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| United States Patent Application |
20100129763
|
| Kind Code
|
A1
|
|
Kuo; Eric
|
May 27, 2010
|
SEQUENTIAL SPORTS GUARD
Abstract
The present invention provides protective repositioning appliances,
accommodating mouth guards, and covering guards that protect an
orthodontic patient against impact-induced injuries, as well as related
systems and methods. A protective appliance can include teeth receiving
cavities shaped to receive and reposition a patient's teeth and can
include an occlusal portion having an impact-absorbing compliance. An
accommodating mouth guard can include teeth receiving cavities shaped to
accommodate a patient's teeth from a first arrangement to a second
arrangement and can include an occlusal portion having an
impact-absorbing compliance. A covering guard can include a guard segment
that covers at least a portion of an appliance. The combination of a
guard segment and an appliance can provide an occlusal compliance that
absorbs impacts.
| Inventors: |
Kuo; Eric; (San Mateo, CA)
|
| Correspondence Address:
|
TOWNSEND AND TOWNSEND AND CREW, LLP (018563)
TWO EMBARCADERO CENTER, EIGHTH FLOOR
SAN FRANCISCO
CA
94111-3834
US
|
| Assignee: |
Align Technology, Inc.
Santa Clara
CA
|
| Family ID:
|
42111466
|
| Appl. No.:
|
12/277191
|
| Filed:
|
November 24, 2008 |
| Current U.S. Class: |
433/6 ; 128/861 |
| Current CPC Class: |
A61C 7/08 20130101; A63B 2071/088 20130101; A63B 71/085 20130101 |
| Class at Publication: |
433/6 ; 128/861 |
| International Class: |
A61C 5/14 20060101 A61C005/14; A61C 7/08 20060101 A61C007/08 |
Claims
1. A removable dental appliance for repositioning a patient's teeth and
providing protection against impact-induced injuries, the appliance
comprising teeth receiving cavities shaped to receive and resiliently
reposition the teeth from a first arrangement toward a planned second
arrangement, the appliance having a shape or material selected to provide
protection against impact-induced injury.
2. An appliance as in claim 1, comprising an occlusal portion disposed
between a plurality of upper and lower teeth when the appliance is worn
by the patient, the occlusal portion having a compliance selected to
provide impact absorption during an impact forcing the lower teeth into
the upper teeth.
3. An appliance as in claim 1, comprising a u-shaped portion for
receiving a plurality of teeth not received within said cavities.
4. An appliance as in claim 1, comprising a leash tab.
5. An appliance as in claim 1, adapted to facilitate mouth breathing
while the patient bites down.
6. An appliance as in claim 1, comprising a selected color or ornamental
design.
7. An appliance as in claim 1, comprising a multi-laminate material.
8. An appliance as in claim 1, comprising an upper component and a lower
component, each of said components comprising teeth receiving cavities.
9. An appliance as in claim 8, wherein the upper component and the lower
component comprise complementary coupling features.
10. An appliance as in claim 9, wherein the complementary coupling
features comprise snap-fit features.
11. An appliance as in claim 9, wherein the complementary coupling
features comprise a plurality of ribs and a plurality of grooves.
12. An appliance as in claim 8, comprising an integral component
comprising the upper component and the lower component.
13. A mouth guard for use during a portion of a course of orthodontic
treatment, the mouth guard comprising: a plurality of cavities for
receiving a plurality of a patient's teeth during the portion of a course
of orthodontic treatment, the cavities shaped to accommodate the received
teeth when the teeth are in a first arrangement and when the teeth have
been repositioned to a second arrangement, the cavities further shaped to
substantially match or be enveloped by an accommodation envelope for the
received teeth, the accommodation envelope substantially matching a swept
volume for the received teeth from the first arrangement to the second
arrangement, the mouth guard having a shape or material selected to
provide protection against impact-induced injury.
14. An mouth guard as in claim 13, comprising an occlusal portion
disposed between a plurality of upper and lower teeth when the mouth
guard is worn by the patient, the occlusal portion having a compliance
selected to provide impact absorption during an impact forcing the lower
teeth into the upper teeth.
15. A mouth guard as in claim 13, wherein at least one of said plurality
of cavities receives a tooth that is not being repositioned during the
portion of a course of orthodontic treatment.
16. A mouth guard as in claim 13, comprising a u-shaped portion for
receiving a plurality of teeth not received within said cavities.
17. A mouth guard as in claim 13, comprising a leash tab.
18. A mouth guard as in claim 13, adapted to facilitate mouth breathing
while the patient bites down.
19. A mouth guard as in claim 13, comprising a multi-laminate material.
20. A mouth guard as in claim 13, comprising an upper component and a
lower component, each of said components comprising a plurality of said
cavities.
21. A mouth guard as in claim 20, wherein the upper component and the
lower component comprise complementary coupling features.
22. A mouth guard as in claim 21, wherein the complementary coupling
features comprise snap-fit features.
23. A mouth guard as in claim 21, wherein the complementary coupling
features comprise a plurality of ribs and a plurality of grooves.
24. A mouth guard as in claim 20, comprising an integral component
comprising the upper component and the lower component.
25. A mouth guard as in claim 13, comprising a selected color or
ornamental design.
26. A mouth guard as in claim 13, wherein a plurality of the received
teeth have braces and the accommodation envelope substantially matches a
swept volume for the received teeth and braces from the first arrangement
and to the second arrangement.
27. A covering guard for providing protection against impact-induced
injuries when coupled with a tooth repositioning appliance worn by a
patient, the covering guard comprising a guard segment configured to
cover at least a portion of the tooth repositioning appliance, the
combination of the guard segment and the appliance having a shape or
material selected to provide protection against impact-induced injury.
28. A covering guard as in claim 27, the combination comprising an
occlusal portion disposed between a plurality of upper and lower teeth
when the combination is worn by the patient, the occlusal portion having
a compliance selected to provide impact absorption during an impact
forcing the lower teeth into the upper teeth.
29. A covering guard as in claim 27, comprising the tooth repositioning
appliance.
30. A covering guard as in claim 27, wherein the guard segment is adapted
to interface with a sequence of tooth repositioning appliances.
31. A covering guard as in claim 27, wherein the guard segment comprises
a u-shaped portion for receiving a plurality of teeth not received within
the tooth repositioning appliance.
32. A covering guard as in claim 27, comprising a leash tab.
33. A covering guard as in claim 27, adapted to facilitate mouth
breathing while the patient bites down.
34. A covering guard as in claim 27, comprising a multi-laminate
material.
35. A covering guard as in claim 27, comprising at least one snap-fit
feature for coupling the guard segment with the tooth repositioning
appliance.
36. A covering guard as in claim 27, comprising a selected color or
ornamental design.
37. A covering guard as in claim 27, comprising an upper component for
covering an upper arch tooth repositioning appliance and a lower
component for covering a lower arch tooth repositioning appliance.
38. A covering guard as in claim 37, wherein the upper component and the
lower component comprise complementary coupling features.
39. A covering guard as in claim 38, wherein the complementary coupling
features comprise snap-fit features.
40. A covering guard as in claim 38, wherein the complementary coupling
features comprise a plurality of ribs and a plurality of grooves.
41. A covering guard as in claim 37, comprising an integral component
comprising the upper component and the lower component.
42. A system for providing protection against impact-induced injuries
during orthodontic treatment comprising a first treatment stage and a
second treatment stage, the first stage comprising a set of appliances
shaped to resiliently reposition a patient's teeth from a first
arrangement to a second arrangement, and the second stage comprising a
set of appliances shaped to resiliently reposition the patient's teeth
from the second arrangement to a third arrangement, the system
comprising: a first mouth guard for use during the first stage, the first
mouth guard comprising: a plurality of cavities for receiving a plurality
of the patient's teeth, the cavities shaped to accommodate the received
teeth when the teeth are in the first arrangement and when the teeth have
been repositioned to the second arrangement, the cavities further shaped
to substantially match or be enveloped by a first accommodation profile
for the received teeth, the first accommodation profile substantially
matching a swept volume for the received teeth from the first arrangement
to the second arrangement, the first mouth guard having a shape or
material selected to provide protection against impact-induced injury;
and a second mouth guard for use during the second stage, the second
mouth guard comprising: a plurality of cavities for receiving a plurality
of the patient's teeth, the cavities shaped to accommodate the received
teeth when the teeth are in the second arrangement and when the teeth
have been repositioned to the third arrangement, the cavities further
shaped to substantially match or be enveloped by a second accommodation
profile for the received teeth, the second accommodation profile
substantially matching a swept volume for the received teeth from the
second arrangement to the third arrangement, the second mouth guard
having a shape or material selected to provide protection against
impact-induced injury.
Description
BACKGROUND
[0001] The present invention relates generally to the field of
orthodontics, and more particularly to dental positioning appliances and
mouth guards that provide protection against impact-induced injuries
during a course of orthodontic treatment, as well as related methods and
systems.
[0002] An objective of orthodontics is to move a patient's teeth to
positions where function and/or aesthetics are optimized. Traditionally,
appliances such as braces are applied to a patient's teeth by a treating
practitioner and the set of braces exerts continual force on the teeth
and gradually urges them toward their intended positions. Over time and
with a series of clinical visits and adjustments to the braces, the
practitioner adjusts the appliances to move the teeth toward their final
destination.
[0003] More recently, alternatives to conventional orthodontic treatment
with traditional affixed appliances (e.g., braces) have become available.
For example, systems including a series of preformed appliances/aligners
have become commercially available from Align Technology, Inc., Santa
Clara, Calif., under the tradename Invisalign.RTM. System. The
Invisalign.RTM. System is described in numerous patents and patent
applications assigned to Align Technology, Inc. including, for example in
U.S. Pat. Nos. 6,450,807, and 5,975,893, as well as on the company's
website, which is accessible on the World Wide Web (see, e.g., the url
"www.invisalign.com"). The Invisalign.RTM. System includes designing
and/or fabricating multiple, and sometimes all, of the aligners to be
worn by the patient before the aligners are administered to the patient
and used to reposition the teeth (e.g., at the outset of treatment).
Often, designing and planning a customized treatment for a patient makes
use of computer-based 3-dimensional planning/design tools, such as
Treat.TM. from Align Technology, Inc. The design of the aligners can rely
on computer modeling of a series of planned successive tooth
arrangements, and the individual aligners are designed to be worn over
the teeth and elastically reposition the teeth to each of the planned
tooth arrangements.
[0004] While recently developed orthodontic treatment technologies, such
as those described above, represent a considerable advancement in the
field of orthodontics, additional advancements remain of interest. For
example, certain individuals may engage in a sporting activity during
their orthodontic treatment. In many sports, especially in contact sports
such as football, a player typically wears a mouth guard so as to protect
the player against impact-induced injuries, including concussion. As
such, there is a need for innovative products that provide an orthodontic
patient with protection against impact-induced injuries.
BRIEF SUMMARY
[0005] The present disclosure provides protective positioning appliances,
accommodating mouth guards, and covering guards that provide an
orthodontic patient with protection against impact-induced injuries, and
related systems and methods. The disclosed protective appliances,
accommodating mouth guards, and covering guards provide the ability to
have a patient's teeth protected while undergoing orthodontic treatment,
such with the Invisalign.RTM. System. Mouth guards are often used by
players of contact sports, such as football.
[0006] For a fuller understanding of the nature and advantages of the
present invention, reference should be made to the ensuing detailed
description and accompanying drawings. Other aspects, objects and
advantages of the invention will be apparent from the drawings and
detailed description that follows.
BRIEF DESCRIPTION OF THE DRAWINGS
[0007] FIG. 1 illustrates a jaw together with an incremental positioning
appliance.
[0008] FIG. 2 illustrates a jaw together with a protective incremental
positioning appliance according to an embodiment of the present
invention.
[0009] FIG. 3 illustrates a jaw together with a protective incremental
positioning appliance according to another embodiment of the present
invention.
[0010] FIGS. 4A and 4B are cross-sectional illustrations of teeth received
within protective incremental positioning appliances according to
embodiments of the present invention.
[0011] FIG. 5 illustrates a fabrication process that can be used to create
upper arch and lower arch protective incremental positioning appliances,
accommodating mouth guards, covering guards, and/or accommodating
covering guards that have complementary coupling features according to
embodiments of the present invention.
[0012] FIGS. 6A and 6B are cross-sectional illustrations of teeth received
within accommodating mouth guards according to embodiments of the present
invention.
[0013] FIG. 7 is a cross-sectional diagram illustrating the accommodation
of a single tooth along a path of intermediate stages according to
embodiments of the present invention.
[0014] FIGS. 8A and 8B are cross-sectional illustrations of teeth received
within incremental positioning appliances that are coupled with covering
guards in accordance with embodiments of the present invention.
[0015] FIGS. 9A and 9B are cross-sectional illustrations of teeth received
within incremental positioning appliances that are coupled with
accommodating covering guards in accordance with embodiments of the
present invention.
[0016] FIG. 10 is a simplified block diagram illustrating a system of
accommodating mouth guards in accordance with embodiments of the present
invention.
[0017] FIG. 11 is a simplified block diagram illustrating a system of
accommodating covering guards in accordance with embodiments of the
present invention.
[0018] FIGS. 12 and 13 are simplified block diagrams illustrating methods
for fabricating protective incremental positioning appliances according
to embodiments of the present invention.
[0019] FIGS. 14 and 15 are simplified block diagrams illustrating methods
for fabricating accommodating mouth guards according to embodiments of
the present invention.
[0020] FIG. 16 diagrammatically illustrates a system according to an
embodiment of the present invention.
DETAILED DESCRIPTION
[0021] Protective repositioning appliances, accommodating mouth guards,
covering guards and accommodating covering guards are provided that
protect an orthodontic patient against impact-induced injuries, as well
as related systems and methods. In the absence of adequate protection,
players of certain contact sports, such as football, may be exposed to a
significant risk of impact-induced injuries. The presently disclosed
appliances, guards, systems and methods provide a means by which an
orthodontic patient can be protected against oral-related impact induced
injuries during a course of orthodontic treatment.
[0022] A protective repositioning appliance can be configured to
reposition a patient's teeth while protecting the patient against
impact-induced injuries. Such a protective repositioning appliance can
include teeth receiving cavities that are shaped to resiliently
reposition a patient's teeth from a first arrangement towards a second
arrangement. A protective repositioning appliance can be further
configured to have a shape or material selected to provide protection
against impact-induced injury.
[0023] An accommodating mouth guard can be configured to protect an
orthodontic patient's teeth during a portion of a course of orthodontic
treatment, during which the patient's teeth are repositioned from a first
arrangement towards a second arrangement. An accommodating mouth guard
can include teeth receiving cavities that are shaped to accommodate a
range of positions of the patient's teeth. A system of accommodating
mouth guards can be used to provide protection during multiple stages of
orthodontic treatment, where during each stage a patient's teeth are
repositioned by some amount.
[0024] A covering guard can be configured to couple with at least a
portion of a tooth repositioning appliance. The combination of the
covering guard and the tooth repositioning appliance can serve to protect
the orthodontic patient against impact-induced injuries. An accommodating
covering guard can be configured to couple with a sequence of tooth
repositioning appliances.
[0025] Tooth Repositioning Appliances
[0026] FIG. 1 provides an appropriate starting point in a discussion of
the present invention with respect to tooth repositioning appliances
designed to apply repositioning forces to teeth. A tooth repositioning
appliance 10 can be worn by a patient in order to achieve an incremental
repositioning of individual teeth in the jaw 11. The appliance can
include a shell (e.g., polymeric shell) having teeth-receiving cavities
that receive and resiliently reposition the teeth. In one embodiment, a
polymeric appliance can be formed from a known thin sheet of suitable
elastomeric polymeric material, such a 0.03 inch thermal forming dental
material by Tru-Tain Plastics, Rochester, Minn. An appliance can fit over
all teeth present in an upper or lower jaw, or less than all of the
teeth. In some cases, only certain teeth received by an appliance will be
repositioned by the appliance while other teeth can provide a base or
anchor region for holding the appliance in place as it applies force
against the tooth or teeth targeted for repositioning. In some cases,
many or most, and even all, of the teeth will be repositioned at some
point during treatment. Teeth that are moved can also serve as a base or
anchor for holding the appliance as it is worn by the patient. Typically,
no wires or other means will be provided for holding an appliance in
place over the teeth. In some cases, however, it may be desirable or
necessary to provide individual anchors on teeth with corresponding
receptacles or apertures in the appliance so that the appliance can apply
a selected force on the tooth. Exemplary appliances, including those
utilized in the Invisalign.RTM. System, are described in numerous patents
and patent applications assigned to Align Technology, Inc. including, for
example in U.S. Pat. Nos. 6,450,807, and 5,975,893, as well as on the
company's website, which is accessible on the World Wide Web (see, e.g.,
the url "www.invisalign.com").
[0027] An appliance can be designed and/or provided as part of a set or
plurality of appliances. In such an embodiment, each appliance may be
configured so a tooth-receiving cavity has a geometry corresponding to an
intermediate or final tooth arrangement intended for the appliance. The
patient's teeth can be progressively repositioned from an initial tooth
arrangement to a target tooth arrangement by placing a series of
incremental position adjustment appliances over the patient's teeth. A
target tooth arrangement can be a planned final tooth arrangement
selected for the patient's teeth at the end of all planned orthodontic
treatment. Alternatively, a target arrangement can be one of many
intermediate arrangements for the patient's teeth during the course of
orthodontic treatment, which may include where surgery is recommended,
where inter-proximal reduction (IPR) is appropriate, where a progress
check is scheduled, where anchor placement is best, where palatal
expansion is desirable, etc. As such, it is understood that a target
tooth arrangement can be any planned resulting arrangement for the
patient's teeth that follows one or more incremental repositioning
stages. Likewise, an initial tooth arrangement can be any initial
arrangement for the patient's teeth that is followed by one or more
incremental repositioning stages. The adjustment appliances can be
generated all at the same stage or in sets or batches, e.g., at the
beginning of a stage of the treatment, and the patient wears each
appliance until the pressure of each appliance on the teeth can no longer
be felt or has resulted in the maximum amount of expressed tooth movement
for that given stage. A plurality of different appliances (e.g., set) can
be designed and even fabricated prior to the patient wearing any
appliance of the plurality. After wearing an appliance for an appropriate
period of time, the patient replaces the current appliance with the next
appliance in the series until no more appliances remain. The appliances
are generally not affixed to the teeth and the patient may place and
replace the appliances at any time during the procedure (e.g.,
patient-removable appliances). The final appliance or several appliances
in the series may have a geometry or geometries selected to overcorrect
the tooth arrangement, i.e., have a geometry which would (if fully
achieved) move individual teeth beyond the tooth arrangement which has
been selected as the "final." Such over-correction may be desirable in
order to offset potential relapse after the repositioning method has been
terminated, i.e., to permit movement of individual teeth back toward
their pre-corrected positions. Over-correction may also be beneficial to
speed the rate of correction, i.e., by having an appliance with a
geometry that is positioned beyond a desired intermediate or final
position, the individual teeth will be shifted toward the position at a
greater rate. In such cases, the use of an appliance can be terminated
before the teeth reach the positions defined by the appliance.
[0028] Protective Repositioning Appliances
[0029] Protective dental appliances are provided that reposition a
patient's teeth and provide protection against impact-induced injuries. A
protective appliance can include teeth receiving cavities shaped to
receive and reposition a patient's teeth. A protective appliance can have
a shape or material selected to provide protection against impact-induced
injury.
[0030] Referring now to FIG. 2, an embodiment of a protective
repositioning appliance 20 is shown. Similar to the tooth repositioning
appliance 10 shown in FIG. 1, the protective repositioning appliance 20
includes teeth receiving cavities (hidden from view in FIG. 2) shaped to
receive and resiliently reposition a patient's teeth. In the embodiment
shown, the protective appliance 20 includes an optional u-shaped tray 22
for receiving the patient's opposite jaw teeth when the patient bites
down. The u-shaped tray 22 can be defined in part by an occlusal-pad
portion 24, which can be configured so as to exhibit an impact-absorbing
compliance during an impact that forces the lower teeth into the upper
teeth. The amount of compliance can be influenced by the elasticity and
thickness of material used in the occlusal-pad portion. The amount of
compliance can also be influenced by the span coverage of the
occlusal-pad portion. Additionally, the optional u-shaped tray is
partially defined by buccal wall 26 and lingual wall 28. The buccal wall
26 and lingual wall 28 can serve to laterally couple a plurality of a
patient's upper and lower jaw teeth so as to help protect against lateral
impact-induced injuries by distributing localized lateral impacts to
surrounding tissues.
[0031] A protective repositioning appliance 20 can come in a range of
variations. For example, an appliance 20 can also be adapted to permit
better air flow and breathing while the patient bites down. In the
embodiment shown, a plurality of traverse air passages 30 are provided so
as to permit the flow of air between buccal and lingual sides of the
appliance 20. A variety of other configurations can also be used to
facilitate mouth breathing. For example, one or more regions of the
buccal wall 26, the lingual wall 28, and/or the occusal-pad portion 24
can be modified so as to provide air passages across the appliance 20. A
protective repositioning appliance 20 can also include provisions for the
attachment of a connecting leash, such as the leash tab 32 shown. A
connecting leash can be used to couple the appliance with the patient so
that it will not get misplaced, such as by attaching the connecting leash
to a football helmet or the like. A variety of other configurations may
be used to provide for the attachment of a connecting leash, such as
loops, sockets, or the like.
[0032] An appliance can also include a selected color or ornamental
design. For example, an appliance can include embedded colors and/or
logos, such as for a team or a sponsor. As another example, an appliance
can be made with camouflage color for military use. An appliance can also
be labeled with personal information, such as the name of the owner, or
the number of the owner's athletic jersey.
[0033] An appliance can be multi-laminate in composition, such that the
different layers of the appliance confer different physical properties.
For example, an outer layer can be softer for greater impact protection
and an inner layer can be made of harder material for better adaptation
to the teeth. An appliance can be tri-laminate, with an outer layer being
hard for durability, a middle layer being softer for impact absorption,
and an inner layer being hard for better adaptation and retention.
[0034] FIG. 3 illustrates another protective repositioning appliance 40,
in accordance with an embodiment. Appliance 40 includes a plurality of
teeth receiving cavities 42 for the patient's upper and lower teeth.
Appliance 40 can be configured to be an integral unit, or can be
configured to include an upper component 44 and a lower component 46,
each of which can include teeth receiving cavities 42. Where separate
upper and lower components are used, they can be configured with
complementary interfacing surfaces (not shown in FIG. 3). These
complementary interfacing surfaces can serve to laterally couple a
plurality of a patient's upper and lower teeth, thereby helping to
distribute localized lateral impacts to surrounding tissues. These
complementary surfaces can also provide for snap-fit coupling between the
upper component 44 and the lower component 46. Appliance 40 can also be
adapted to facilitate mouth breathing while the patient is biting down,
such as by the traverse air passages 48 shown. Additionally, an appliance
40 can be adapted to facilitate mouth breathing in a variety of different
ways, such as discussed above with reference to FIG. 2.
[0035] FIGS. 4A and 4B are cross-sectional illustrations of embodiments of
protective repositioning appliances. FIG. 4A illustrates a cross-section
of an appliance 50 having lower-teeth receiving cavities. The appliance
can include an occlusal-pad portion 52 and an optional u-shaped tray 54
for receiving the patient's upper teeth. As discussed above with
reference to FIG. 2, the occlusal-pad portion 52 can be configured to
exhibit an impact absorbing compliance so as to reduce peak forces
transmitted between the patient's jaws during an impact that forces the
lower teeth into the upper teeth, or vice-versa. The optional u-shaped
tray 54 can be configured to provide coupling between a plurality of the
patient's upper and lower teeth, so as to distribute localized lateral
impact forces to surrounding tissues thereby reducing the level of
localized impact forces felt by local tissues. The appliance 50 of FIG.
4A can be used to protect a patient against impact-induced injuries while
simultaneously subjecting the patient's lower teeth to resilient
repositioning forces. An analogous, but opposite, appliance can be used
for to reposition the patient's upper teeth while providing protection
against impact-induced injuries. The appliance 60 of FIG. 4B includes an
upper component 62 having teeth receiving cavities for the patient's
upper teeth 64, and a lower component 66 having teeth receiving cavities
for the patient's lower teeth 68.
[0036] The upper and lower components can be configured with complementary
shaped interfacing surfaces, such as the snap-fit surfaces 70 shown.
These complementary-shaped surfaces can provide for lateral coupling
between a plurality of the patient's upper and lower teeth, thereby
enhancing the distribution of localized lateral impact forces to
surrounding tissues. Various complementary shaped interfacing surfaces
can be used. For example, FIG. 5 illustrates a fabrication process that
can be used to create upper arch and lower arch protective incremental
positioning appliances, accommodating mouth guards, covering guards,
and/or accommodating covering guards that have complementary coupling
features. Thin sheets 72, 74 of a suitable elastomeric polymeric material
can be configured with complementary coupling features, such as ribs on
sheet 72 and grooves on sheet 74, or any other complementary shaped
features. Sheet 72 can be formed over a positive mold 76 to form an upper
arch component 80 having complementary shaped features disposed on its
outer surface. Likewise, sheet 74 can be formed over a positive mold 78
to form a lower arch component 82 having complementary shaped features
disposed on its outer surface. When worn by a patient, one or more upper
arch component features 84 can interface with one or more lower arch
component features 86 so as to provide the above discussed lateral
coupling. Components 80, 82 can be a protective incremental positioning
appliance, an accommodating mouth guard, a covering guard, or an
accommodating covering guard.
[0037] Accommodating Mouth Guards
[0038] Accommodating mouth guards are provided that can be used during a
portion of a course of orthodontic treatment. An accommodating mouth
guard can accommodate a range of positions of the patient's teeth. An
accommodating mouth guard may or may not supply any repositioning forces
to a patient's teeth. Instead, an accommodating mouth guard can be used
in place of a tooth positioning appliance during a sporting activity.
[0039] Accommodating mouth guards are provided that can be used during a
course of orthodontic treatment. An accommodating mouth guard can include
teeth receiving cavities shaped to accommodate a patient's teeth in a
first and a second arrangement. An accommodating mouth guard can have a
shape or material selected to provide protection against impact-induced
injury.
[0040] FIGS. 6A and 6B are cross-sectional illustrations of embodiments of
accommodating mouth guards. FIG. 6A illustrates a cross-section of an
accommodating mouth guard 100 having lower-teeth receiving cavities.
Accommodation of a range of positions of the patient's teeth can be
provided in a number of ways. For example, as shown in FIG. 6A, the teeth
receiving cavities can be configured with additional volume selected to
accommodate the range of positions. This additional volume provides a
cavity of sufficient dimensions to accommodate a tooth in any of the
range of positions along the path of possible tooth positions from the
initial point to the end point (i.e., the tooth's swept volume). As
another example, the appliance cavity walls can include sufficient
compliance so as to be able to deflect a sufficient amount to accept the
tooth in any of the range of positions. A combination of additional
volume and cavity wall compliance can also be used. As such, it is
understood that a tooth receiving cavity can be shaped to accommodate a
range of positions for the tooth in a variety of ways, including those
discussed above. Additionally, an accommodating mouth guard can include
features similar to features of a protective repositioning appliance,
such as the occlusal-pad portion 102 and the optional u-shaped tray 104
as shown, and as discussed above with reference to FIG. 4A. Similarly,
the accommodating mouth guard 100 of FIG. 6A can be likewise configured
for a patient's upper teeth.
[0041] Accommodating mouth guards can also be advantageously configured to
selectively provide accommodation only for teeth that are being
repositioned during a stage of orthodontic treatment. During orthodontic
treatment using repositioning appliances, an appliance, or even a series
of appliances, may be used to reposition a subset of the patient's teeth.
The remaining teeth may not be repositioned during the stage of
treatment. The teeth receiving cavities for non-repositioned teeth can be
configured without accommodation, thereby providing for a more secure
coupling with the non-moving teeth. This more secure coupling can provide
for a more secure coupling between the accommodating mouth guard and the
patient's teeth in general.
[0042] The accommodating mouth guard 110 of FIG. 6B includes an upper
component 112 having teeth receiving cavities for the patient's upper
teeth 114, and a lower component 116 having teeth receiving cavities for
the patient's lower teeth 118. As discussed above with reference to FIG.
6A, these teeth receiving cavities can be configured to accommodate a
range of positions for any subset of teeth that are being repositioned
during a stage of orthodontic treatment, and omit accommodation for any
subset of teeth that are not being repositioned during the stage of
treatment. Similarly, the upper and lower component can be configured
with complementary-shaped interfacing surfaces, such as the snap-fit
surfaces 120 shown. These complementary-shaped surfaces can provide for a
level of lateral coupling between a plurality of the patient's upper and
lower teeth, thereby enhancing the distribution of localized lateral
impact forces to surrounding tissues.
[0043] FIG. 7 is a simplified cross-sectional diagram of the cavity walls
121 of an accommodating mouth guard and received teeth 122, 123, 124 that
illustrates the accommodation of a single tooth 123 along a path of
movement. As can be seen, the cavity walls 121 that surround tooth 123
are configured to accommodate the entire path of the tooth 123 (i.e., the
swept volume) for a sequence of positions 125, 126, 127. Such
accommodation can also be incorporated into an accommodating covering
guard.
[0044] Accommodating mouth guards may also be designed to accommodate
orthodontic treatment that is being performed using fixed wire and
bracket braces. The accommodation in the mouth guard would allow the
mouth guard to fit around both the braces and the archwire, and enable a
range of tooth movements to take place for the given time period for
which the guard is applicable. The braces treatment plan can be digitally
planned out in advance, so that an accommodating mouth guard can be
designed to work for a specific portion of the treatment plan.
[0045] Covering Guards
[0046] Covering guards are provided that can be coupled with a tooth
repositioning appliance so as to provide protection against
impact-induced injuries. A covering guard can include a guard segment
that covers at least a portion of an appliance. The combination of a
guard segment and an appliance can have a shape or material selected to
provide protection against impact-induced injury.
[0047] Covering guards are provided that can be used in combination with a
repositioning appliance so as to provide protection against
impact-induced injury. FIG. 8A is a cross-sectional illustration of a
covering guard 130 in accordance with an embodiment. As shown, a covering
guard can be coupled with a basic repositioning appliance 132. A covering
guard can be coupled with a repositioning appliance 132 in a variety of
ways. For example, the covering guard 130 shown includes repositioning
appliance receiving cavities that provide an interface with the
underlying repositioning appliance 132. A covering guard can include a
variety of features similar to features discussed above, such as an
optional u-shaped tray 134 for receiving teeth from the opposing arch,
and an occlusal-pad portion 136. As discussed above, the optional
u-shaped tray 134 can provide for lateral coupling between a plurality of
the patient's upper and lower teeth, thereby helping to distribute
localized lateral impact forces to surrounding tissues. The occlusal-pad
portion 136 can be configured to provide an impact-absorbing compliance
so as to reduce peak forces transmitted between the patient's arches
during an impact that forces the arches together. This reduction of peak
transmitted forces can help to reduce the occurrence of impact-induced
injuries, such as damage to teeth or concussion.
[0048] FIG. 8B is a cross-sectional illustration of a covering guard 140
in accordance with an embodiment. The covering guard 140 includes an
upper component 146 adapted to couple with an upper-arch appliance 142,
and a lower component 148 adapted to couple with a lower-arch appliance
144. As discussed above, a variety of ways can be used to couple the
upper and lower components with an underlying repositioning appliance. In
the embodiment shown, the upper and lower components have appliance
receiving cavities that provide an interface with the underlying
repositioning appliance. The upper and lower component can be configured
with complementary-shaped interfacing surfaces, such as the snap-fit
surfaces 150 shown. Complementary-shaped interfacing surfaces can provide
for lateral coupling between a plurality of the patient's upper and lower
teeth, thereby enhancing the distribution of localized lateral impact
forces to surrounding tissues.
[0049] Accommodating Covering Guards
[0050] Accommodating covering guards are provided that combine
characteristics of an accommodating mouth guard and a covering guard. As
such, an accommodating covering guard can be configured to interface with
a series of underlying repositioning appliances. FIGS. 9A and 9B
illustrate embodiments of accommodating covering guards 160, 170. Because
these accommodating guards share characteristics with the accommodating
mouth guards and covering guards discussed above, the above discussion
applies and will not be repeated here.
[0051] Protective Systems
[0052] Systems are provided that provide protection against impact-induced
injuries during a multi-stage orthodontic treatment. An orthodontic
treatment stage can include a series of appliances shaped to reposition a
patient's teeth from an arrangement to a subsequent arrangement. A system
can include a first accommodating mouth guard for use during a first
treatment stage, and a second accommodating mouth guard for use during a
second treatment stage. An accommodating mouth guard can include teeth
receiving cavities shaped to accommodate a range of positions of a
patient's teeth. An accommodating mouth guard can have a shape or
material selected to provide protection against impact-induced injury. A
system can include a first accommodating covering guard for use during a
first treatment stage, and a second accommodating covering guard for use
during a second treatment stage. An accommodating covering guard can be
configured to interface with a series of repositioning appliances.
[0053] A series of two or more of the above discussed protective
repositioning appliances, accommodating mouth guards, covering guards, or
accommodating covering guards can be used for form a protective system.
In the case of protective repositioning appliances or covering guards,
the period of use of a particular protective repositioning appliance or
covering guard can be generally equivalent to the period of use of an
analogous or associated basic repositioning appliance. In the case of
accommodating mouth guards or accommodating covering guards, the period
of use can be greater that the period of use of an analogous or
associated basic repositioning appliance. The period of use for
accommodating mouth guards or accommodating covering guards will
typically depend on the range of positions accounted for, and the rate
that the teeth are being repositioned.
[0054] FIG. 10 diagrammatically illustrates a system 180 of accommodating
mouth guards. The system can include a first accommodating mouth guard
182 that is worn during a first treatment stage during which the
patient's teeth are repositioned from a first arrangement to a second
arrangement. The system can include a second accommodating mouth guard
184 that is worn during a second treatment stage during which the
patient's teeth are repositioned from the second arrangement to a third
arrangement. The system can also include additional accommodating mouth
guards, such as an Nth accommodating mouth guard 186. Similarly, FIG. 11
diagrammatically illustrates an analogous system 190 of accommodating
covering guards 192, 194, and 196.
[0055] Fabrication Methods
[0056] FIG. 12 diagrammatically illustrates a method 200 that can be used
to fabricate of a protective positioning appliance. In step 202, digital
models of teeth-receiving cavities are obtained. These cavities are
shaped so that when incorporated into a protective repositioning
appliance the appliance exerts resilient forces to the patient's teeth so
as to reposition the patient's teeth over time. In step 204, the digital
models are used to fabricate a positive mold. The positive mold can be
fabricated using a variety of approaches, such as by way of a rapid
prototyping machine such as a stereo lithography or digital light
projector machine, or also via computer numerical control (CNC) milling.
An exemplary rapid prototyping machine is available from 3D System,
Valencia, Calif. or EnvisionTEC, Gladbeck, Germany. The rapid prototyping
machine can selectively harden a liquid or other non-hardened resin into
a three-dimensional structure which can be separated from the remaining
non-hardened resin, washed, and used as a positive mold for the
appliance. Where such a fabrication method is used, a digital model that
includes a negative representation of the teeth-receiving cavities can be
prepared from which the positive mold can be fabricated. In step 206, the
appliance if fabricated by forming material over the positive mold.
[0057] FIG. 13 diagrammatically illustrates a method 210 that can be used
to fabricate of a protective positioning appliance having an upper
component with upper-teeth receiving cavities, and having a lower
component with lower-teeth receiving cavities. In step 212, digital
models of the teeth receiving cavities are received. In step 214, an
upper-positive mold can be fabricated using the digital models for the
upper-teeth receiving cavities as discussed above. In step 216, an upper
component is fabricated using the upper-positive mold. In step 218, a
lower-positive mold can be fabricated using the digital models for the
lower-teeth receiving cavities as discussed above. In step 220, a lower
component is fabricated using the lower positive mold. In step 222, the
appliance is fabricated using the upper and lower components.
[0058] FIG. 14 diagrammatically illustrates a method 230 that can be used
to fabricate an accommodating mouth guard. In step 232, digital models of
teeth in an initial arrangement are obtained. In step 234, digital models
of teeth in a subsequent arrangement are obtained. The initial
arrangement and the subsequent arrangements can be the starting and the
ending arrangements for which accommodation is to be provided. In step
236, the digital models are combined so as to generate an accommodation
model that includes geometry that accommodates the positions of the teeth
as they move from the initial arrangement to the subsequent arrangement.
Intermediate arrangements between the initial arrangement and the
subsequent arrangement can also be used in the generation of the
accommodation model so as to more accurately accommodate for intermediate
positions of the patient's teeth. A "swept volume" representing the
spatial path of each tooth from the beginning to the end within the
series can be built in so that the appliance will not interfere with the
tooth movement planned during the tooth movement interval for which the
guard is designed to accommodate. In step 238, a positive mold is
fabricated by using the accommodation model. The positive mold can be
fabricated in a variety of ways, such as by using a rapid prototyping
machine as discussed above. In step 240, the accommodating mouth guard is
fabricated using the positive mold.
[0059] FIG. 15 diagrammatically illustrates a method 250 that can be used
to fabricate of an accommodating mouth guard having an upper component
with upper-teeth receiving cavities and a lower component with
lower-teeth receiving cavities. In step 252, digital models of teeth in
an initial arrangement are obtained. In step 254, digital models of teeth
in a subsequent arrangement are obtained. In step 256, the digital models
are used to generate an accommodation model that includes geometry that
accommodates the positions of the teeth as they move from the initial
arrangement to the subsequent arrangement. As discussed above, one or
more intermediate arrangements can also be used in the formation of the
accommodation model so as to more accurately account for intermediate
positions of the teeth. In step 258, a upper-positive mold is fabricated
by using the accommodation model. In step 260, an upper component is
fabricated by using the upper-positive mold. In step 262, a
lower-positive mold is fabricated by using the accommodation model. In
step 264, a lower component is fabricated by using the lower-positive
mold. In step 266, the mouth guard is fabricated from the upper and lower
components.
[0060] FIG. 16 is a simplified block diagram of a data processing system
300 embodying the present invention. Data processing system 300 typically
includes at least one processor 302 which communicates with a number of
peripheral devices via bus subsystem 304. These peripheral devices
typically include a storage subsystem 306 (memory subsystem 308 and file
storage subsystem 314), a set of user interface input and output devices
318, and an interface to outside networks 316, including the public
switched telephone network. This interface is shown schematically as
"Modems and Network Interface" block 316, and is coupled to corresponding
interface devices in other data processing systems via communication
network interface 324. Data processing system 300 could be a terminal or
a low-end personal computer or a high-end personal computer, workstation
or mainframe.
[0061] The user interface input devices typically include a keyboard and
may further include a pointing device and a scanner. The pointing device
may be an indirect pointing device such as a mouse, trackball, touchpad,
or graphics tablet, or a direct pointing device such as a touch screen
incorporated into the display. Other types of user interface input
devices, such as voice recognition systems, are also possible.
[0062] User interface output devices typically include a printer and a
display subsystem, which includes a display controller and a display
device coupled to the controller. The display device may be a cathode ray
tube (CRT), a flat-panel device such as a liquid crystal display (LCD),
or a projection device. The display subsystem may also provide non-visual
display such as audio output.
[0063] Storage subsystem 306 maintains the basic programming and data
constructs that provide the functionality of the present invention. The
software modules discussed above are typically stored in storage
subsystem 306. Storage subsystem 306 typically comprises memory subsystem
308 and file storage subsystem 314.
[0064] Memory subsystem 308 typically includes a number of memories
including a main random access memory (RAM) 310 for storage of
instructions and data during program execution and a read only memory
(ROM) 312 in which fixed instructions are stored. In the case of
Macintosh-compatible personal computers the ROM would include portions of
the operating system; in the case of IBM-compatible personal computers,
this would include the BIOS (basic input/output system).
[0065] File storage subsystem 314 provides persistent (non-volatile)
storage for program and data files, and typically includes at least one
hard disk drive and at least one disk drive (with associated removable
media). There may also be other devices such as a CD-ROM drive and
optical drives (all with their associated removable media). Additionally,
the system may include drives of the type with removable media
cartridges. The removable media cartridges may, for example be hard disk
cartridges, such as those marketed by Syquest and others, and flexible
disk cartridges, such as those marketed by lomega. One or more of the
drives may be located at a remote location, such as in a server on a
local area network or at a site on the Internet's World Wide Web.
[0066] In this context, the term "bus subsystem" is used generically so as
to include any mechanism for letting the various components and
subsystems communicate with each other as intended. With the exception of
the input devices and the display, the other components need not be at
the same physical location. Thus, for example, portions of the file
storage system could be connected via various local-area or wide-area
network media, including telephone lines. Similarly, the input devices
and display need not be at the same location as the processor, although
it is anticipated that the present invention will most often be
implemented in the context of PCs and workstations.
[0067] Bus subsystem 304 is shown schematically as a single bus, but a
typical system has a number of buses such as a local bus and one or more
expansion buses (e.g., ADB, SCSI, ISA, EISA, MCA, NuBus, or PCI), as well
as serial and parallel ports. Network connections are usually established
through a device such as a network adapter on one of these expansion
buses or a modem on a serial port. The client computer may be a desktop
system or a portable system.
[0068] Scanner 320 is responsible for scanning casts of the patient's
teeth obtained either from the patient or from an orthodontist and
providing the scanned digital data set information to data processing
system 300 for further processing. In a distributed environment, scanner
320 may be located at a remote location and communicate scanned digital
data set information to data processing system 300 via network interface
324.
[0069] Fabrication machine 322 can encompass a range of fabrication
machines and methods used to fabricate positive molds, protective
positioning appliances, accommodating mouth guards, or covering guards
based on data set information received from data processing system 300.
In a distributed environment, fabrication machine 322 may be located at a
remote location and receive data set information from data processing
system 300 via network interface 324.
[0070] It is understood that the examples and embodiments described herein
are for illustrative purposes and that various modifications or changes
in light thereof will be suggested to persons skilled in the art and are
to be included within the spirit and purview of this application and the
scope of the appended claims. Numerous different combinations are
possible, and such combinations are considered to be part of the present
invention.
* * * * *
