This document discusses the removal of separated instruments from root canals. It begins by defining instrument separation and describing types of instruments that can cause obstruction. Common causes of separation include improper use, limitations in physical properties, inadequate access, root canal anatomy, and manufacturing defects. Factors associated with NiTi rotary instrument fracture include rotational speed, canal curvature, instrument design/technique, torque, manufacturing process, and absence of a glide path.
The document then describes a new three-step technique for removing separated instruments using specialized cutting burs, an ultrasonic tip, and a file removal device. It presents four case reports where this technique was used to successfully remove separated instruments from the apical third of root canals in
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Instrument separation
1. Instrument Separation
Introduction:
• Instrument separation is classified under “Procedural Mishaps”
• Instrument separation in the new terminology that is used replacing the
old term instrument fracture.
Types of Instruments that can cause obstruction in a canal apart form files and
reamers:
Gates – Glidden or Peeso drills,
Lentulo spirals
Thermomechanical GP compactors
Tips of Hand instruments (explorers ; spreaders)
Sectioned Silver Points
(or) any dental material left inside the canal
Common causes of Instrument separation:
• Improper use (Overuse & Failure to discard when needed)
• Limitation in Physical Properties
• Inadequate access
• Root canal anatomy
• Possible manufacturing defects
Factors Associated with fracture of NiTi rotary instruments.
• Rotational Speed
• Canal Curvature
• Instrument Design and Technique of use
• Torque
• Manufacturing Process
• Absence of a Glide Path
Mechanism Associated with Instrument Blockage:
Torsional Fatigue: Instrument binds to the walls of the canal and usually
associated with excessive apical force applied during instrumentation
2. Bending Fatigue: Continuous stress applied to an instrument that is already
weakened by metal fatigue and breakage occurs when it reaches its point of
maximum flexure, when the stress is greatest and that is often seen in curved
canals.
Instrument fractures were present even during the use of Stainless Steel
instruments, but with the introduction of NiTi into endodontics the incidence of
occurrence of Instrument separation has increased.
Treatment Planning:
There are four basic options for treatment they are:
• Nonsurgical retreatment
• Surgical retreatment
• Extraction of the tooth
Factors Influencing Broken Instrument Removal:
• Diameter, length and position of the obstruction
• Canal Anatomy – Diameter, length and curvature of the canal
• Thickness of the dentine
• One third of the obstruction is to be exposed
• Straight line position of the instrument
• Positioning of the fragment in the canal
• Stainless steel are easier to remove as no secondary fractures happen
• NiTi can be fractured or pushed apically
• Cutting direction of the fractured file
• Ledge or Root perforations can cast doubt on the prognosis of the case
Nonsurgical Retreatment Methods:
Methods involving Nonsurgical removal of the fragment
Methods involving no removal of the fragment
Method Involving Non Surgical Removal of the Fragment:
When the fracture of the instrument is at or above the level of Canal Orifices:
• Hemostat
• Steiglitz Forceps
3. • Modified Castrovicious needle holder
• Perry Pliers
When the fracture of the instrument is below the level of Canal Orifices:
• Braiding Technique: Involves the use of several H – files.
• Brasseler Endo Extractor Kit: includes a cyanoacrylate adhesive; four
trephine burs and extractors. Recommended amount of overlap – 2mm,
Disadvantage: the trepine burs are larger than their ISO equivalent,
The bur cuts aggressively when new.
• Masserann Kit : Trepine burs and extractor device, Gauge to aid in
predicting the size to be used, different sizes of the burs available,
Counterclockwise direction of the burs.
Disadvantage: Excessive amount of radicular dentine removed.
• Roydent Extractor Kit: Includes one bur and three extractors, the
extractor tip contains six prongs.
Disadvantages: lack of variety of instruments, potential breaking of
the prongs, only to be used for the removal of small obstructions.
• Wire Loop Technique: Roig – Greene first described, 0.14mm wire loop
with ligature wire passed through a 25 gauge injection needle
• Cancelliers: Includes an extractor tubes of four different sizes, used along
with a cyanoacrylate adhesive. Designed to be used with an operating
microscope.
• Mounce Extractor: Its similar to a ball burnisher with slots cut into the
ball, which slide onto the broken instrument. And a cyanoacrylate
adhesive used.
• Tube and H – files: A short stainless steel tube and a Hedstrom file.
• Instrument Removal System (IRS): Include microtubes of different sizes
with a side window and a 45 degree bevel and a side wedge with a taper
towards its distal end.
4. • Separated Instrument Retrieval (S.I.R.): Include bonding agent,
accelerator, five different sizes of tubes, assorted fulcrum props and a
hemostat.
• Ultrasonic Device: ProUltra ENDO tips are recommended they include
ProUltra ENDO-3, 4, 5 which are stainless steel with a zirconium nitride
coat; ProUltra ENDO-6, 7, 8 are made of titanium and available in
thinner diameter and longer length.
Staging Platform: Modified GG drill at reduced speed is directed apically in
the canal until it lightly contacts the most coronal accept of the obstruction.
Ultrasonic tip of suitable tip diameter, that could passively fit next to the
obstruction and is activated at lower speed. Instrumentation is done under
dry conditions.
Water Port Technology disapproved:
1. water flow dampens the movement and decreases tip performance
2. small diameter tips are predisposed to breakage when mechanized for
internal water flow
3. unrequired aerosol effect
4. moisture from water, along with dentinal dust creates mud that can
cause potential iatrogenic outcome
5. Title: Removal of Separated Files from Root Canals With a New File
– Removal System: Case Reports
Authors: Yoshitsugu Terauchi, DDS; Le O’ Leary, DDS and Hideaki
Suda, DDS, PhD
Journal of Endodontics, Vol 32, No 8, August 2006
AIM: To test a new clinical technique for the removal of separated files form
root canals with curvatures and with different level of breakage of the
instrument.
INSTURMENT REMOVAL PROCEDURE:
New Technique for Instrument Removal:
• This new system involves
three steps that consists of
three different techniques and
three newly designed instruments.
• Each step is performed sequentially until the separated file is removed.
• STEP 1
• The goal of this step is to establish straight line access to the separated
file with minimal removal of the dentin to conserve the root structure.
• Two types of low-speed cutting burs with 28-mm lengths were
developed.
• The first one is referred to as Cutting Bur A (CBA).
• It has a pilot tip that follows the path already created by the separated file.
• Used to enlarge the canal wall so that
second bur can be easily introduced into the canal and
brought into contact over the coronal portion of the separated file.
6. • The second bur is referred as Cutting Bur B (CBB).
• Cylinder-shaped tip
cuts at the periphery of the separated file
acts as a trephine bur that slightly machines down the coronal
portion of the file.
• This provides a guidance space for the ultrasonic tip that is subsequently
used in the second step.
• The diameter of the
• CBA is 0.5 mm
• CBB is 0.45 mm.
• The CBB is smaller than the CBA
its main objective is to machine down the separated fragment,
without removing additional dentin.
• Both burs can go around a curved canal as they are flexible in the
shanks.
• They also share a mechanical function of loosening the separated file
wedged in the canal because they are used in a counter-clockwise motion
in the low speed handpiece.
• The counter-clockwise motion
• imparts an unscrewing effect to the separated instrument that
helps loosen it.
• If the separated file was already comparatively loose from the canal wall
or is shorter in length than the CBB, it could be accidentally removed at
this stage.
• If the file removal attempt is unsuccessful at this point, the clinician
should proceed to Step 2.
• STEP 2
• The purpose of this step is
to conservatively trim away the dentin and
expose the coronal few millimeters of the separated instrument and
to loosen it.
7. • A specially designed ultrasonic instrument was developed to prepare the
periphery of the file.
• The length of this ultrasonic instrument is 30mm.
• It was designed to reach separated file lodged in the apical third of a long
canal.
• The ultrasonic tip size is small, measuring 0.2 mm in diameter, to
minimize the amount of dentin removal.
• Direct contact of the ultrasonic tip with the separated file should be
avoided to prevent a secondary fracture;
• ultrasonic vibration is focused on the remaining dentin around the file or
the floor of the cavity prepared by the CBB.
• The process of uncovering the coronal segment of the separated file with
the ultrasonic instrument may result in its early removal.
• The final step should be attempted if the separated file is irretrievable
after adequate exposure of at least 0.7 mm of the coronal portion of the
fragment.
• STEP 3
• This stage involves a device that would mechanically engage the
fragment to retrieve it.
• A file removal device was developed to directly grab the file out of the
canal. It consists of two assemblies.
• One part consists of a head connected to a disposable tube (0.45 mm in
diameter) with a loop made of NiTi wire (0.08 mm) projecting from it.
• The other part is a brass body equipped with a sliding handle on the side
that holds the wire of the head attachment.
• The main purpose of the handle is to control the wire of the loop.
8. • When the handle is moved downwards it will help fasten the loop and
vice versa.
• The wire protruding from the tube is used to create the loop.
• The loop size can be adjusted to the size of the separated file by
manipulating the handle.
• The coronal portion of the file must be exposed by at least 0.7 mm for the
system to be effective.
• Once the fragment is sufficiently exposed, the loop is placed over the
coronal portion of the separated file and then fastened to secure the
fragment.
• The obstruction is retrieved by pulling the apparatus out of the canal in
various directions to dislodge the fragment from the canal walls .
Other methods of Retreatment for the removal of separated instruments:
1. If the fragment is within the canal – Bypassed – Lubricant used – Canal
preparation completed – Canal filled – The segment becomes part of the
filling material
2. If the fragment cannot be bypassed – Prepare and fill the canal to the
level to which the instrument can be accomplished
Crump and Natkin 1970 J. Ame. Dent Asso.
Fox. J. et al 1972 NY State Dent J
Success following instrument separation is equal to that of teeth without
such mishaps.
3. If the fragment is beyond the apex – Apical surgery – First step is to
complete cleaning, shaping and filling of the canal – Surgery include
removal of part of the fragment exactly beyond the apex and retrofilling
is done.
Prognosis of the cases of instrument separation is dependent on the stage of
canal instrumentation at the time of separation of the instrument.
CASE REPORT:
9. Case 1
• 37 yr old female – retreatment of mandibular left second molar
• c/f: sensitive to percussion
• radiographycaly: appox 5mm of the instrument in the apical third of
the distal canal with 2.0mm of the segment beyond apex
• GP removed with rotary NiTi, coronal portion straight-lined
• Microscope is used
• File removed in 7min’s
• Retreatment done with GT rotary NiTi.
Case 2
• 15 yr old male – retreatment of mandibular left second molar
• c/f: sensitive to percussion
• radiographycaly: appox 5mm n the apical third of the distal canal
• GP removed from mesial roots
• File removed in 5min’s
• Retreatment done with GT rotary NiTi
Case 3
• 42 yr old male - retreatment of mandibular left third molar
• c/f: sensitive to percussion
• radiographycally: appox 8mm of instrument in the apical third of
mesial canal
• time: 6min’s
• Retreatment done with GT rotary NiTi
Case 4
• 28 yr old male – Right mandibular first molar
• c/f sensitive to percussion
• radiographycaly: appox 4mm of the instrument in the apical third of
the mesial canal with periapical radiolucencies around both mesial and
distal roots.
• GP removed with rotary NiTi
• Time: 12min’s
• Perforation repaired with MTA
• GP filled using Obtura
10. DISCUSSION:
Wilcox et al showed that canal enlargement of 40 to 50% of the root width
increases the roots susceptibility to vertical fractures
Ward et al reported that use of ultrasonic technique at times can cause portion of
the separated instrument to break off and cause secondary fracture especially
among NiTi
Suter recommended the removal attempt to remove fractured instrument should
not exceed 45 to 60 minutes. Success rate may drop with increase in treatment
time, this may be because of:
• Operator fatigue
• Over enlargement of the canal (perforations)
Hulsmann reported a success rate of 55 to 79% for the removal of separated
instruments.
Suter reported 87% success rate with his definition of success as the complete
removal of the separated instrument from the root canal without preparations.
Fracture fragment located Before the canal curvature – 100% success rate
At the level of curvature – 60%
Below the level of curvature – 31%
CONCLUSION:
The best antidote for broken instrument is prevention. By following certain
factors the breakage of the instrument can be avoided.
Guidelines for when to discard and replace instruments:
• Flaws such as shiny area or unwinding are detected on the flutes
• Excessive use has caused internal bending or crimpling. A major concern
with NiTi instruments is that they tend to fracture without warning; as a
result, constant monitoring of usage is critical.
• Excessive bending or precurving has been necessary.
• Accidental bending occurring during file usage.
• The file kinks instead of curving.
• Corrosion is noted on the instrument