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3. Torque is probably one of the most important and
potent forces of orthodontic treatment mechanism with
proper understanding and with systemic technical approach
torque is not difficult to accomplish
The operator‟s ability to control torque properly will
mean the difference between artistically treated case that
has all esthetic beauty desired in a finished denture and an
ordinary tooth straightening accomplishment that contains
very few of these desirable features
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4. DEFINITION
Torque being more related to
engineering terms is defined as “The force system
transmitted by and through a structural or
machine member, capable of producing pure
rotational displacement about the longitudinal
axis”.
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5. Torque in Orthodontics
Type of activation placed into a rectangular or
square orthodontic archwire by twisting it around
its long axis, with the purpose of achieving a
rotation of tooth around x-axis (M-D).
Largely
by movement of the root, with
no/minimal movement of the crown in the
opposite direction.
The type of bends placed in an archwires–
Tweed‟s Coordinate system: Third order bends.
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6. In Orthodontics, as stated by Dr. EARMAN D. RAUCH
“Torque is the force that enable the orthodontist to control
the axial inclination of the teeth and to place them in the harmonizing
positions that are so desirable for a nicely finished results. Torque is the
force that gives the operator control over the movement of the roots of the
teeth”.
Torque is a force that assists him to bring about a desirable change of
point A & B which in turn helps to bring about desirable facial changes in his
patients.
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7. Basic terminology
Forces are the actions applied to bodies
F = ma
Units are Newtons or Gram
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(millimeters/sec)
8. The Moment of a force is the tendency for
a force to produce rotation
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12. Moment of a couple
A couple is two parallel forces of equal
magnitude acting in opposite directions
and separated by a distance ( ie., different
lines of action ).
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15. Types of tooth movement
1.
2.
3.
4.
Four basic types:
Tipping
Translation
Root movement
Rotation
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16.
Each type of movement is the result of a
different applied moment and force.
The movement that occurs is dependent
on
1. M/F ratio
2. Quality of periodontal support.
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21. Type of tooth
movement
Centre of
rotation
Uncontrolled b/n C Res &
tipping
apex
Controlled
Apex
tipping
Translation
Infinity
Root
movenment
Incisal edge
or bracket
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M/F Ratio
upto 5:1
7:1
10:1
12:1
22. WHY? WHEN? & HOW?
Why ?
To bring about labiolingual
movement of the teeth
To retain the teeth in the
cortical bone
To avoid relapse
To give a natural finish to
the dentition
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23. When?
When there is uncontrolled tipping of the crown
When the clinical situation demands cortical
activation
In third order bends of finishing and artistic
positioning in a pre adjusted edgewise system.
In pre surgical and post surgical phases for the
precise placement for axial inclination of teeth
As a device to augment anchorage demands of
that particular situation.
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24. How ?
Torque can be done both in fixed and removable
machanotherapies:
Torque in fixed appliance can be employed in
different ways
1. By giving a twist in an arch wire
– commonly used in edgewise techniques
2. Torque exerted by the bracket itself
– Pre adjusted edgewise appliance
3. By use of torquing auxiliary
- widely used in Begg‟s technique and edgewise
technique
These will be dealt in detail in my seminar
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25. TORQUING IN REMOVABLE
APPLIANCES
Various types of torquing springs are used to
bring about root movement or torquing. Normally
they derive their elasticity from the twisting of a
section of wire in the same way as torque bars of
high tensile steels used for suspension systems in
road vehicles
A typical torque springs have the following parts
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26. A A‟ :
B B‟ :
C C‟ :
Fixed firmly in base plate
Torque bars
Apron spring for rotquing
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27. Apron spring derive their main flexibility from
the twisting of the section and the length of the
torque bars. These torque spring are flexible,
easy to construct, easily positioned and adjusted
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28. It is ensure that the torquing springs
act exactly at points intended and do not slide
away to the unsuitable points. For this reason it
is sometimes necessary to make springs rather
stiff in order to ensure accuracy of the application
to the teeth
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29. In 1975 BASS has shown that palatal root
movement is performed by applying pressure in a
lingual direction at the gingival margin on the incisor
and preventing the lingual movement of the crown by
using “Sed bite plane”.
Watkin in 1933 used a box type of attachement
for root movement.
In 1938 McKeag and Friel described a box
attachment made up of stainless steel to induce
torque. This box was well known as “M” Ckeag Box”
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31. BIO ENGINEERING PRINCIPLES OF
TORQUE MECHANISM IN ORTHODONTICS
In a Rectangular wire, torque is incorporated by using a permanent
twist in the arch wire, where as in a Round wire torquing auxiliaries
are used to deliver third order couples to the anterior teeth.
The amount of torsional activation achieved upon complete appliance
engagement is however actually less than this permanent twist angle.
The principal portion of difference is the third order clearance between
the arch wire and the bracket slot. This clearance may be computed
from the actual cross section of the arch wire and occlusogingival
bracket slot width. The third order clearance depends upon the actual
wire in the slot dimensions and in effect, upon stiffness of the bracket
slot
In response to the third order activation, the slot will open slightly as
the wire attempts to deactivate.
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32. THIRD ORDER CLEARANCE BETWEEN
RECTANGULAR WIRE AND EDGEWISE BRACKET
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34. THIRD ORDER CLEARANCE BETWEEN
RECTANGULAR ARCH WIRE AND BRACKET SLOTS
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35. Pre Torque Brackets are sized, in part according to
the third order angulation of their slots with respect
faciolingual reference
Torque is determined in gram-millimeters or ounce
inches
To quantify torque correctly the combination shaft
stiffness and twist activation are necessary.
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36. COMPARISON OF STRUCTURAL PROPERTIES IN TORSION OF
RECTANGULAR ARCH WIRES INFLUENCED SOLELY BY
CROSS-SECTIONAL DIMENSIONS
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37. The chart represents the relative theoretical values
of elastic stiffness, range and strength in torsion per
unit length of common material for four rectangular
wires
The torsional stiffness of the largest wire is seen
to be five times that as the smallest wire in the table.
The size of the wire and range is inversely
proportional. The other structural parameters are the
wire material, longitudinal dimension and physical
character of the wire.
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38. To compare third order couple generated by the
rectangular arch wire and the torquing span, the
difference and the direction of the pairs of forces and
the moment arms should be noted.
The force exerted by the rectangular arch wire are
directed nearly occlusogingivally whereas the force
pair from the torquing spur acts labiolingually. The
difference in the direction meaningless with respects to
the action delivered to the dentition
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39. Sagittal views of Maxillary incisors load at by-rectangular
wire torque (left) and spur torque and different force
direction and inherent moment arms
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40. The inheritant moment arms of the rectangular
wire and the spur, couples are the labiolingual wire
cross section and occlusogingival height of the spur
respectively.
They differ approximately in one order of
magnitude i.e. the factor of ten. Hence if the size of
each force generator by the spur is about 1/10 that off
each force of the pair generated within the bracket. So
the results approximately equal third order couples
applied by two appliances.
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41. The Begg torquing auxiliary is usually formed in
0.012, 0.014 or 0.016 stainless steel wire. The purpose
of the base arch wire is to counter the extrusive
potential associated with activation of auxiliary.
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42. A NOTE ON FABRICATION OF THE SQUARE
OR RECTANGULAR WIRE AND THE METHOD
THEY DELIVER TORQUE ON THE TOOTH
Square or rectangular arch wires are fabricated from
round wires by a process of rolling rather than drawing.
The round wire is passed through a device called a Turks
head which is a set of two rollers positioned 900 to each
other and rolled to the desired dimensions. The edges of
the wire remain rounded after rolling process, resulting in
edge bevel. The edge bevel is expected to be a critical
factor for actual torque expressed by a specific square or a
rectangular arch wire and bracket combination. Since the
edges of the arch wire is first engaged the bracket for
torque delivery.
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43. Largest edge bevels are observed on beta titanium
segments due to the mechanical and wire properties of this
alloy. The amount of edge bevel on the wire will influence
the amount of torque exhibited by the wire bracket
combination for a rectangular wire in a rectangular molar
tube, the critical value of the wire dimension is the diagonal
or hypotenuse of the wire cross section as shown in the
figure
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44. It is this dimension that contacts the wall of the
lumen and engages the wire against further rotation.
This with the variation in the tube dimension causes
deviation in torque clinically. This deviation in torque
may differ significantly enough to require diverse
torque on left and right molars in the same arch.
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45. METHODS OF TORQUING IN VARIOUS
APPLIANCE MECHANICS
BEGGS MECHANOTHERAPY :
The torquing in BEGG is testimonial to the genius Dr.BEGG,
both with regards to its concept and the designs. The special feature of
BEGG appliance in separating the tooth moving forces from the arch
wire forces gives at a unique advantage. Various torquing auxiliaries
developed Dr.BEGG the
1.
Spur design having 2,4 and 6 pairs
2.
Mouse-strap for lingual root torque
3.
Udder arch for labial root torque
4.
Reciprocal lateral torquing auxiliary
5.
Reverse torquing auxiliary
6.
KITCHTON torquing auxiliary
Single root torquing auxiliary developed Dr.Kesling
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46. RECENT ADVANCES - Refined BEGG
1.
2.
3.
4.
5.
Reciprocal torquing auxiliary („SPEC‟) Design
Reverse torquing auxiliary for controlling the roots
of the canine of the premolar by Franciskus Tan in
November 1987.
Buccal root torque and upper molars
Labial root torque only in the lateral incisors
MAA Auxiliary by Mollenhauer
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47. TORQUING AUXILIARY WITH SPURS
Action of the torquing auxiliary
1.
The auxiliary bent into a small circle, when fixed
in the mouth, is spread out along the wider anterior
curvature of the arch wire. The lingual torquing effect
is an account of two factors.
a. Firstly, the vertical plane in which the torquing
auxiliary orients when fitted on two central incisors, is
changed to a horizontal plane of arch wire when fully
tied to it.
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48. Secondly, when the torquing auxiliary is
opened to a larger arc of anterior portion of the
arch wire it rolls inwards.
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49. Both the effects, force the tips of the spurs to
press in a lingual direction against the gingival portion
of the crown. Reciprocally the inter spur spans of the
auxiliary tend to lift away in the labial direction.
THUS A FORCE COUPLE IS CREATED. The labial
forces are resisted by the bracket slots and the base
arch wire to which the auxiliary is tied. Thus
accentuating the action of lingual root moving forces
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50. ABOUT “THE SPUR”
1. The Auxiliary should be constructed in 0.012
premium plus wire (preferable pulse straightened)
unlike in 0.014 or 0.016 special plus wire which were
previously used.
2. The length of the spur does affect the force
produced. A short spur will produce much greater
force that will drop rapidly when the teeth start getting
torqued, as against a longer spur that produces a
gentler and more constant force.
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51. The length of the spur should be kept at about
5 mm; but it should be varied depending on the
clinical crown height, leaving it about 1 mm short
of the gum to facilitate proper hygiene
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52. 3. Inclination of the spurs to the horizontal
(occlusal) plane is kept 00. In other words, the
activation is 100%.
4. The distal leg of every spur is kept
slightly shorter by about 0.5 mm, so that the distal leg
does not project incisally to the main arch wire on
tying
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53. 5. Activation of the spur
a. The inter-spur span is curved as recommended by
Dr.Kesling‟
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54. b. Kept straight as shown in Swain‟s chapter
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56. d. As recommended by Dr.Jayade – normally size of
the old 50 paise coin
The force generated by the auxiliary increase with
decrease in the diameter in the circle and vice-versa
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57. Two of the modification commonly required in the
spur design torquing auxiliary are as follows.
a. Reverse labial torque on one or both the
lateral incisors : Boxes at right angle to the plane of the
spurs are made to lie at the incisal area of the lateral
incisor(s). Crossover bends are made on either side of the
lateral incisor bracket to permit the auxiliary to pass over
the base wire, similar to the bends described in the section
on the MAA
Torquing boxes on the canines for lingual root torque :
Instead of making spurs for the canines, boxes can be
provided. The ends of this auxiliary need not extend
beyond the canine area
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58. MOLLENHAUER‟S ALIGNING AUXILIARY
(MAA) AND ITS MODIFICATIONS
MAA
auxiliary
was
developed
by
Dr.
MOLLENHAUER and it was given the name as “An
Aligning Auxiliary for Ribbon Arch Brackets”. The
MAA, attempts root control from the very beginning, of the
treatment without significantly affecting the anchorage and
overbite correction. This has become possible by using a
combination of a stiff base arch wire made from 0.018”
Premium plus, and ultra light root moving forces from the
MAA made from the 0.009” Supreme grade wire
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59. Requirements for use of the MAA
Mollenhauer has enumerated the requirements as
1. It must generate very light root moving forces.
Therefore, the wire size must not exceed 0.009”.
2. For the same reason, when reciprocal torque is required
on adjacent teeth, the adjacent rectangles must not diverge by
more than 45 degrees.
3. At the same time, the auxiliary must be able to resist
deformation. Hence, it must be made in a highly resilient wire
viz. Supreme grade (preferable pulse straightened)
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60. 4. The base wire should be able to resist the vertical and
transverse reactive forces from the MAA. Therefore, it
must be made in 0.018” Premium Plus wire.
5. In Mollenhauer‟s application, the MAA is always
engaged first and the main wire is engaged piggyback.
The rectangles for lingual root torque lift away from
the tooth surface, which are held down with the help of
pins, thus indirectly transmitting the torquing action
through the pins to the brackets onto the teeth.
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61. Therefore, he recommends the thickest possible lock or
hook pins (such as the pins for Ceramaflex brackets)
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62. Advantages of the MAA
According to Molenhauer, the advantages of MAA
are :
1. Efficacy in intrusion and advantages retraction of the
anterior teeth,
2. Efficiency in rapid bodily alignment of the anterior teeth
using gentle forces
3. Stable results.
4. Reciprocability of torquing forces on the in standing
laterals or palatally placed canines.
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63. 5.
Periodontal advantages in such cases, because the
gingival dehiscence associated with prolonged labial
root torquing of such teeth during the 3rd stage is
eliminated.
6.
A short stage III, because the early root control
minimizes (uncontrolled) root tipping in the opposite
direction
7.
Possibility of growing cortical bone at the A and B
points
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64. VARIOUS APPLICATIONS OF THE MAA
1. Originally, the MAA was introduced for bodily alignment
of crowded teeth. The looped arch wire like effect (expansion
+ de rotation + vertical leveling) was combined with lingual
and / or labial root torque
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65. VARIOUS APPLICATIONS OF THE MAA
2.
By bending more positive torque into the MAA, it
can be used after the stage I as a braking mechanism.
Mollenhauer strongly recommends applying labial
root torque on the lower incisors in growing
brachyfacial cases, to prevent their roots from
lingualizing (which can happen due to intrusive forces
and due to contraction of trans-septal fibers in
extraction cases). This helps in a better profile control.
The MAA can be used for labial root torque on the
upper incisors in Class III cases
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66. 3.
In later writings, Mollenhauer described use of the
same auxiliary for controlling the mesio-distal root
positions from the beginning.
He called this
application „MAA-tip. A ligature wire tied to the
auxiliary and to the pin transfers the tipping effect to
the tooth.
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68. Other boxed Auxiliaries
Mini versions of MAA ranging from 0.009” to
0.012” and curvatures facing incisally facing incisally
or gingivally, for labial or lingual root control
respectively. They are employed on two or more
number of anterior teeth in either or both the arches.
The force exerted by the boxes is varied, as per the
individual requirement, by varying the diameter of the
wire from which the auxiliary is made, size of the
boxes and acuteness of the curvature.
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69. Obviously, the auxiliaries generating lighter
forces are employed in the first and second stages of
treatment, while those generating higher forces are
meant for the third stage and sometimes in the second
stage as a breaking mechanics
a. Two boxes on the upper central incisors for lingual
root torque after the teeth are aligned
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71. b. Two boxes on the in standing upper or lower lateral
incisors for labial root torque.
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72. ‘Jenner’ auxiliary two boxes on the upper or lower
canines with very prominent roots. That is made up of
0.012” wire. Lingual root torque exerted by the boxes
reduces the prominence to facilitate anterior retraction
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73. d. ‘SPEC’ design – Reciprocal torquing
auxiliary – it is employed when two adjacent teeth
require root torque in opposite directions. One such
example is an in standing lateral incisor needing labial
root torque and the adjacent canine needing lingual
root torque. This auxiliary is made of lighter 0.009 or
0.010 could be used for controlling the root
movements during the first and second stages.
If needed in stage three it should be made of
0.012.The box on the tooth requiring labial root torque
is placed incisal to main wire, while the box on the
other tooth requiring lingual root torque sits piggyback
on the main wire .hence a crossover bend is required
between the two adjacent teeth because the auxiliary
has to cross over the main wire.varying the angulation
between the planes of two boxes can control the force
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generated by the
75. Some other torquing auxiliary designs
a. Single root torquing auxiliary proposed by
Dr.Kesling‟. This is a very useful design for any tooth
(excepting the molars) requiring torque in the labial or
the lingual direction. It is particularly indicated on an
UPPER PREMOLAR , which needs buccal root
torque. To eliminate the cuspal interference from its
hanging palatal cusp. It is convenient to place the long
arm of the auxiliary piggy back over the main arch
wire. Since the main arch wire may not be untied it
could also lie occlusal to the base arch wire in the slot
as well. The long arm should extend to three to four
adjacent teeth when engaged in the brackets.
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76. The long arm always faces mesially for the
premolar teeth. Depending on how the curvature is
pointing before the auxiliary is tied, the torque generated
will have lingual (palatal) or buccal root moving effect.
For example, the auxiliary fitted with its convexity
facing upwards will have a buccal root torquing effect on
the upper premolars, but the effect will be for lingual
root torque on the lowers, and vice-versa. The effect is
transmitted by the vertical extension of the auxiliary
through the bracket pillar onto the tooth; The long arm
could face either mesially or distally on the anterior
teeth, and action will depend on how the curvature of the
long arm relates to the base arch wire. This auxiliary is
made up of 0.012 size Premium Plus wire. The force
generated by it can be varied by changing acuity of the
curvature. More acute greater is the force generated.
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78. b. Reverse torquing auxiliary for controlling the roots of
canines or premolars proposed by Dr.Franciskus Tan
- It was described for the labial root movement of a
palatally impacted maxillary canine, whose crown has
been aligned but the root is still placed palatally and
needs labial root torque. If required for lingual root
torque in other situations it is simply inverted well on
the premolars made up of 0.012” P+ wire conjunction
with a 0.018” or 0.020” inserted in the molar tube
from the distal end. An offset is placed in the auxiliary
to bypass the main wire rotated by 1800 for activating
it
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80. c. Buccal root torque on the molars – When the
upper molar crowns roll buccally because of a lack of
control during the third stage, their roots must be
torqued buccally to lift their palatal hanging cusps. It
is made in 0.014” size and is fitted in the round molar
tubes alongside the main arch wire. It has „boot‟
design occlusal extensions on the molars, and it is
inserted from the mesial end of the molar tubes. The
boot portion is twisted lingually and given a toe in, and
the whole auxiliary is suitable contracted.
The
auxiliary need not be engaged in other brackets.
It can be ligated to the main wire at 2-3 places on
either side
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82. d. Labial root torque only on the lateral incisors –
This is made up of 0.012” size wire, and is placed with
the convexity of the auxiliary facing gingivally. The
auxiliary is engaged first in the incisor brackets, and
the main wire is then engaged piggyback. The boxes
extend labially on the incisal area of the crowns. This
design is often required on the lower incisors in those
cases where the central incisors and the canines are
placed normally, and hence do not require reciprocal
lingual root torque
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84. e. UDDER ARCH - The udder arch is made up of 0.16
S.S.wire. The vertical loops of the auxiliary can be
opened or closed as needed to assume accurate fit. The
distal ends of the auxiliary is tied to the lower cuspid
bracket. The vertical loops are slipped behind the
main arch wire and the auxiliary is tided to one or two
brackets to prevent dislodgement. It is very easy to
insert and remove. This is used for the reverse
torquing of the mandibular incisors.
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85. f. Kitchton torquing auxiliary - It is used for applying
torque force on the anterior teeth. Kitchton auxiliary can be
used with Begg, edgewise and removable appliances. It is
made up of 0.016 Australian wire. Coils in the midline
assume gentle, and continuous torque force and also
provide means of attachment to the main arch wire.
It is of two types :
1) Small
2) Large
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86. * Small auxiliary delivers gentle lingual root torque to
the central incisors only. It can be used with the
Hawley‟s retainer for additional root torque.
Large auxiliary can deliver greater force to the
central incisor and can be adjusted to deliver torquing
force to the central and lateral incisors. It an also be
used with Hawley retainer for additional root torque
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87. Mouse trap
Mouse trap design is very efficient but involves more
time patience and skill
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88. EDGEWISE MACHANOTHERAPY
The edgewise arch appliance is the last of many
contributions of Dr.EDWARD H. ANGLE and was
introduced to the profession by one of his last
students, Dr.ALLAN G. BROADIE in 1929. It is an
exacting
appliance
requiring
the
thorough
understanding and skill manipulation. This technique
offers
excellent
controls
in
the
labiolingual, mesiodistal and vertical dimension
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89. The classification of tooth movement associated
with edgewise appliance seem to be based upon the
type of movements rather than direction.
i. Movement of the First order
ii. Movement of the Second order
iii. Movement of the third order
We will see here movement of the Third Order
Before we go into it we will have quick view over
glossary
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90. Passive torque – torque for proper placement of the
wire
Active torque – for active tooth movement
Progressive torque- increase of the torque value
progressively as we go posteriorly in the dentition
Torque force is named according to the action upon
the tooth crown.
1.
Lingual torque – crowns are tipped lingually
and roots labially / buccally
2.
Labial or buccal torque – crowns are tipped
labially or buccally and the roots lingually
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91. THIRD ORDER MOVEMENTS :
It is defined as the difference in inclination of the
facial plane of crown at its mid point in an ideal
occlusion.
The third order bends better known as torque are
placed in the arch wire to effect buccolingual or
labiolingual root and crown movements in a single
tooth or a group of teeth
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92. Third order bends
Torsional change
Also called torque or inclination movement
Used to obtain axial changes in the bucco-lingual or
labio-lingual root & crown axis on one or more teeth
Involves twisting of the rectangular arch wire.
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98. Non-programmed appliance
Definition
A set of bracket designed the same for
all tooth types, relying totally on wire
bending (except possibly for angulations if
the bracket is angulated) to achieve the
optimal position for each individual tooth.
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99. Partly programmed appliance
Definition
A set of brackets designed with some
built in features but that always requires
some wire bending (though less than in
required by non programmed appliance).
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111. Evolution of PEA bracket systems
1927- Angle suggested angulating the entire bracket on
the band to free the archwire of 2nd order bends.
1952- Holdaway suggested bracket overangulation of
bracket slot, for teeth on either side of the extraction
site.
1960 Invan Lee milled torque into the face of the
edgewise slot.
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112. 1961- Jarabak incorporated slot inclination to
reduce the need for 3rd order bends- Jarabak
light wire brackets.
1958- John .J. Stifter designed an edgewise
bracket with a male and a female component.
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113. PRE ADJUSTED EDGEWISE
APPLIANCE:
Until the mind 1970‟s most fixed appliance
therapy was carried out using the standard Edgewise
bracket, either in a single or twin from having a 900
bracket base and brackets slot angulation.
The Major disadvantage resulted from this
treatment are;
1. Arch wire bending is time consuming and tedious.
The short comings of the bracket system and the
extreme skill required of the orthodontists resulted in
many under treated cases and the results are appeared
artificial
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114. Molars were not in true CL-I relationship. Upper
incisor are under torqued . So the resulting occlusion had
the appearance of a „nice orthodontic result‟ rather that a
pleasing natural dentition. And also the long term stability
of tooth adjustment was compromised by failing to
establish ideal tooth relationships.
Against this background Dr.Lawrence F.Andrews
developed the straight wire appliance which became widely
available in the mid 1970‟s. It was hailed by the clinician‟s
as a radical step forward offering the dual advantages of
less wire bending, coupled with an improved quality of the
finished cases
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115. TORQUE IN THE BASE
Vs.
TORQUE IN THE FACE
Torque-in-base was an important issue with the first
and second generation pre adjusted brackets, because level
slot line-up was not possible with brackets designed with
torque-in-face. Torque in the base is said by Andrews to be
a prerequisite for a fully programmed appliance – that is,
one that produces acceptable results without arch wire
bends, assuming the brackets are placed correctly.
Albert H.Owen in 1980 conducted a study comparing
Roth Prescription and the Vari Simplex Discipline
appliance of Alexander concluded that while torque in the
base had a sound theoretical basis, its effectiveness is
greatly influenced by the clinician‟s success in accurately
placing the brackets
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116. The torque in the base means that the bracket
stem is parallel and coincides with the long axis of the
bracket slot. But, with the brackets having torque in the
face the slot is cut at an angle to the bracket stem, therefore
their long axis do not coincide and are not parallel to each
other
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117. When the center of the bracket base is
placed on FA point the long axis of the bracket stem
and bracket slot both are parallel to and are in line with
Andrew‟s plane. But this is not possible with brackets
having torque in the face
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118. Theoretical effects of torque-in-face on the final
positioning of FA point - The undesirable effects of having
torque in face are in-built errors in finale vertical
positioning.
The absolute magnitude of vertical
displacement will depend upon the torque angle, its
direction (occlusal or gingival) and of course its effect will
be reversed if the torque is also reversed. The only site
however at which the torque direction changes completely
in the standard straight wire prescription is between lateral
incisor (torque = +30) and canine (torque= -70)
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119. Ferguson concluded that the advantages of the
torque in base are largely theoretical, but it should be
kept in mind that there are other advantages. One such
advantage is that the wings of the brackets with torque
in the face could bend under various forces
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120. TORQUE IN VARIOUS STRAIGHT WIRE
PRESCRIPTIONS
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124. Vari –Simplex appliance
Bracket Torques:
The torque prescriptions used in this
technique are derived from measurement
of the torques in the rectangular archwires
used to finish well treated orthodontic
BRACKET TORQUES
cases.
Mandibular Arch
Maxillary Arch
Centrals
15°
Laterals
9°
Cuspids
– 3°
Bicuspids
– 7°
Molars
– 10°
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Incisors
Cuspids
1st Bicuspids
2nd Bicuspids
1st Molars
2nd Molars
– 5°
– 7°
– 7°
– 9°
– 10°
-- 0°
125. These measurements differ from commonly used
torques in three major respects:
The -3º torque on the max cuspids compared to
extremes of +7º to -7º in other appliances,
eliminates the need for adjusting the torque later in
the treatment.
No torque is placed in the mandibular second
molar tubes, because of the use of omega stops,
which are always bent out to avoid impingement
on gingival tissue & to avoid food trap. This
automatically incorporates torque in the wire
-5 º of lingual crown torque or labial root torque
in the mandibular incisors.
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126. Principles of the
Bioprogressive Therapy
The use of a systems approach to diagnosis and
treatment by the application of the VTO in
planning treatment, evaluating anchorage and
monitoring results.
Torque control throughout treatment.
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127. Principles of the
Bioprogressive Therapy
Keep the roots in vascular trabecular bone.
Place roots against dense cortical bone.
Torque to remodel cortical bone.
Torque position teeth in final occlusion.
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132. Maxillary Prescription
Extra torque in the maxillary incisors (5° more than
normal).
Less -ve torque in the upper canines to offset the
reciprocal effect of building more +ve torque into
the incisors.
Canines have 20 more distal tip and 20 mesial
rotation, because they are being retracted in most
treatment.
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133. "Super Torque": Prescription
Maxillary
Set of maxillary anteriors for cases like Class
II, div 2, where an extreme amount of torque may
be needed.
Mesial rotation of the upper first molars, due to
the 0° rotation brackets on those teeth.
Minimizes the tooth-size discrepancy created by
taking out only two bicuspid.
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134. The Maxillary Prescription
buccal segments are distally uprighted to 00.
The bicuspids are rotated 20 mesially to offset the
rotation that accompanies distal traction.
The molars have 140 distal rotation (twice the
amount found on the non-orthodontic normals)
and 140 buccal root torque (50 more than normal).
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135. Incisor brackets are the same as the non-orthodontic
Mandibular Prescription
normals.
The canines have 70 mesial tip and 20 distal rotation.
The entire buccal segment has a 30 distal tip from
normal and a 40 distal rotation – settle more
mesially than the uppers and simultaneously rotate
mesially, thus necessitating extra distal rotation.
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136. The torque in the buccal segments remains normal,
Mandibular Prescription
as overcorrection in this plane leads
interferences.
The two molars have exactly the same degree of
root torque since the appliance rests on the
mesiobuccal cusp (the torque measurement for
the non-orthodontic normals was taken from the
buccal groove).
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139. Versatility of MBT bracketsMBT Versatile +
1. Reversing the bracket on palatally placed
maxillary incisor ( -100 )
2. Three torque options for:
• maxillary canines (-70, 00, +70 )
• mandibular canines (-60, 00, +60 )
3.
4.
5.
6.
Interchangeable lower incisor brackets
Interchangeable premolar brackets
Use of 2nd molar tubes on 1st molars
Use of lower 2nd molar tubes on one side for
upper 1st and 2nd molars on opposite side
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140. TORQUE ADDITION IN MBT APPLIANCE
1.
Additional palatal root torque for upper incisors
and additional root torque in labial incisors
2.
Upper cuspid brackets with a normal -70 torque
or 00 torque.
3.
Upper molar brackets with an additional 50
buccal root torque.
4.
Progressive Buccal ground torque in the lower
cuspid and lower buccal segments
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141. Finishing in MBT
Establishing Correct Torque of the
Upper and Lower Anterior Teeth
Coordinating Arch
Widths and Archform
Establishing Correct
Posterior Crown Torque
Settling the occlusion
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Midline corrections
142. Note : Reversion of Bracket will reverse the torque prescription
of the bracket but the tip remains the same
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143. PLAY OF THE WIRE IN THE BRACKET
What is play ?
The difference between the slot with and the
dimension of the arch wire is termed as play
* For every 0.0010 of play within the bracket slot 40 of
effective torque as slots
* The amount of the play wire bracket interface is
also influenced by ligation
*If the wire not fully engaged the effective torque
decreases
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144. * But generally there is some play between the
bracket and arch wire even if the slot is
filled with full dimension wire.
* Because the dimension of the wire will be slightly
smaller than the label dimension and slot
width are larger than they are labeled
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147. CONCLUSION
My rationale on torque is, first give the teeth the
normal look. If you study untreated good occlusions that are
esthetically pleasing, they also function well, so we emulate that.
However, good esthetics does not insure good function. It’s easy
to straighten the upper teeth on the upper jaw and the lower
teeth on the lower jaw, but if the upper and lower teeth don’t
harmonize with each other when the mandible is in centric
relation then function will be poor. This is the most difficult part
of orthodontics, harmonizing the upper and lower teeth to each
other with the mandible in centric relation. If this harmony is
established then the natural “settling-in” of the teeth after the
appliances are removed will produce good function in most
cases. Exceptions to this are open bite type cases which don’t
“settle-in”. Therefore their finished occlusion with appliances
should be more precise
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