Orthodontic instruments

Orthodontic instruments
Dr Ravikanth Lakkakula

Contents
i. Introduction
ii. Classification of orthodontic instruments
1. Instrument used for placement of separators
Separator placement plier
2. Band preparation instruments
Band cutting scissor
Jhonson band contouring plier
Band pinchable plier
Peak plier
Mershon band pusher
Nylon band seater
Band crimping plier
Double beak plier

3. Band removing plier
-Anterior band removing plier
-Posterior band removing plier
4. Bracket positioning instruments
Boons gauge
Bracket positioning height gauge
Direct bonding bracket holder
Orthodontic bracket card
5. Bracket removing plier
-Anterior bracket removing plier
- Posterior bracket removing plier
- kurz lingual bracket removing plier

6.Wire cutting instruments
Pin and ligature cutter
Distal end wire cutter
Kurz distal end cutter
Heavy wire cutter
Maun’s heavy duty wire cutters
Face bow bending/cutting pliers
7.Clasp forming instruments
Adams plier
Adams clasp bending plier
Adams clasp former
Adams spring forming plier

8.Arch forming instruments.
Turret
Dela rosa arch contouring plier
Bird beak plier
Standard light wire plier
Jaraback light wire plier
9. Loop forming pliers
Nance loop forming plier
Loop tie back plier
Tweed loop forming plier
Optical loop forming plier
Young’s loop bending plier

10. Utility plier
Howe plier
Three prong plier
Utility arch plier
Rose torquing plier
Ribbon arch plier
11. Others
Impression trays
Intraoral mirrors
Cheek retractors
Tongue separator with saliva ejector
Dontrix gauge
Correx gauge
Coon style ligator
Ligature forming plier
Mosquito forceps
Mathew needle holder
Straight shooter ligature gunDr Ravikanth Lakkakula

Ligature tucker
Speedo ligature director
Mitchell trimmer
Adjustable enamel stripper
Nance tie back plier
Hook crimping plier
Lingual arch plier
Distal wire twister
Detailing step bending plier
V bending plier
Kurz first and second order bending fork
Spiral blade saw
Schumth measuring grid
Tube converting plier
iii. conclusion

Introduction
 Orthodontics is the study of the diagnosis, prevention and treatment
of irregularities of the teeth and jaws.
 Orthodontic instruments are used in conjunction with fixed and
removable appliances.
 For orthodontist, it is essential to know that the instruments that
have to use routinely. It is expected to increase the working
knowledge of the orthodontist and also prevent the misuse of more
delicate instruments.

Stainless steel and tungsten carbide are the two materials
routinely used for cutting edges of the instruments.
The advantages of tungsten carbide tips over stainless steel are
1. More durability.
2. Precise cutting performance.
3. Sharp cutting edge.
4.Three times more stiffer than stainless steel.
5. Resistant to scratches.
6.The cutting edge maintains sharpness and alignment.
7. Extra grip.
Disadvantage is brittle of the material (Tungsten carbide)

 Stainless steel : Extremely corrosion resistant.
 Cutting inserts and tips : Made of hard metal.
 Tungsten Carbide Tips : Stiffer and denser than steel.
 Shape and screw joint : Ergonomically designed to meet any orthodontic
requirement.
 Gold brazing : For longer instrument life.
 Rounded tips : For patient comfort and safety.
 Serrations on working ends : To improve grip.
 Bow out handles : Comfortable Handling.
Features of Orthodontic instruments

Classification of Orthodontic instruments
classification of orthodontic instruments was based on the sequential
procedures carried out during orthodontic treatment, right from
separation of teeth for banding till debonding and debanding
procedures up to completion of orthodontic treatment.

 Separating plier or the separator placing plier is made up of
stainless steel with spring back action.
 It is used for expanding elastic separators or separating rings
before positioning them interdentally.
 Barrel-shaped tip prevents slippage of the module, reduces the
risk of tissue damage.
 Angled beaks facilitate easier placement of elastic separators in
anterior and posterior areas.
SEPARATING PLIERS or SEPARATOR PLACING PLIER

It is available in either straight or curved pattern and long
and short cutting edge pattern.
• It is made from especially hardened stainless steel with
tungsten carbide inert cutting tip.
• It is used for cutting thin metal bands or band material.
Band cutting Scissors
Band forming instruments

 Handle is cylindrical and working end is serrated.
 It is used to push bands so as to seat them and / or adapt
them to the exact contour of the teeth.
 A hollow anatomically formed grip handle makes the band
pusher light and the serrated rectangular tip provides for a
good transfer of force when positioning bands.
Mershon band pusher

 Band seater is available in various shapes and are generally
made of high impact plastics or wood .
 The biting surface is generally tin inlay. Its shape is round,
square or triangular (allows easy access to interproximal
area) with a serrated surface finish .
 Square tip allows maximum grip and prevent slippage.
 It is used for patient to bite on the surface with the tin inlay
tip resting on the lug or the band edge.
Nylon band seater

 It is used to contour the gingival surface of preformed bands
to provide better tooth anatomy.
Band crimping plier

 The Johnson band contouring plier is ideal for contouring and
adapting bands.
 Beaks are tapered with a slight bow. One beak is concave while the
other is convex allowing re-contouring of bands.
 It can be used to re-contour band edges that sometimes get bent
during band placement.
Johnson band contouring plier

Band pinchable plier
 Beaks are in triangular passion with inner surfaces had serrated for
better control of band material.
 It is used for pinching of bands during band preparation.
 It has two types curved and straight.
 Curved (45˚) pinchable plier used for lower band preparation , and
straight is used for upper band preparation.

 It is used for preparation of band to tooth.
• Contour fitting to the side of a tooth is aided by the concave
surface or depression at the outer ends of each of the band
clamping portion.
 The purpose of the elevated edge is to provide a friction contact
with a portion of the material of the strip to prevent it from slipping
in the use of the plier in the operation of forming a band around a
tooth.
Peak plier Concave surface
E
L
E
V
A
T
E
D

 It is made of stainless steel, the double beak pliers are used for
forming bands in the mouth.
 These are available separately for anterior and posterior band
fabrications.
 These were of immense importance when all teeth used to be
banded.
Double beak pliers

Anterior band remover plier
It have a narrow groove into which the incisal edge of the
anterior tooth is placed and the sharp end is inserted gingival to
the gingival extension of the anterior band.
Band removing pliers

Oliver Jones Posterior band removing plier
It is used to remove posterior metal bands with
maximum patient comfort.
The tip is postured in middle of the pad for easy
removal of bands.
A plastic padded tip and sharp removing beak
with a slight pressure allow easy band removal.
Plastic head rest on the occlusal surface of tooth
and the sharp tip below the gingival contour of
the band.The pressure at handles causes the band
to lift off the tooth.
Metal type
Plastic type

• It is the most frequently used bracket positioning aid.
• It is made of stainless steel.
• It accurately measures height of bracket placement from the
incisal edge at 3.5, 4, 4.5 and 5mm.
 Flat surface rests on incisal/occlusal surface of tooth. Simplifies
seating the bracket on the teeth with exactly the right distance
between bracket slot and incisal edge with pencil lid or metal
tips.
Boons Gauge
Bracket positioning instruments

• This device simplifies the seating of brackets on the teeth
with exactly the right distance between the bracket slot
and incisal edge.
• It is generally made of aluminum or stainless steel.
• It accurately measures height of bracket placement from
the incisal edge at 2, 2.5, 3, 3.5, 4, 4.5, 5 and 5.5mm.
Bracket positioning height gauge

• It holds any type of bracket from a wide twin to a single one.
• Reverse action type handle which on pressing the handle
openup the beaks.
• Beaks are diamond shaped with serrations to grip the bracket.
• Flat end of the handle used to press the bracket into position
for bonding.
Bracket holder

 It is used to organise and hold orthodontic brackets to facilitate
quick bracket placement.
 Each circle on the card corresponds to a particular tooth in the
mouth.
 Brackets are placed corresponding to the tooth to be bonded.
 Tape on the back of the card helps to keep brackets in place.
Orthodontic bracket card

• Bracket removing pliers are used for removing bonded brackets.
• The wide tips wedge between both the edges of the base of the
bracket and the tooth surface(incisal-gingival direction), easily
lifting off the bracket.
• Available in two forms as straight (for anterior debonding) and
with a 60° angled tip (which allows better access to posterior
areas).
• Anterior debonding plier is also used for removal of adhesive
remanant on enamel surface after bracket debonding.
Bracket removing pliers

Kurz lingual bracket removing plier
• It is designed to fit the design of lingual brackets under the lingual
hooks and bite turbos.
 This instrument incorporates a state of the art spring mechanism to
improve durability and has an increased arm radius to allow for
better movement.
• It is used to removal of lingual brackets and bite turbos.

• The Cutting edge is made from stainless steel or Tungsten carbide
which is placed mesial to the beaks.
• They are especially designed for accuracy right to the tip, for smooth
cutting of soft ligature wires and lock pins and elastomerics. It
cannot be used on ligatures more than 0.015mm in diameter as it
damages the cutting edge.
Pin and ligature cutter(PLC)
Wire cutting instruments

PLC with 45 ° and 90˚ angled cutting tips for easy
cutting of ligatures especially in the posterior areas in
the lingual technique.
Pin and Ligature cutter - Angulated

 The distal end cutter is capable of cutting archwires up to 0.56 x
0.70 mm/ .022" x .028 " both intraoral and extraoral method.
 It is used exclusively for cutting the distal end of wire protruding
out of the molar tubes.
 It had a‘safety’ mechanism to hold the cut archwire so it does not
fall into the patients mouth.
Distal end cutter

Kurz distal end cutter
It is similar to distal end cutter, but difference is it was designed with
long body so it can reach back into depth of mouth.

 Hard wire cutters have hard metal tips or tungsten carbide tips.
 These are heavier and larger than the pin and ligature cutters.
 These are used to cut all wires up to 0.020" round.
Hard wire cutters

 Heavy wire cutters are also called heavy gauge side cutters. They
are capable of cutting wires of up to 1.3 mm diameter. These are
used mainly in the laboratory purpose.
Maun’s Heavy duty wire cutters

 The face bow bending pliers are ideal for bending and cutting the
outer bows of a face bow.These can be used to bend wires up to a
diameter of 1.8 mm.
Face bow bending/cutting pliers

 Adam's plier is used in the fabrication of the Adam's clasp and has
two smooth rectangular beaks .
 Made of a hard stainless steel with or without TC tip , that is
harder than the wires that they will be used to form.
 The distance between hinge pin and the tips of the beaks is short.
 The sides of the beaks are flat and edges of the grasping surface of
the beaks are sharp and textured , inner surfaces must not be
polished but also must not be serrated or grooved.
Adam’s plier
Clasp forming instruments

 When the beaks are closed , the tips should be a gap at the hinge
tapering evenly to contact at the tips.
 The gap at the hinge should be 0.6 mm .This ensures that a 1.0mm
wire can be held firmly, the surfaces of the beaks then being parallel.
 When a wire is gripped at the tips of the beaks there is no tendency
for the wire to slip out of the pliers.
 It is also used for adjustment of headgear and facebow.

 Adams' clasp bending pliers are special pliers for easy forming of
Adams' clasps in one step.
 It can be used for wires upto the diameter of 1 mm.
Adam’s clasp bending pliers

 Arrow clasp bending pliers are used to bend the arrow clasp, so that
the arrow head can engage the retentive under cut.
 It is used for wires up to the diameter of 0.7 mm.
Arrow clasp bending pliers

 Arrow clasp former is used for hard wires up to 0.7 mm/0.028".
It forms the clasp of the shape and small stops in the archwire.
Arrow clasp former

 It is used to adjust springs on orthodontic removable appliances.
 It Can be used to smooth and contour archwires
 It has two beaks, One beak is rounded, the other is square/flat
ended.
Adams spring forming plier

TURRET
 It is used for preparation of arch wires with or without torque
adjustment.
 It is available in six different versions and colors – Blue, Black,
Gold, Silver, Purple, Green.
 The wire slotted body is made of stainless steel.
Arch forming instruments

TURRET – BLUE
It is used For forming rectangular arch
wires .016" up to .0215".
TURRET - BLACK
It is used for forming rectangular arch
wires with torque adjustments:
0° - 10° - 16° - 23°.
For use only with wire: .016"x.022".

TURRET - GOLD
wires with torque adjustments: 0° - 7° - 10°
- 13° - 16°.
It is used for use only with wire: .018".
TURRET - SILVER
wires with torque adjustments: 0° - 7° - 10°
- 13° - 16°.
It is used for use only with wire: .022".

TURRET - PURPLE
It is used for forming rectangular arch wires
with torque adjustments:
0° - 10° - 16° - 23°.
It is used for use only with wire: .016"x.016".
TURRET - GREEN
It is used for forming round arch
wires:
.014" - .016" - .018" - .020".

 The De La Rosa as it is frequently called, has guiding grooves for
forming round and square arches 0.016", 0.018", 0.020" and
0.022".
 It helps to accentuate the curvature in the arch wire.
De la rosa contouring pliers

• An extremely popular and versatile utility plier designed for
working round wire up to 0.030” (0.76mm) in diameter.
Bird beak plier

• The round beak is precision ground to a perfect cone (.025 at
the tip).
• The pyramid beak is exactly .025mm wide at the tip and a
90° angle is ground on the sides to allow for wire.
• Beaks are parallel at 0.020 inch opening.
• Working edges are carefully beveled and diamond honed to
prevent scoring.

 Longer, more gradually tapered beaks than bird beak pliers .
 A round beak with a cone tip of .025 and a pyramid tip with 9° angle
ground on the sides to allow for wire springback.
 Slender beaks make it easier to bend small diameter loops.The
working edges are carefully beveled to prevent wire scoring.
 It comes with and without serrations on its flat beak.
 It can be used for arch form and spring preparation.
 It is used for hard wires up to 0.5 mm or 0.020" diameter.
Standard light wire plier

• The Jarabak light wire plier has a shape, which is slightly different
from the original light wire plier.
• It had 3 sets of precision grooves assure accurate bending and
closing loops. Flat tip is serrated for firm gripping.
• Serves the same function and can be used to bend spring hard wires
upto 0.5 mm or 0.020" diameter.
Jaraback light wire plier

 This sturdily constructed plier, has hard tips and the beaks are cone
and pyramid shaped.
 It is available in two beak lengths – short and long.
Angle wire bending pliers

 Nance loop forming pliers is ideally suited for fanning different
loops and adjusting preshaped arches for the fixed appliance
technique.
 It has four step beaks which are ideal for bending loops of different
sizes in both round and rectangular wires.
 Both edges of thin blades are fully radiused and stepped-in 3 mm,
4 mm, 5 mm and 6 mm for various size loop forming.All working
edges are carefully beveled to avoid wire damage.
 This plier can bend wires up to a diameter of 0.7 mm or 0.028".
Nance loop forming pliers

 It is a Four-step plier (2mm,3mm,4mm,5mm step lengths)
automatically forms loops on wire up to .020" with one motion.
 Closing loops are easily made to desired height.
Loop tie back plier

 Multiple loops of the same dimension and omega loop can be easily
bent with this plier.
 Round beak has three step sections of 0.045, 0.060, and 0.075 inch
diameter.
 Cylindrical beak is electro-etched to prevent wire slippage.
 Concave beak has slight parallel serrations to hold wire at 90° angle
while forming loops.
 Replacement tips with Allen wrench available.
 Maximum wire capacity .021 x .028
Tweed loop forming plier

• It had one round and one concave beak for bending round and
edgewise wire up to .028" without nicking.
• It forms stops in any type of wire.
• It is also useful for loop tie back and Gable bends.
Optical plier

 Young loop bending plier is a universal pliers for different size
loops.
 It provides a uniform dimension to the loops.
 It is used for hardwires up to 0.7 mm or 28 inches.
Young loop bending pliers

 TheWeingart plier is used to guide and move the archwire in and out
of placement and bending the archwire ends.
 The bend in the beak facilitates easy grasping of the archwire and
guiding into buccal tubes.
 It has accurately closing serrated tips.
 It is capable of bending hard wires up to a diameter of 0.5 mm /
0.020".
Weingart universal pliers
Kurz utility plier 45 degrees angulated tip for lingual technique

 Universal Pliers for bending wires up to 0.9 mm (035") or cutting
up to 0.7 mm (028").
Universal plier

These are mainly of two types: 1) straight howe.
2) curved howe.
Straight Howe pliers are utility pliers have long, slender lip-safe
tips.They are used to hold arch wires.The special tip design makes
these pliers also suited to seating individual anterior bands.
Howe pliers
Utility pliers

 Curved Howe pliers are also utility pliers with long, slender,
curved lip-safe tips, which increase its efficiency in posterior areas.
The tips are bent at 40° for better access.

 The three prong plier has three precision aligned tips, which
ensures consistent bends in lingual bars and wires.
 It is capable of bending wires up to a diameter of .030".
 It is also used for the activation of the quad - helix appliance.
Three Prong pliers
Bending of facebow wiresDr Ravikanth Lakkakula

 Special design with 3mm step for accurate utility arch
construction.
 The notches in the plier beaks crimp the preformed arch wires
into proper position.
Utility arch plier

These pliers are generally used in pairs for applying labial or lingual
torque (Single or Multiple)to archwires .
Parallel grip prevents crushing of wires.
They can be used for wires upto the diameter of 0.56-0.70mm or
0.022-0.028”.
Rose torquing plier

 Ideal for bending square and rectangular wire up to .0215 x .028.
Edges are radiused and hardened, to prevent wire scoring and to
preserve a smooth contact area with the wire.
 Blades are parallel when opened to .020, to ensure accurate 90°
bends.
 Maximum wire capacity: .0215 x .028
Ribbon arch plier

It is used to hold impression material.
It can be perforated for better retention and high flange for record full
sulcus depth.
It had a handle for better grasp during placement and removal.
Impression trays
upper
lower
Others

• It is used retract cheeks and lips for better visibility.
 It is Often used when bonding of brackets and taking intraoral
photographs and during bonding of brackets.
 Available in small , medium sizes.
 Available in wing and wingless and interconnected wire design.
 Available in transparent and various colors.
Cheek retractors

 Tongue-Away Shields are molded from a soft, resilient plastic or from
expanded polystyrene that can be safely disposed of after each patient.
 Restricts the tongue to prevent moisture contamination and alleviates
patient fatigue by offering occlusal support during bonding procedures.
 Vertical shield is offset to provide adequate tongue space.
 Surfaces of bite blocks are angulated and serrated for retention.
 Holes in bite blocks facilitate placement and removal with a bird-beak
plier, permit attachment of a safety string or allow insertion of a saliva
ejector.
Tongue - Away Shield
Plastic type Disposable typeDr Ravikanth Lakkakula

Tongue retractor with saliva ejector
• It provides dry working field , the keeps the tongue away from
lingual surface of teeth and isolated them from saliva contamination.
• It allows the enough space and access to place the indirect bonding
material.

• It is madeup of glass or stainless steel material.
 It aid in visibility when taking intra-oral photographs.
 It Often used in conjunction with cheek retractors.
 Different sizes and shapes available.
Intraoral mirrors

 The ligator is used for fast ligating of the complete arch i.e., tie long
ligatures into a‘figure-of-eight’.
 The 'Y'-shaped tip simplifies the twisting of the ligature.
 It can be used for ligature wires up to 0.3 mm / 0.012" diameter.
Coon style ligator

Ligature forming plier
 It is used for easy bend into ligature wire for preparation of
preformed pattern.

 Mosquito forceps are used for placing elastic ligatures and tightening
the ligature wire around brackets.
 It is available in straight and curved (45 ˚)end pattern.
 Beaks are serrated for better grasp.
Mosquito artery forceps
Kurz mosquito artery forcepsDr Ravikanth Lakkakula

 Mathieu needle holder has a convenient and practical design and
is ideal for ligation.
• It has serrated tips(2.5mm), which allow better gripping of the thin
ligatures and elastomeric modules.
 The handle has a locking mechanism and a spring mechanism that
help the operator to quickly open and close the pliers.
Mathieu needle holder
Kurz mathieu needle holder - 45˚Dr Ravikanth Lakkakula

 Straight Shooter ligature gun madeup of thermoplastic material , it
provides a safe, convenient, hygienic means of applying elastomeric
ligatures to edgewise brackets.
 It eliminates the possibility of haemostats or other instruments causing
soft tissue damage due to ligatures breaking or slipping off tie wing.
 Two sizes of Straight Shooter are available.The Mini Bracket Shooter is
for mini and single-wing brackets and theTwin Bracket Shooter for
standard, twin-size brackets.
Straight Shooter ligature gun

 The ligature adjuster and tucker is usually a double ended or single
ended instrument.
 Notch in working end allows operator to apply pressure to archwire
to bend it into bracket slot.
 It is used to tuck the cut ends of the ligature wires so that they do
not hurt soft tissues.
Ligature adjuster and tucker

 Double ended stainless steel for placing and removing elastic
ligatures. It reduces stress on newly bonded brackets during
ligation.
Speedo Ligature Director

Adjustable enamel stripper
 It is specially designed and developed for easy, efficient removal
and recontouring of the interproximal tooth enamel, for the
widening of contact points or for the removal of overhanging
fillings.
 Steel strips feature grit on one side only.

Dontrix gauge
 Measures the force of coil springs , archwires and elastics
1ounce(28grams) upto 16 (450)Ounces.
 Marked in one ounce increments.(1 Ounce = 28.395 grams)
 The shaft is calibrated on both ends for measuring either tension
or stress by reversing the gauge.
 It is used by placing hook end to which type of material force is
measured and check the calibirated value on chart.

Correx gauge
 It is also used for measuring tensile and compressive forces.
 It record the forces in grams.
 It is available three variation of force measuring designs.
Type 1 : 25 -250 grams
Type 2 : 50 -500 grams
Type 3 : 100 -1000 grams

 It is used after placement of orthodontic bands to remove excess
cement.
 It can also Can be used after debonding brackets in the removal of
excess cement with a conventional handpiece and a debonding bur.
Mitchell trimmer

It is a multipurpose specialty pliers are used for easily forming stops,
tie backs or adam’s clasps for retainers.
NanceTie Back Pliers

 It is used for crimping of hooks to the archwire .
 Two grooved inserts maintain a firm grip on the tube as it is
delivered to the arch wire.
 Securely crimps the tube at three points to prevent the ends from
flaring.
 Lower beaks are thinner to accommodate curvature of arch hook.
Hook crimping plier

 It is used for Cinchback bends in the archwire.
 Simply insert the tip over the distal end of the arch wire and twist
in the desired direction. Straightening cinchback bends are done
with equal efficiency, thus reducing the time required for
changing arch wires.
These are available in two sizes.
 The small (1mm internal diameter) is ideal for wire sizes up to
.018 round and square sizes up to .016 x .016.
 The large (2mm)will accommodate round wire up to .020, square
wire up to .018 x .018, and rectangular wire up to .021 x .025.
Distal wire twister

 It is designed to form double and triple bends in either 0.030”
(0.076mm) or 0.036” (0.091mm) wire for inserting lingual
sheaths.(TPA and Lingual arch preparation)
Lingual arch plier

 It has double sided offset beaks permits bayonet bends.
 Automatically forms a bayonet-style step bend, up or down, in or
out, without disengaging the archwire.
 It produces right hand or left hand step up or step down at ¼ , ½ ,
¾ or 1mm increments.
Detailing step plier

 It is used for putting permanent centerline, anti-shift gable bends
and positive stops anywhere in nickel titanium arches.
V-Bending Pliers

These tools are allows the placement of first order and second order
bends in the lingual archwire without need to replace elastic modules
and ligatures.
Kurz first order and second order bending fork

 It is used to place horizontal and vertical cuts in diagnostic model
for preparation of tooth section in kesling diagnostic setup.
 Blades are available in various lengths.
 Most commonly 0.004 inch cutting width(fine), 12 inch length are
used.
Spiral blade saw

 Made of plexiglas, for symmetric measurements of dental arch on
plaster casts, in millimetres.
 Grid screen dimension 60x60x10mm.
 This screen is printed red with a 1 x 1 cm scale on one side and the
other side in black with a 1 cm x 2 mm scale.
 When the red and black scales are in alignment, parallax errors are
not present and accurate measurements can be taken.
Schumth Measuring Grid

Tube converting plier

It is used for the conversion of convertible molar tube into bracket.
Procedure :
Step 1: Insert instrument into mouth with the slide mechanism parallel
to the arch plane and the handles pointing outward.
Step 2 :With handles wide open (slide bar tip fully retraced) align and
insert tip into arch wire slot of buccal tube. Close handles slowly until
anchor tip of pliers is firmly supported on distal end of the buccal tube.

Step 3 : Maintaining instrument alignment, close handles slowly and steadily,
driving the slide bar tip into the arch wire slot.The convertible cap will
peel away, converting the buccal tube to a molar bracket.
Step 4 : If the slide bar tip is adjusted for partial conversion, open the plier
handles fully and carefully remove the instrument from the patient’s mouth. If
the tip is bound up in the arch wire slot, slowly pivot the entire instrument
outward to free the tip.The partially converted cap can be securely grasped
with a utility pliers, rotated distally to break away the attachment and removed
from the patient’s mouth.

ReplacingThe Slide BarTip : Open pliers handles to retract slide
tip half way and hold this position. Remove the slide bar retaining
screw.
Grasp the tip with a utility pliers, rotate upward and remove the tip.
Insert a fresh tip, replace and tighten retaining screw securely.

Conclusion
Various orthodontic instruments and pliers that are specially designed
for Orthodontic purposes are used in orthodontic practice.A basic
thorough knowledge is required for proper use of instruments for
their purpose without damaging instruments and orthodontic
materials.

Orthodontic instruments

Recommended

Recommended

More Related Content

What's hot

What's hot (20)

Similar to Orthodontic instruments

Similar to Orthodontic instruments (20)

More from Ravikanth lakkakula

More from Ravikanth lakkakula (8)

Recently uploaded

Recently uploaded (20)

Orthodontic instruments