distalizing apparatus 500 that are substantially similar to corresponding elements of distalizing apparatus 100 will be identified by the same reference numerals but preceded by a “5” instead of a “1”.
- Distalizing apparatus 500 differs from apparatus 100 in that in place of anchoring element 108 in apparatus 100 , apparatus 500 includes a force generating element 502 ′. Although not illustrated, apparatus 500 also includes a similar force generating element on the opposite side of the dental arch in place of anchoring element 110 in apparatus 100 . Thus apparatus 500 includes a first pair of force generating elements 502 positioned between force dissipating element 506 and molars 512 , and a second pair of force generating elements 502 ′ positioned between force dissipating element 506 and bicuspid 570 .
- Each force generating element 502 , 502 ′ includes an associated spring 544 , 544 ′ captured between an anterior spring stop 548 , 548 ′ and a posterior spring stop 550 , 550 ′.
- each force generating element 502 , 502 ′ includes an associated distal stop 528 , 528 ′.
- distal stop 528 is formed as a double-back and distal stop 528 ′ is formed by a solder ball.
- apparatus 500 can be utilized in a two step method to first distalize molars 512 and, subsequently, to close any gaps that are created.
- spring stops 548 , 548 ′ and 550 ′ are moved to their desired positions and then fixed in place, while posterior spring stop 550 of thrust generating element 502 is allowed to freely slide along guiding element 516 . Because spring stops 548 ′ and 550 ′ of force generating element 502 ′ are both fixed in position, force generating element 502 ′ will function as an anchoring element (or retainer) during this first step.
- Apparatus 500 also differs from apparatus 100 in the attachment of support linkage 558 to molar 512 .
- support linkage 558 includes a short and rigid lingual wire 559 that has one of its ends attached to molar 512 by means of a lingual sheath 521 oriented generally transverse to the longitudinal axis of elongated guiding element 516 .
- support linkage 558 can easily be decoupled from molar 512 by simply grasping wire 559 with a pliers and pulling downward with sufficient force to remove the end of wire 559 from lingual sheath 521 .
- the end of wire 559 may have a square cross-section to facilitate its connection to lingual sheath 521 .
- a similar releasable coupling arrangement may be provided between collar 548 ′ and bicuspid 570 .
- distalizing apparatus 600 a sixth embodiment of an orthodontic distalizing apparatus 600 is shown.
- the description of distalizing apparatus 600 will be generally limited to its differences relative to distalizing apparatus 100 described above.
- elements of distalizing apparatus 600 that are substantially similar to corresponding elements of distalizing apparatus 100 will be identified by the same reference numerals but preceded by a “6” instead of a “1”.
- Distalizing apparatus 600 differs from apparatus 100 in that in place of the solid, fixed length guiding element 116 and the short, rigid lingual wire 159 of apparatus 100 , apparatus 600 includes a multi-piece, expandable length guiding element 616 and an elongated, coiled support linkage 659 , respectively.
- apparatus 600 includes alternative locking collars 648 and 650 which, as described more fully below, include a number of features not present in collars 148 and 150 of apparatus 100 .
- elongated guiding element 616 comprises a mesial portion 640 formed by a solid, heavy gauge (i.e., large diameter) wire, a substantially horizontal main portion 636 formed by a hollow tube, a distal end 624 configured to be slidably received within the interior of hollow tube 636 , and a distal stop 628 formed on distal end 624 by a double (asymmetric) nail-head end.
- Solid rod 640 may have its posterior end slidably received within the anterior end of hollow tube 636 , and the two ends may be coupled together by laser welding 629 .
- each locking collar 648 , 650 includes a cylindrical base portion 649 , 651 , respectively, and a transversely extending screw receiving portion 653 , 655 , respectively.
- each screw receiving portion 653 , 655 may include a funnel-shaped opening 657 , 659 that leads to a threaded bore 607 for facilitating the reception of a set screw 656 therein.
- each screw receiving portion 653 , 655 has an exterior cylindrical surface that provides a convenient tie off location for a ligature wire, elastic strap, or any other orthodontic element without requiring a permanent connection.
- coiled support linkage wire 659 is illustrated with a mesial portion 661 tied off to screw receiving portion 655 of collar 650 . Because support linkage wire 659 is tied to collar 650 rather than permanently fastened (e.g., welded) thereto, wire 659 can be easily decoupled from collar 650 to facilitate adjustment thereof. As illustrated, support linkage wire 659 also includes a central coiled portion 663 extending around (and thus coupled to) distal stop 628 of movable distal end 624 , as well as a distal end 665 that is releasably secured to molar 612 by a lingual sheath and a band. Central portion 663 may also include one or more loops extending around the elongated cylindrical base portion 651 of locking collar 650 .
- guiding element 616 has an adjustable length.
- the length of guiding element 616 will vary in accordance with the amount or distance that molar 612 is distalized. More specifically, when collar 648 is locked and collar 650 is unlocked, compression spring 644 will cause collar 655 to move in a posterior direction along the exterior of hollow tube 636 . As collar 650 continues to move in a posterior direction, it will eventually extend beyond the posterior end of hollow tube 636 and abut against the anterior-most flange or head on distal stop 628 .
- apparatus 600 is advantageous in applications where space is at a premium because the length of guiding element 616 will be only as long as necessary to accomplish the distalization. Hence, apparatus 600 is less likely to interfere with swallowing or cause any other discomfort to the patient.
- the coiled shaped of support linkage 658 provides several advantages over a relatively short, straight wire.
- the coiled shape of lingual wire 659 increases the length of support linkage 658 which provides it with a longer lever action when it is desirable to torque or rotate molar 612 .
- the coiled shape of lingual wire 659 allows the technician to increase the effective distalization range of apparatus 600 by uncoiling wire 659 as desired.
- distalizing apparatus 700 a seventh embodiment of an orthodontic distalizing apparatus 700 is shown.
- the description of distalizing apparatus 700 will be generally limited to its differences relative to distalizing apparatus 600 described above.
- elements of distalizing apparatus 700 that are substantially similar to corresponding elements of distalizing apparatus 600 will be identified by the same reference numerals but preceded by a “7” instead of a “6”.
- Distalizing apparatus 700 differs from apparatus 600 in that force generating element 702 includes an anterior locking collar 748 that is elongated and a posterior collar (or spring stop) 750 that is non-lockable.
- anterior locking collar 748 includes a cylindrical base portion 749 having a mesio-distal length of about 7 mm when measured from the center of a central threaded bore 707 to a posterior edge 765 .
- posterior spring stop 750 has a mesio-distal length of about 0.5 mm.
- the first and second bicuspids 770 of adult humans measure on average about 7.2 mm and 6.8 mm, respectively, taken along a mesio-distal line through the crowns. See Black, O. V., “Descriptive Anatomy of the Human Teeth,” ed. 4 , Philadelphia, Pa., 1897, The S. S. White Dental Manufacturing Co. Quite commonly, a molar 712 needs to be distalized because it has encroached in the anterior bicuspid space (i.e., moved forwardly into the arch).
- anterior locking collar 748 has a length substantially equal to the maximum mesio-distal length of a space (or gap) 719 that is likely to be created during distalization.
- each distalizing apparatus disclosed and illustrated above includes a pair of force generating elements, only one force generating element need be used if the molar(s) requiring distalization are all on the same side of the dental arch.
- the apparatuses are all shown being anchored to bicuspids, other teeth including incisor, canines or other molars could be used as an anchoring teeth if desired.
Abstract
An orthodontic distalizing apparatus comprises at least one force generating element positioned intermediate a force dissipating element secured to the hard palate and/or alveolar ridge and a first tooth (e.g., a molar) that is being distalized. The at least one force generating element is positioned to apply a distalizing force on the molar in a direction substantially along a longitudinal axis of the dental arch and at a low level of the basal gingiva. The at least one force generating element may be configured to prevent inadvertent disassembly thereof during installation, adjustment and/or conversion of the apparatus between an active and a passive state. In addition, the at least one force generating element may be configured to be reversibly convertible between an active state and a passive state without requiring removal of the device from the patient's mouth. Moreover, the at least one force generating element may be configured to provide a continuous activation force of substantially constant magnitude during distalization of the molar. The apparatus may also be constructed so that the force dissipating element is connected to at least one anchoring tooth by a slidable coupling that absorbs all reaction forces transmitted substantially along a direction of the longitudinal arch. A second force dissipating element may be positioned intermediate the force dissipating element and a second tooth (e.g., a bicuspid) to facilitate the closing of any gaps that are created following distalization of the molar. A method of converting an orthodontic distalizing apparatus between an active and a passive state is also provided.
Description
- This application is a continuation of application Ser. No. 09/999,269, filed Nov. 15, 2001 by S. Jay Bowman et al., entitled “Orthodontic Distalizing Apparatus,” the disclosure of which is expressly incorporated by reference herein.
- The present invention relates to an orthodontic distalizing apparatus for correcting the relative position of the teeth.
- Orthodontic distalizing devices for correcting the relative position of the teeth of a dental arch are known. In such known devices of this kind, spring-loadable pusher means are generally arranged on the side opposite the lingual side of the dental arch. Moreover, the pusher means are interposed between the means for anchoring the framework to a tooth selected for that purpose and the means for fastening to the further tooth being distalized of the same branch of the dental arch. The reaction force exerted by the pusher on the tooth being distalized is not discharged completely onto the basal gingiva and underlying bony support of the arch, but can also act at least partially on the tooth selected for anchoring of the framework, thus resulting in the risk of causing displacement of the latter as well.
- The pusher of the known distalizing apparatuses generally consists of a pusher pin which is fastened substantially tangentially to the tooth being distalized, and on which is mounted in coaxially sliding fashion a compression sleeve of a pusher spring. The spring is interposed between the head end of the pin, rigidly fastened to the means for fastening to the tooth being distalized, and the facing head end of the sliding sleeve. The latter is in turn joined to the anchoring means of the framework via wires or the like, with which it is held in the desired spring compression position. For this purpose the pusher pin must extend sufficiently beyond the anchoring tooth, in a direction opposite to the compression direction of the spring, as a result of which the pusher means have considerable dimensions and are thus retained non-rigidly or only in a direction opposite to the direction of spring compression on the anchoring tooth. The pusher pin therefore does not exert sufficiently precise directional guidance on the tooth to prevent the forces exerted by the pusher means from being expressed, even partially, as torques capable of causing tilting of the tooth from the correct vertical orientation and/or rotation thereof, and/or as components transverse to the longitudinal axis of the dental arch.
- A number of relatively simple and low-cost designs which overcome all the above-identified drawbacks of conventional distalizing apparatuses are disclosed in U.S. Pat. No. 5,785,520, issued Jul. 28, 1998, which is hereby incorporated by reference in its entirety. According to one embodiment disclosed in the '520 patent, a distalizing apparatus 10 (illustrated in
FIGS. 1-4 attached hereto) comprises a supportingframework 12 composed of an anatomical support element 14 (in the form of a Nance button) and a transverse structure 16 (in the form of a metal wire) embedded inNance button 14. Framework 12 is anchored to a pair of anchoringteeth transverse wire 16 tobands Nance button 14 are two additionaltransverse structures 26 and 28 (also in the form of metal wires), both of which have ends joined by means ofpusher elements bands teeth - In the illustrated embodiment, each
pusher element pusher pin 42 and anarrow tube 44 that are telescopically engaged with one another (seeFIG. 3 ), with an elastic element 46 (e.g., a compression spring as shown inFIGS. 1 and 2 ) captured therebetween. In addition, each pusher element includes alocking collar 48 that is slidably mounted ontube 44 so thatcompression spring 46 can be preloaded as desired by movinglocking collar 48 towards or away frompusher pin 42 and locking it in position.Pusher elements locking collar 48 to ensure thatpusher elements - As best seen in
FIG. 2 , the attachment points ofpusher elements wires pusher elements pusher elements bands teeth pusher elements teeth - To prevent
pusher elements teeth transverse anchoring wire 16 may be provided with a pair of respective force compensation means 50 and 52 (in the form of wire loops).Wire loops pusher elements teeth loops pusher elements teeth button 14. - Another feature of distalizing
apparatus 10 disclosed in the '520 patent is thatpusher elements apparatus 10 as an anchoring structure or molar retainer once distalizing has been successfully completed and when it is necessary to move the anterior teeth toward the distalized teeth to close any space that has been created. - According to the '520 patent, this conversion may be accomplished by providing a slit (or notch) 54 in the end of tube 44 (see
FIG. 3 ) so that it can be readily clamped to pusherpin 42 to prevent any relative sliding movement therebetween (seeFIG. 4 ). The '520 patent also mentions that this conversion process can be accomplished by applying a cold-setting or photo-activated resin to the junction ofpin 42 andtube 44. Although the distalizingappliance 10 of the '520 patent when converted into a molar retainer by either of the foregoing methods can be reversed to restorepusher elements apparatus 10 must generally be removed from the patient's mouth in order to do so. - In view of the forgoing, it is an object of the invention to implement an orthodontic distalizing apparatus which, like the devices disclosed in the '520 patent, effectively eliminates all the above-noted drawbacks of conventional distalizing devices, while at the same time offering greater ease of installation, adjustment and conversion between the active and passive states.
- The invention achieves the aforesaid objects with an orthodontic distalizing apparatus comprising at least one force generating element positioned intermediate a force dissipating element secured to the hard palate and/or alveolar ridge and a first tooth (e.g., a molar) being distalized. The at least one force generating element is positioned to apply a distalizing force on the first tooth in a direction substantially along a longitudinal axis of the dental arch and a low level of the basal gingiva.
- According to a first aspect of an embodiment of the present invention, the at least one force generating element is configured to prevent inadvertent disassembly thereof during installation, adjustment and/or conversion of the apparatus between an active and a passive state.
- According to another aspect of an embodiment of the present invention, the at least one force generating element is reversibly convertible between the active and passive states while remaining installed in the patient's mouth.
- According to a different aspect of an embodiment of the present invention, the force dissipating element is connected to at least one anchoring tooth different from the first tooth by a slidable coupling that absorbs all forces transmitted along a direction of the longitudinal arch.
- According to a further aspect of an embodiment of the present invention, the at least one force generating element provides a continuous activation force of a substantially constant magnitude as the first tooth is distalized.
- According to a yet another aspect of an embodiment of the present invention, a second force generating element may be positioned intermediate the force dissipating element and a second tooth (e.g., a bicuspid) for closing any gap that is created by distalization of the first tooth.
- According to still another aspect of an embodiment of the present invention, a method for converting an orthodontic distalizing apparatus such as any of the foregoing between an active state and a passive state is also provided.
- These and other benefits and features of the invention will be apparent upon consideration of the following detailed description of preferred embodiments thereof, presented in connection with the following drawings in which like reference numerals are used to identify like elements throughout.
- The particular characteristics of the invention and the advantages deriving from it will be evident in greater detail from the description of a preferred embodiment depicted as a non-limiting example in the attached drawings, in which:
-
FIG. 1 shows a top view of a prior art apparatus applied to a dental arch. -
FIG. 2 shows a side elevation view of the prior art apparatus ofFIG. 1 . -
FIGS. 3 and 4 show an enlarged detail of the pusher elements of the prior art apparatus ofFIG. 1 in two different operating states. -
FIG. 5 shows a first embodiment of an orthodontic distalizing apparatus in accordance with the present invention. -
FIG. 6 shows a second embodiment of an orthodontic distalizing apparatus in accordance with the present invention. -
FIG. 7 shows an enlarged sectional view of the locking collar associated with the apparatus ofFIG. 6 . -
FIG. 8 shows an enlarged sectional view of an alternative locking collar associated with the apparatus ofFIG. 6 . -
FIG. 9 shows a third embodiment of an orthodontic distalizing apparatus in accordance with the present invention. -
FIG. 10 shows a fourth embodiment of an orthodontic distalizing apparatus in accordance with the present invention. -
FIGS. 11 and 12 show a fifth embodiment of an orthodontic distalizing apparatus in accordance with the present invention. -
FIG. 13 shows a sixth embodiment of an orthodontic distalizing apparatus in accordance with the present invention. -
FIG. 14 shows an enlarged, exploded perspective view of a force generating element and an associated support linkage of the apparatus ofFIG. 13 . -
FIGS. 15 and 16 show a seventh embodiment of an orthodontic distalizing apparatus in accordance with the present invention. - Before explaining at least one preferred embodiment of the invention in detail it is to be understood that the invention is not limited in its application to the details of construction and the arrangement of the components set forth in the following description or illustrated in the drawings. The invention is capable of other embodiments or being practiced or carried out in various ways. Also, it is to be understood that the phraseology and terminology employed herein is for the purpose of description and should not be regarded as limiting.
- Referring initially to
FIG. 5 , a first embodiment of an orthodonticdistalizing apparatus 100 in accordance with the present invention is shown mounted to a maxillary jaw. As illustrated,apparatus 100 generally includes a pair offorce generating elements elements respective molar molar - In the illustrated embodiment, each
force generating element elongated guiding element element mesial end 120, 122 which is embedded inforce dissipating element 106 and a respectivedistal end distal stop element distal stop distal end distal ends distal stops distal stops - Preferably, each guiding
element elbow apparatus 100 is situated on the mandible or maxilla) the entry point of each guidingelement force dissipating element 106. Thus, each guidingelement main portion mesial portion 140, 142 having a substantially vertical component. As will be appreciated, thevertical component portions 140 and 142 of guidingelements force generating elements molars force dissipating element 106 is less likely to slip mesially (i.e., toward the front center of the mouth) than would otherwise be the case. - As illustrated in
FIG. 5 , eachforce generating element compression spring element spring spring stop horizontal portion element spring stop set screw 156 which allows the collar to be readily fixed in a position by rotating the screw in one direction or released and moved to a different position by rotating the screw in the opposite direction. - Still referring to
FIG. 5 , eachposterior spring stop molar support linkage support linkage lingual wire posterior spring stop molar support linkages support linkage force generating element force dissipating element 106 and the associatedmolar - If desirable for the particular application at hand,
force dissipating element 106 may be further secured in place by means of anchoringelements element mesial end force dissipating element 106 and an associateddistal end FIG. 5 ,distal end 166 of anchoringelement 108 is secured to the crowns of twoadjacent anchoring teeth 170 by use of an adhesive, whiledistal end 168 of anchoringelement 110 is secured to anchoringtooth 172 by use of asoldered band 174. - In a preferred embodiment, each anchoring
element wire segments force absorbing coupling force absorbing coupling element 106 from the action offorce generating elements molars teeth force absorbing coupling tubular cylinder 188, 190 having an anterior end soldered to wiresegment 176, 180, respectively, and an opposite posterior end that slidably receives theother wire segment force absorbing couplings - Now that the structure of
distalizing apparatus 100 has been described in detail, a method of usingapparatus 100 to distalizemolars apparatus 100 in the maxillary or mandibular jaw, one or both of theforce generating elements force generating elements - After distalization has been successfully completed,
apparatus 100 can readily be converted into a molar retainer by simply tightening the screw(s) 156 of all four spring stops 148, 150, 152 and 154. Once this has been done,apparatus 100 will function as a Nance appliance anchored tomolars distalized teeth elements apparatus 100 is being used as a molar retainer. - Referring now to
FIG. 6 , a second embodiment of an orthodonticdistalizing apparatus 200 is shown. For brevity, the description ofdistalizing apparatus 200 will be generally limited to its differences relative todistalizing apparatus 100 described above. For convenience, elements ofdistalizing apparatus 200 that are substantially similar to corresponding elements ofdistalizing apparatus 100 will be identified by the same reference numerals but preceded by a “2” instead of a “1”. -
Distalizing apparatus 200 differs fromdistalizing apparatus 100 described above in that eachanterior spring stop collar 201 and aset screw 256. As best seen inFIG. 7 , cone shapedcollar 201 comprises acylindrical base portion 203 and aconical portion 205.Conical portion 205 includes a threadedbore 207 which extends approximately perpendicular to the conicalouter surface 217 and is thus at an angle relative to acentral bore 209 that extends throughcollar 201 for slidably receiving one of the guidingelements element conical portions 205 closest to the front of the mouth—are significantly easier to adjust in position because of the improved angle provided for accessingscrews 256.FIG. 8 shows an alternatively shapedcollar 201′ which provides the same advantages ascollar 201 but which requires less material for its manufacture.Collars -
Distalizing apparatus 200 also differs fromdistalizing apparatus 100 described above with respect to anchoringelements elements element force dissipating element 206 and anchoringteeth elements elements apparatus 100 described above. Another difference is that the two anchoringelements apparatus 200 are secured to anchoringteeth soldered bands 274 rather than a combination of soldered bands and an adhesive. - Referring now to
FIG. 9 , a third embodiment of an orthodonticdistalizing apparatus 300 is shown. For brevity, the description ofdistalizing apparatus 300 will be generally limited to its differences relative todistalizing apparatus 100 described above. For convenience, elements ofdistalizing apparatus 300 that are substantially similar to corresponding elements ofdistalizing apparatus 100 will be identified by the same reference numerals but preceded by a “3” instead of a “1”. -
Distalizing apparatus 300 differs fromdistalizing apparatus 100 described above in thatforce dissipating element 306 is in the form of an osseointegrated (e.g., subperiosteal or endosseous)implant 311.Implant 311, which resembles a button, is a relatively flat, disc-shaped fixture having a threadedaperture 313 for securing thereto the mesial ends 320, 322 of guidingelements Implant 311 is known as an “indirect anchorage device,” which is a term of art given to implants that are placed solely for orthodontic purposes (e.g., for stabilizing specific dental units to which clinical forces are then applied) and are generally removed once their anchorage duties have been fulfilled.Implant 311 provides for reliable anchorage and dissipation of the reactive forces generated byforce generating elements -
Distalizing apparatus 300 also differs fromdistalizing apparatus 100 described above with respect to force generatingelement 302. Unlikeforce generating element 102 ofapparatus 100 described above,force generating element 302 is shown in its inactive (or passive) state in which the compression spring has been removed and bothcollars element 302 will function as a molar retainer. It should be noted thatFIG. 9 is intended purely for purposes of illustration and that in actual use the technician would typically convert bothforce generating elements element 316. - Referring now to
FIG. 10 , a fourth embodiment of an orthodonticdistalizing apparatus 400 is shown. For brevity, the description ofdistalizing apparatus 400 will be generally limited to its differences relative todistalizing apparatuses 100 described above. For convenience, elements ofdistalizing apparatus 400 that are substantially similar to corresponding elements ofdistalizing apparatus 100 will be identified by the same reference numerals but preceded by a “4” instead of a “1”. -
Distalizing apparatus 400 differs fromdistalizing apparatus 100 described above in thatforce generating element 404 has been modified to provide continuous force activation. More specifically,force generating element 404 has been modified relative to force generatingelement 104 ofapparatus 100 in thatanterior spring stop 452 is free floating (i.e., rather than fixed in one position) during distalization and thatelement 404 additionally includes an elastic strap (or chain) 415. As illustrated,elastic strap 415 is stretched (or tensioned) between the medial face ofanterior spring stop 452 and thedistal end 426 of guidingelement 418. Althoughstrap 415 is illustrated with itsanterior-most loop 417 extending aroundwire 418,loop 417 could instead be secured directly tocollar 452. One way this could be accomplished would be to substitute for collar 452 a collar similar to locking collar 652A (seeFIGS. 13 and 14 ) which provides a convenient tie off 655 (as described in detail below). - Returning now to
FIG. 10 ,elastic strap 415 applies a force in a posterior direction toanterior spring stop 452 that directly opposes the force applied in an anterior direction toanterior spring stop 452 bycompression spring 446. With these two opposing forces in equilibrium,elastic strap 415 will compressanterior spring stop 452 in a posterior direction againstcompression spring 446 to driveposterior spring stop 454 distally to causespring 446 to remain continuously in a (nearly) fully compressed state. That is, so long aselastic strap 415 retains its memory,force generating element 404 will continue to provide its full distalizing force regardless of how far molar 414 moves in a posterior direction during distalization. Once again, it should be noted thatFIG. 10 is intended solely for purposes of illustration and thatapparatus 400 when used in actual practice by a technician would be modified to include theelastic strap 415 on both of theforce generating elements 402 and 404. - Referring now to
FIGS. 11 and 12 , a fifth embodiment of an orthodonticdistalizing apparatus 500 is shown. For brevity, the description ofdistalizing apparatus 500 will be generally limited to its differences relative todistalizing apparatus 100 described above. For convenience, elements ofdistalizing apparatus 500 that are substantially similar to corresponding elements ofdistalizing apparatus 100 will be identified by the same reference numerals but preceded by a “5” instead of a “1”. -
Distalizing apparatus 500 differs fromapparatus 100 in that in place of anchoringelement 108 inapparatus 100,apparatus 500 includes aforce generating element 502′. Although not illustrated,apparatus 500 also includes a similar force generating element on the opposite side of the dental arch in place of anchoringelement 110 inapparatus 100. Thusapparatus 500 includes a first pair offorce generating elements 502 positioned betweenforce dissipating element 506 andmolars 512, and a second pair offorce generating elements 502′ positioned betweenforce dissipating element 506 and bicuspid 570. Eachforce generating element spring anterior spring stop posterior spring stop force generating element distal stop distal stop 528 is formed as a double-back anddistal stop 528′ is formed by a solder ball. - With the foregoing arrangement,
apparatus 500 can be utilized in a two step method tofirst distalize molars 512 and, subsequently, to close any gaps that are created. In the first step, spring stops 548, 548′ and 550′ are moved to their desired positions and then fixed in place, whileposterior spring stop 550 ofthrust generating element 502 is allowed to freely slide along guidingelement 516. Because spring stops 548′ and 550′ offorce generating element 502′ are both fixed in position,force generating element 502′ will function as an anchoring element (or retainer) during this first step. By contrast, becausespring stop 550 offorce generating element 502 is not fixed in position, the biasing force provided bycompression spring 544 will cause molar 512 to distalize and thus create a space (or gap) 519 betweenmolar 512 and bicuspid 570 (seeFIG. 12 ). According to a second step,space 519 can be closed (or reduced) by distalizing bicuspid 570 towardmolar 512. This may be accomplished usingapparatus 500 by fixing the position ofposterior spring stop 550 ofthrust generating element 502 while also unlockingposterior spring stop 550′ ofthrust generating element 502′ so that it is free to slide along elongated guidingelement 516′. Thus, the biasing force provided bycompression spring 544′ will cause bicuspid 570—to distalize towardmolar 512, while at the same timethrust generating element 502 will function as an anchoring element. After bicuspid 570 has been sufficiently distalized to close (or reduce)space 519,posterior spring stop 550′ ofthrust generating element 502′ can again be fixed in position to placeapparatus 500 in its inactive state. -
Apparatus 500 also differs fromapparatus 100 in the attachment ofsupport linkage 558 tomolar 512. In particular,support linkage 558 includes a short and rigidlingual wire 559 that has one of its ends attached tomolar 512 by means of alingual sheath 521 oriented generally transverse to the longitudinal axis of elongated guidingelement 516. As such,support linkage 558 can easily be decoupled frommolar 512 by simply graspingwire 559 with a pliers and pulling downward with sufficient force to remove the end ofwire 559 fromlingual sheath 521. This facilitates adjustment ofapparatus 500 and/or replacement of one or more of its elements after it has been installed in the patient. If desired, the end ofwire 559 may have a square cross-section to facilitate its connection tolingual sheath 521. A similar releasable coupling arrangement may be provided betweencollar 548′ and bicuspid 570. - Referring now to
FIGS. 13 and 14 , a sixth embodiment of an orthodonticdistalizing apparatus 600 is shown. For brevity, the description ofdistalizing apparatus 600 will be generally limited to its differences relative todistalizing apparatus 100 described above. For convenience, elements ofdistalizing apparatus 600 that are substantially similar to corresponding elements ofdistalizing apparatus 100 will be identified by the same reference numerals but preceded by a “6” instead of a “1”. -
Distalizing apparatus 600 differs fromapparatus 100 in that in place of the solid, fixedlength guiding element 116 and the short, rigidlingual wire 159 ofapparatus 100,apparatus 600 includes a multi-piece, expandablelength guiding element 616 and an elongated,coiled support linkage 659, respectively. In addition,apparatus 600 includesalternative locking collars collars apparatus 100. - According to the illustrated embodiment, elongated guiding
element 616 comprises amesial portion 640 formed by a solid, heavy gauge (i.e., large diameter) wire, a substantially horizontalmain portion 636 formed by a hollow tube, adistal end 624 configured to be slidably received within the interior ofhollow tube 636, and adistal stop 628 formed ondistal end 624 by a double (asymmetric) nail-head end.Solid rod 640 may have its posterior end slidably received within the anterior end ofhollow tube 636, and the two ends may be coupled together bylaser welding 629. - In an exemplary embodiment, each locking
collar cylindrical base portion screw receiving portion FIG. 14 , eachscrew receiving portion opening bore 607 for facilitating the reception of aset screw 656 therein. As best illustrated byFIG. 13 , eachscrew receiving portion support linkage wire 659 is illustrated with amesial portion 661 tied off to screw receivingportion 655 ofcollar 650. Becausesupport linkage wire 659 is tied tocollar 650 rather than permanently fastened (e.g., welded) thereto,wire 659 can be easily decoupled fromcollar 650 to facilitate adjustment thereof. As illustrated,support linkage wire 659 also includes a central coiledportion 663 extending around (and thus coupled to)distal stop 628 of movabledistal end 624, as well as a distal end 665 that is releasably secured tomolar 612 by a lingual sheath and a band.Central portion 663 may also include one or more loops extending around the elongatedcylindrical base portion 651 of lockingcollar 650. - With the foregoing structure, persons skilled in the art will recognize that guiding
element 616 has an adjustable length. In particular, the length of guidingelement 616 will vary in accordance with the amount or distance that molar 612 is distalized. More specifically, whencollar 648 is locked andcollar 650 is unlocked,compression spring 644 will causecollar 655 to move in a posterior direction along the exterior ofhollow tube 636. Ascollar 650 continues to move in a posterior direction, it will eventually extend beyond the posterior end ofhollow tube 636 and abut against the anterior-most flange or head ondistal stop 628. Once this occurs any additional posterior movement ofcollar 650 resulting from further expansion ofcompression spring 644 will causedistal end 624 to withdraw out of the interior ofhollow tube 636 and thus effectively lengthen guidingelement 616. Thus,apparatus 600 is advantageous in applications where space is at a premium because the length of guidingelement 616 will be only as long as necessary to accomplish the distalization. Hence,apparatus 600 is less likely to interfere with swallowing or cause any other discomfort to the patient. - Persons skilled in the art will also recognize that the coiled shaped of support linkage 658 provides several advantages over a relatively short, straight wire. For example, the coiled shape of
lingual wire 659 increases the length of support linkage 658 which provides it with a longer lever action when it is desirable to torque or rotatemolar 612. As another example, the coiled shape oflingual wire 659 allows the technician to increase the effective distalization range ofapparatus 600 by uncoilingwire 659 as desired. - Referring now to
FIGS. 15 and 16 , a seventh embodiment of an orthodonticdistalizing apparatus 700 is shown. For brevity, the description ofdistalizing apparatus 700 will be generally limited to its differences relative todistalizing apparatus 600 described above. For convenience, elements ofdistalizing apparatus 700 that are substantially similar to corresponding elements ofdistalizing apparatus 600 will be identified by the same reference numerals but preceded by a “7” instead of a “6”. -
Distalizing apparatus 700 differs fromapparatus 600 in thatforce generating element 702 includes ananterior locking collar 748 that is elongated and a posterior collar (or spring stop) 750 that is non-lockable. According to an exemplary embodiment,anterior locking collar 748 includes acylindrical base portion 749 having a mesio-distal length of about 7 mm when measured from the center of a central threaded bore 707 to aposterior edge 765. In addition,posterior spring stop 750 has a mesio-distal length of about 0.5 mm. As persons skilled in the art will recognize, the first andsecond bicuspids 770 of adult humans measure on average about 7.2 mm and 6.8 mm, respectively, taken along a mesio-distal line through the crowns. See Black, O. V., “Descriptive Anatomy of the Human Teeth,” ed. 4, Philadelphia, Pa., 1897, The S. S. White Dental Manufacturing Co. Quite commonly, amolar 712 needs to be distalized because it has encroached in the anterior bicuspid space (i.e., moved forwardly into the arch). Thus, it will be appreciated by persons skilled in the art that anterior lockingcollar 748 has a length substantially equal to the maximum mesio-distal length of a space (or gap) 719 that is likely to be created during distalization. With the forgoing construction, it is possible to quickly convertforce generating element 702 into a rigid, mechanically fixed retainer after distalization is complete by removing spring 744 and slidinganterior locking collar 748 in a posterior direction until it abutsposterior collar 750, and then locking anterior 748 collar in place. - It is important to note that the above-described preferred embodiments of the distalizing apparatuses are illustrative only. Although the invention has been described in conjunction with specific embodiments thereof, those skilled in the art will appreciate that numerous modifications are possible without materially departing from the novel teachings and advantages of the subject matter described herein. For example, although each distalizing apparatus disclosed and illustrated above includes a pair of force generating elements, only one force generating element need be used if the molar(s) requiring distalization are all on the same side of the dental arch. In addition, although the apparatuses are all shown being anchored to bicuspids, other teeth including incisor, canines or other molars could be used as an anchoring teeth if desired. Accordingly, these and all other such modifications are intended to be included within the scope of the present invention. Other substitutions, modifications, changes and omissions may be made in the design, operating conditions and arrangement of the preferred and other exemplary embodiments without departing from the spirit of the present invention.
Claims (21)
1-57. (canceled)
58. An orthodontic apparatus for distalizing a first tooth of a dental arch, comprising:
a force dissipating element configured to be located on a bony support of the dental arch; and
at least one force generating element configured to be positioned intermediate the force dissipating element and the first tooth,
wherein the at least one force generating element is configured to be positioned to apply a distalizing force on the first tooth in a direction substantially along a longitudinal axis of the dental arch and at a low level of the basal gingiva, and
wherein the at least one force generating element is configured to provide a substantially continuous distalization force during distalization of the first tooth.
59. The apparatus of claim 58 , wherein the continuous distalization force has a magnitude that is configured to remain substantially constant during distalization of the first tooth.
60. The apparatus of claim 58 , wherein the at least one force generating element includes first and second biasing elements configured to generate biasing forces in opposing directions.
61. The apparatus of claim 60 , wherein the at least one force generating element further includes an elongated guiding element configured to receive the first biasing element.
62. The apparatus of claim 61 , wherein the elongated guiding element further comprises an anterior collar and a posterior collar, and wherein the first biasing element is configured to provide an expansion force between the anterior collar and the posterior collar.
63. The apparatus of claim 62 , wherein the anterior collar is configured to be slidably coupled to the elongated guiding element.
64. The apparatus of claim 63 wherein the second biasing element is configured to provide an opposing force on the anterior collar.
65. The apparatus of claim 64 wherein the second biasing element is configured to provide a contraction force between a distal end of the elongated guiding element and the anterior collar.
66. The apparatus of claim 62 , wherein the posterior collar is slidably coupled to the elongated guiding element.
67. The apparatus of claim 62 , wherein the first biasing element is a compression spring configured to be slidably mounted between the anterior and posterior collars.
68. The apparatus of claim 62 , wherein the second biasing element is an elastic strap.
69. The apparatus of claim 68 , wherein the elastic strap is configured to be stretched between a distal end of the elongated guiding element and a mesial face of the anterior collar.
70. The apparatus of claim 58 , wherein the force dissipating element is secured in place by an anchoring element configured to extend between the force dissipating element and at least one anchoring tooth that is different from the first tooth.
71. The apparatus of claim 58 , wherein the at least one force generating element is configured to be reversibly convertible between an active state and a passive state while remaining installed in the dental arch.
72. An orthodontic apparatus for distalizing a first tooth of a dental arch, comprising:
a force dissipating element configured to be located on a bony support of the dental arch; and
a force generating element configured to be positioned intermediate the force dissipating element and the first tooth and including first and second biasing elements configured to generate biasing forces in opposing directions,
wherein the at least one force generating element is configured to provide a substantially continuous distalization force during distalization of the first tooth.
73. The apparatus of claim 72 , wherein the first biasing element comprises a compression spring, and wherein the force generating element includes an elongated guiding element with the compression spring captured between an anterior spring stop and a posterior spring stop.
74. The apparatus of claim 73 , wherein the anterior spring stop is slidably coupled to the elongated guiding element.
75. The apparatus of claim 74 , wherein the second biasing element is configured to provide a force on the anterior spring stop opposing a force provided by the compression spring.
76. The apparatus of claim 75 , wherein the second biasing element is an elastic strap having one end coupled to the anterior spring stop.
77. A method of providing a substantially continuous distalization force during distalization of a first tooth of a dental arch, the method comprising:
providing a force dissipating element configured to be located on a bony support of the dental arch; and
providing a force generating element configured to be positioned immediate the force dissipating element and the first tooth, the force generating element including first and second biasing elements configured to generate biasing forces in opposing directions,
wherein the first biasing element is a compression spring and the second biasing element is configured to retain the compression spring in a compressed state.
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US11/157,117 US20060024636A1 (en) | 2001-11-15 | 2005-06-20 | Orthodontic distalizing apparatus |
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US09/999,269 US6908306B2 (en) | 2001-11-15 | 2001-11-15 | Orthodontic distalizing apparatus |
US11/157,117 US20060024636A1 (en) | 2001-11-15 | 2005-06-20 | Orthodontic distalizing apparatus |
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US09/999,269 Division US6908306B2 (en) | 2001-11-15 | 2001-11-15 | Orthodontic distalizing apparatus |
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US11/157,117 Abandoned US20060024636A1 (en) | 2001-11-15 | 2005-06-20 | Orthodontic distalizing apparatus |
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Cited By (12)
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---|---|---|---|---|
WO2009029307A1 (en) * | 2007-08-30 | 2009-03-05 | Under Dog Media, L.P. | Prefabricated adjustable implant-based tooth movement device |
US20100047732A1 (en) * | 2007-11-08 | 2010-02-25 | Hyun Sang Park | Apparatus for correcting position of teeth |
US20110311937A1 (en) * | 2008-08-06 | 2011-12-22 | Ortho-Pro-Teknica Limited | Orthodontic Space Closing Appliances |
ITVR20100146A1 (en) * | 2010-07-20 | 2012-01-21 | Davide Decesari | "LINGUAL OR PALATAL ARCH" |
US20120288817A1 (en) * | 2008-06-13 | 2012-11-15 | Carrillo Gonzalez Roberto J | Orthodontic Devices |
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Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4713000A (en) * | 1987-02-12 | 1987-12-15 | Farel Rosenberg | Molar controlling and positioning orthodontic appliance adjustable in three planes |
US5785520A (en) * | 1996-05-07 | 1998-07-28 | Micerium S.R.L. | Orthodontic distalizing apparatus |
US5829970A (en) * | 1996-01-16 | 1998-11-03 | Pro-Orthoappliance Corporation | Molar distalization appliance and method |
US5967774A (en) * | 1997-02-05 | 1999-10-19 | Teramoto; Nobuhisa | Dental assist appliance for attachment of orthodontic wire and orthodontic appliance using it |
US5967772A (en) * | 1998-12-09 | 1999-10-19 | Gray; James B. | Orthodontic anchor system |
US6033217A (en) * | 1997-05-16 | 2000-03-07 | Shofu Inc. | Orthodontic device |
US6220856B1 (en) * | 1997-10-15 | 2001-04-24 | Micerium S.R.L. | Device for orthopedic and/or orthodontic treatment |
-
2001
- 2001-11-15 US US09/999,269 patent/US6908306B2/en not_active Expired - Fee Related
-
2005
- 2005-06-20 US US11/157,117 patent/US20060024636A1/en not_active Abandoned
Patent Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4713000A (en) * | 1987-02-12 | 1987-12-15 | Farel Rosenberg | Molar controlling and positioning orthodontic appliance adjustable in three planes |
US5829970A (en) * | 1996-01-16 | 1998-11-03 | Pro-Orthoappliance Corporation | Molar distalization appliance and method |
US5785520A (en) * | 1996-05-07 | 1998-07-28 | Micerium S.R.L. | Orthodontic distalizing apparatus |
US5967774A (en) * | 1997-02-05 | 1999-10-19 | Teramoto; Nobuhisa | Dental assist appliance for attachment of orthodontic wire and orthodontic appliance using it |
US6033217A (en) * | 1997-05-16 | 2000-03-07 | Shofu Inc. | Orthodontic device |
US6220856B1 (en) * | 1997-10-15 | 2001-04-24 | Micerium S.R.L. | Device for orthopedic and/or orthodontic treatment |
US5967772A (en) * | 1998-12-09 | 1999-10-19 | Gray; James B. | Orthodontic anchor system |
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WO2009029307A1 (en) * | 2007-08-30 | 2009-03-05 | Under Dog Media, L.P. | Prefabricated adjustable implant-based tooth movement device |
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US20180083047A1 (en) * | 2016-04-13 | 2018-03-22 | Wuhan China Star Optoelectronics Technology Co., Ltd. | Tft substrate and manufacture method thereof |
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