QUIZ 4 Colleagues for Excellence Rotaries - PDF

Summary

This document provides an overview of nickel-titanium rotary files used in endodontics. It discusses the different types of files, their potential for use, and potential risks. The document also includes "Golden Rules" for proper use.

Full Transcript

Endodontics
Colleagues for
Excellence
Winter 2008

Rotary Instrumentation:
An Endodontic Perspective

Published for the Dental Professional Community by the

American Association of Endodontists
Cover artwork: Rusty Jones, MediVisuals, Inc.

EndodoNtics: Colleagues for Excellence

T

he introduction of nickel-titanium (NiTi) rotary files to endodontics
almost two decades ago has changed the way root canal preparations
are performed, enabling more complicated root canal systems to be shaped
with fewer procedural errors. This publication is intended to give clinicians a
knowledge base for NiTi rotary use and further aims at enabling them to select
a system that is most suitable for their needs.
Nickel-titanium alloy was developed in the
1960s, initially for military purposes, but it soon
became apparent that NiTi was also useful for
other applications, such as orthodontic wires and dental burs. K-type root canal
files were made of NiTi and tested extensively by Serene et al. (1), and the first
NiTi rotary files appeared on the market around 1993. These early rotary files
were designed with cross-sections that did not have cutting edges but rather
broad radial lands. This is different from the traditional K-file that is triangular
in cross-section with sharp cutting edges (see groups in Table 1). Those files
(with the exception of LightSpeed) retained the 16 mm-long cutting blades but
had a greater taper than the typical .02 for K-files.
Subsequently, numerous reports were published, detailing successful
endodontic treatments with the aid of NiTi rotary files. Even so, the use of
rotary files requires attention to detail in how they are manipulated. To that
end, a detailed analysis of a presented case (for example, using the AAE Case
Difficulty Assessment Form) should be executed. Then, following guidelines
outlined below, cases of varying degrees of difficulty can be successfully and
predictably treated (Figure 1).
Clearly, not all root canals lend themselves to rotary preparation, due to
varying degrees of clinician skill and case complexity. Furthermore, rotary
files may fracture rather unexpectedly or create procedural errors. Therefore,
knowledge of several clinical “Golden Rules” and basic understanding of
metallurgical properties of NiTi rotary files are critical for successful use.
Background
and Case Assessment

Fig. 1. Examples of root canal treatments done
with NiTi rotary files, with schematic reference
to canal shapes (green outlines).
A—Maxillary second premolar with a
radiographic lesion and a relatively straight
root canal. Follow-up radiograph after 8 years
shows apical osseous repair.
B—Mandibular first molar with radiographic
lesions on both apices and gently curved roots.
Follow-up radiograph after 6 years shows
osseous repair and caries at #18 (arrowhead).
Modified with permission from Peters OA
& Peters CI in: Cohen S, Hargreaves KM,
Pathways of the Pulp, 2006.

The “Golden Rules” for
NiTi Rotary Preparation
1. Assess case difficulty
2. Provide adequate access
3. Prepare with hand files up to
size #20 prior to rotary use
4. Use light touch and low rpm
5. Proceed with crown-down
sequence
6. Replace rotary instruments
frequently

Some of the more than 30 current NiTi instrument
systems on the market are classified according
to their design, shaping characteristics, breakage potential and clinical
performance (Table 1). Manufacturers have placed great emphasis on various
NiTi rotary design details but only two major factors have been identified that
impact shaping potential—cross-sectional design and tip configuration (2,3).
All currently available rotaries have noncutting tips, but some have radial land
areas while others have a nonlanded design (see groups in Table 1). Generally,
radial lands make preparation slower but safer while a nonlanded rotary cuts
more rapidly, but can also lead to preparation errors. When used according to
their specific guidelines both types of rotary files perform well.
Available Systems

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EndodoNtics: Colleagues for Excellence

Group

Rotary File

Enlargement Potential

Preparation Errors

Fracture Resistance

Clinical
Performance

I Radial-landed
ProFile1, ProSystem GT1,
Quantec2,
Guidance3, K32

+, Depending on sizes,
often time consuming

++ Low incidence,
usually <150 µm canal
transportation

+/- Fatigue
+ Torsional load,
depending on system

ProTaper1,
Pow-R4,
RaCe5,
Sequence6

+/-, Good with use of
hybrid techniques

+/-, Overall more
demanding of clinician’s
ability

+ Fatigue
+/- Torsional load,
depending on taper,
handling

LightSpeed & LSX7,
EndoEZE AET8, Liberator9

Varies, + with LightSpeed

++ LightSpeed,
- Other systems

Varies

II Nonlanded

III Others
++ Good

+ Adequate

- Problematic

++ Good, depending
on treatment
conditions. No
difference between
rotaries shown
so far, except for
inexperienced
clinicians

Varies

+/- Undecided

Manufacturers:
Dentsply Tulsa Dental Specialties, Tulsa, OK/Dentsply Maillefer, Ballaigues,
Switzerland
2
Analytic Endodontics, Orange, CA/Sybron Kerr, Orange, CA
3
Guidance Endo, Albuquerque, NM
4
Moyco Union Broach, York, PA
1

FKG, La Chaux-De-Fonds, Switzerland
Brasseler USA, Savannah, GA
7
Discus Dental, Culver City, CA (LightSpeed now replaced by LightSpeed LSX)
8
Ultradent, South Jordan, UT
9
Miltex, York, PA
5
6

Table 1. Suggested grouping of rotary files according to their mode of cutting and details about manufacturers. Group I consists of radial-landed rotaries with reaming action;
Group II rotaries have triangular cross-section and cutting action; while Group III is made up of files with different geometry. Evaluations are based on recent reviews of the
pertinent literature (2,3).

What makes NiTi alloy so special? It is an
alloy that exists in two crystal structures,
austenite and martensite; transitions from
one crystal lattice to the other make NiTi superelastic and give it a shape
memory. Its high flexibility is critical for rotary endodontic files for two reasons.
With highly elastic instruments, forces between the file and the canal wall
during instrumentation are reduced. This results in the file remaining centered
in the root canal space, and in a lower propensity towards canal straightening
or other preparation errors. Secondly, rotational movement in curved canals
will bend rotary files once per revolution. This ultimately leads to work
hardening and brittle fracture, also known as cyclic fatigue.
Clinically, deformation and fractures of endodontic files do occur, but Spili
et al. (4) showed that rotary files fractured in a specialist practice only slightly
more frequently compared to stainless-steel hand files. However, any tooth
with a file fragment lodged in a root canal presents a problem, and therefore,
fracture prevention is very important.
If a rotary has fractured, it is imperative to inform the patient; after a qualified
benefit-risk analysis, an attempt may be made to remove the fragment, or it
may be appropriate to leave it in place and follow-up with the patient. In such
NiTi Rotary Usage
and Fracture Prevention

Continued on p. 4

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EndodoNtics: Colleagues for Excellence

Fig. 2. Scanning electron micrographs illustrate
NiTi rotary fracture mechanisms. Fractures were
produced in experiments; note the grinding marks
on both of the instruments.
A. Torsional fracture occurs when a rotary is
forced into a small canal area, engaging the tip,
which then becomes overloaded. Consequences
are plastic deformation and a particular breakage
pattern (arrowhead).
B. Fatigue fracture occurs when a rotary is
overused and accumulates too much stress in
curved canals over time. There are usually no
warning signs and no particular patterns visible
on the fracture surface.
Reprinted with permission from Peters OA &
Peters CI in: Cohen S, Hargreaves KM, Pathways
of the Pulp, 2006.

situations it is always advisable to consult with an endodontist.
Two distinct fracture mechanisms have been described in the literature
—torsional load and cyclic fatigue (Figure 2). Torsional load is transferred into
the file through friction against the canal wall while cyclic fatigue occurs with
rotation in curved canals. Both factors work in concert to weaken the rotary
file.
As a general rule, fine and flexible files are vulnerable to torsional load
but are resistant to cyclic fatigue. Conversely, more rigid and larger files can
withstand more torque but are susceptible to cyclic fatigue. The greater the
amount and the more peripheral the distribution of metal in the cross section,
the stiffer the file. Therefore, a file with a greater taper and larger diameter
is more susceptible to fatigue failure; moreover, canal configuration becomes
important here. A coronal root canal curvature is more dangerous than an
apical one in terms of fracture, and a very acute canal curvature generates
more fatigue than one with a larger radius (see below).
NiTi rotary handling needs to be carefully learned in well-conducted
CE courses with further self education using extracted teeth. A clinician’s
skill and file-handling parameters are directly related to success with NiTi
rotaries (5). Two reasons for this are the importance of proper case selection
and the manual dexterity required for NiTi rotary use. Specific guidelines
for file sequences are given for some rotaries but several principles apply to
all instruments. For example, lower rotational speeds (~250 rpm) reduce file
fractures. Typically, manufacturers give guidelines for their products, however,
these recommendations may be incomplete or clinically insufficient. When in
doubt, clinicians should consider other sources of available evidence or consult
with an endodontist.
Manufacturers recommend that rotaries should be advanced until slight
resistance is met but the recommendations differ regarding the exact hand
movements. Most rotaries are used with a gentle pecking motion; ProSystem
GT rotaries are recommended to be continuously advanced while ProTaper
Shaping files should be used in a lateral “brushing” motion. It is difficult
to determine exactly the apically exerted force in the clinical setting but
manufacturers stress that a very light apical touch is needed. Currently, electric
motors with torque presets are recommended by most manufacturers and are
one way to decrease fracture incidence, particularly if torque settings are low
and accurate.
In order to reduce friction, it is often suggested to use gel-based lubricants
such as RCPrep (Premier, Plymouth Meeting, PA) or Glyde (Dentsply Tulsa
Dental Specialties, Tulsa, OK). In dentin, such lubricants have not been shown
to be beneficial and can actually increase torque for radial-landed ProFile
rotaries (6), while flooding canals with NaOCl not only reduces torque but also
promotes disinfection of the root canal system. It is therefore important to use
copious irrigation with NaOCl during the use of rotaries.
NiTi rotaries are often used in more than one patient, requiring cleaning
and sterilization of the file. Thermal sterilization does not affect fatigue life
or torsional resistance. However, the reuse of rotary files has to be closely
monitored in order to avoid build-up of fatigue over time and NaOCl-related
corrosion (7,8). In fact, several government agencies around the world, for

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EndodoNtics: Colleagues for Excellence

example in the United Kingdom, and many clinicians recommend singlepatient use of a set of rotary files (8).
Current experimental and clinical evidence shows
that NiTi rotaries promote improved preparation
quality (Figure 3). Specifically, the incidence of
gross preparation errors is greatly reduced. The current technique of choice to
demonstrate canal shapes before and after preparation is microfocus-computed
tomography, also know as microCT. Figures 3A and 3B show canal shapes,
reconstructed from microCT data that are virtually free of preparation errors
after NiTi rotary preparation. Canals with wide oval- or ribbon-shaped crosssections present difficulties for rotary files, and other techniques, such as
circumferential filing and ultrasonics, are sometimes used in those canals.
Oscillating files that have been recommended for these canal types do not
perform as well as NiTi rotaries, particularly in curved canals (Figure 3C).
Changes in root canal paths with NiTi rotary preparation are usually very
small (Table 1, Figure 3). This indicates that canal walls are not excessively
thinned and apical canal parts are only minimally straightened even when
preparing curved root canals (Figure 1). Rotary files with a radial-landed design
prepare canals in a planing action and need to be advanced with light pressure
in order to engage the perimeter of the canal and then cut the dentin there.
Usually, these rotaries enlarge the existing canal path safely without creating
procedural errors.
Nonlanded rotaries prepare canals with more of a cutting action; their blades
can be used with a lateral movement towards a specific point on the canal
perimeter. This allows the clinician to actively enlarge and relocate canal paths,
for example, away from the furcation in the coronal and middle root canal
thirds. Nonlanded rotary files are considered more efficient but require more
operator skill to avoid procedural mishaps compared to radial-landed files.
An important design element of all current instruments is a passive,
noncutting tip; it guides the body of the rotary file so that dentin is cut more
circumferentially. Even when taken beyond the apical foramen by accident,
radial-landed rotaries will not engage and create an apical zip formation due
to their passive reaming action. However, actively cutting files should never be
used long to avoid the occurrence of apical zipping and perforation.
Preparation Quality
With Rotary Files

As stated before, excellent diagnostics including
the exposure and analysis of adequate radiographs
are important for successful rotary canal preparation. Clinicians need to
carefully evaluate root anatomy as well as the existence, extent and position of
canal curvatures. Additional radiographs and findings during the treatment
phase usually help to determine canal dimensions, curvatures and merging
points, which can all predispose rotary files to fracture.
Each NiTi rotary system has a specific, optimal way of use that should be
learned in a quality CE course. Following are a few general strategic principles
to help the practitioner safely and successfully use NiTi rotaries:
Clinical Strategies

Continued on p. 6

5

Fig. 3. Root canal anatomy and the effects of
canal shaping illustrated by microCT. Panel A
shows preparation with variably tapered files;
panel B with .04 and .06 files; and panel C with
oscillating tapered files.
Row 1 displays color-coded compound figures,
red indicating postoperative shapes and green
indicating preoperative canal systems. Mixed
colors indicate summation, i.e., no changes
during shaping.
Row 2 shows representative postoperative
cross sections in red superimposed
with preoperative canal shapes in green
(magnification indicated by white bars).
Rows 3 and 4 are three-dimensional renderings
of preoperative and postoperative canal
systems, respectively.
Reprinted with permission from Peters OA,
J Endodon 2004, 30:559.

EndodoNtics: Colleagues for Excellence

1. Access Preparation—poor access will promote
procedural errors. While generally important in root
canal preparation, adequate access is crucial for the
use of NiTi rotaries. Always attempt to create straightline access into the coronal or middle root canal third
prior to rotary use.
2. Don’t Force Files—NiTi rotaries require a passive
technique. If resistance is encountered, don’t force
the file! Stop immediately, and before continuing,
increase the coronal taper and recapitulate using
small stainless-steel hand files.
3. Difficult Canal Anatomy—canals representing
difficult anatomy should be detected, analyzed
and carefully instrumented with hand files prior to
introduction of rotaries.

Fig. 4. Two phases are distinct during the
preparation of curved canals with NiTi rotaries:
(sometimes called a hybrid technique). A reservoir
of NaOCl is deposited into the optimally prepared
access cavity. The coronal path of the canal is
then explored with K-files that are not precurved.
After a glide path is confirmed, an actively
cutting NiTi rotary may be used in a crown-down
approach limited to the extent of the straight
canal portion. After this canal segment is opened
and irrigated with NaOCl, subsequent small
K-files can progress apically, ultimately defining
patency and again confirming the accessible
canal space. Further NiTi rotaries are then used
in a second crown-down phase to prepare the
working length and finally enlarge to the desired
final apical size and taper. This is a basic concept
and modifications may be necessary depending
on the tooth being treated.

4. Don’t Overuse Files—“Once only” is the safest
number, but the actual stress accumulating in the
file depends upon the case. Therefore files may be
used for more than one canal, but may have to be replaced during shaping of one
particularly difficult canal. Inspect instruments frequently and discard any bent
rotaries.
5. Avoiding Breakage Takes Practice—rotary breakage occurs more often during
the initial stages of the learning curve. The clinician changing from stainless steel
to nickel titanium should take continuing education courses with experienced
clinicians and educators, followed by extensive in vitro practice on plastic blocks
and extracted teeth.
6. Don’t Try to Bypass Ledges—confirmation or creation of a pathway with straight
K-files is required prior to the use of any NiTi rotary.
7. Avoid Cutting With the Entire Length of File—the more file engaged in the root
canal, the higher potential for instrument fracture. This total or frictional fit of the
file in the canal will cause taper lock and fracture. Remember that an unnoticed
and broken rotary can cause serious procedural errors.
8. Don’t Start and Stop—sudden changes in the direction of a rotary caused by the
operator must be avoided. A smooth gentle reaming motion is most efficient;
rotaries should be inserted and withdrawn from a canal while rotating.
9. Length Control is Critical—working length should be well established and
controlled, as should the actual length of the file.

The importance of adequate, straight-line access to the root canals cannot
be overstated. Access into the root canal system needs to provide a direct
pathway into the orifices without weakening the remaining tooth structure.
Coronal flaring (9) facilitates direct access into the middle root canal third and
promotes access of irrigants.
Rotary files have noncutting tips; they should be advanced only into an
explored and open canal section. Therefore it is recommended a glide path be
created with stainless steel K-files, sizes 10, 15 and possibly 20 to the depth that
a subsequent rotary should go ( Figure 4).
As soon as this glide path is secured, NiTi rotaries are used in a “crown-

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EndodoNtics: Colleagues for Excellence

down” rather than in a “step-back” fashion. In other words, rotaries are used
from large to small sizes or tapers moving coronally to apically (Figure 4).
Any one file is advanced until a certain resistance is met and then withdrawn.
The next smaller rotary can then be advanced further; that way the canal is
sequentially prepared.
The apical canal portion is first explored with small K-files and prepared
up to a size #20 to working length, using a watch-winding or a Balanced Force
motion. This procedure is important as it secures an open glide path (10),
allowing a subsequent NiTi rotary to predictably reach working length.
The guidelines mentioned above may need to be modified to accommodate
particular canal types. Canals that abruptly curve or merge (Figure 5) cannot
easily be prepared with NiTi rotaries.
The extent and position of any curvature determines the strain and fatigue
a rotary is subjected to; a more coronally located and/or more acute curvature
precludes a file of larger taper and/or larger tip diameter to safely operate at
working length. Also, merging points and ribbon-shaped canal areas can lead
to deflection of a file tip into an unexplored canal area and subsequent file
fracture. An astute clinician needs to consider those situations carefully before
entering a canal with a rotary file.
Root canal preparation with NiTi rotaries is a very effective
and safe procedure. However, it demands understanding
of root canal anatomy and the usage principles of the selected rotary system.
Every canal needs to be evaluated on its own merit regarding length, width and
curvature. It is only then that an educated decision about the strategy for the
preparation of that particular canal can be made. NiTi rotary usage also requires
training provided in quality CE courses. Following the guidelines outlined
above allows clinicians to successfully prepare most root canals using nickeltitanium rotaries.
Conclusions

Fig. 5. Examples of root canal treatments done
with the aid of NiTi rotary files in cases of
difficult anatomy (red outlines). In all cases hand
files were also used.
A. Mandibular second molar with two canals that
merge.
B. Mandibular second molar with a C-shaped
canal system.
C. Maxillary first molar with acute curvature
mesiobuccally in the middle root third.
D. Mandibular molar with extreme apical curve in
the distal root.

References
1. Serene TP, Adams JD, Saxena A. Nickel-Titanium instruments: applications in Endodontics. St. Louis: Ishiaku EuroAmerica; 1995.
2. Peters OA. Current challenges and concepts in the preparation of root canal systems: A review. J Endodon 2004; 30:559-97.
3. Hülsmann M, Peters OA, Dummer PMH. Mechanical preparation of root canals: shaping goals, techniques and means. Endod Topics 2005;
10:30-76.
4. Spili P, Parahos P, Messer HH. The impact of instrument fracture on outcome of endodontic treatment. J Endodon 2005; 31:845-50.
5. Yared GM, Bou Dagher FE, Machtou P. Influence of rotational speed, torque and operator’s proficiency on ProFile failures. Int Endod J 2001;
34:47-53.
6. Bössler C, Peters OA, Zehnder M. Impact of lubricant parameter on rotary instrument torque and force. J Endodon 2007; 33:280-3
7. Berutti E, Angelini E, Rigolone M, Migliaretti G et al. Influence of sodium hypochlorite on fracture properties and corrosion of ProTaper
rotary instruments. Int Endod J 2006;39:693-9.
8. Sonntag D, Peters OA. Effect of prion decontamination protocols on Nickel-Titanium rotary surfaces. J Endodon 2007; 33:442-6
9. Leeb J. Canal orifice enlargement as related to biomechanical preparation. J Endodon 1983;9:463-70.
10. Patino PV, Biedma BM, Liebana CR, Cantatore G et al. The influence of a manual glide path on the separation of NiTi rotary instruments. J
Endodon 2005;31:114-6.

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EndodoNtics: Colleagues for Excellence

AAE COLLEAGUES ONLINE
Exclusive Bonus Materials
This issue of the ENDODONTICS: Colleagues for Excellence newsletter is available online at www.aae.org with the
following exclusive bonus material:
• Full-Text Article: Young GR, Parashos P, Messer HH. The principles of techniques for cleaning root canals. J Austral Dent
(Supplement) 2007;52:S52-63.
• Full-Text Article: Hülsmann M, Peters OA, Dummer PMH. Mechanical preparation of root canals: shaping goals,
techniques and means. Endod Topics 2005;30-76.
• Full-Text Article: Peters OA. Current Challenges and Concepts in the Preparation of Root Canal Systems: A Review J
Endodon 2004;30;559-567.
• Full-Text Article: Bergmans L, Van Cleynenbreugel J, Wevers M, Lambrechts P. Mechanical root canal preparation with
NiTi rotary instruments; rationale, performance and safety. Status report for the American Journal of Dentistry. Am J Dent
2001;14:324-33.
• “Ask the Author” Discussion Board for all of your questions and comments
• AAE Case Difficulty Assessment Form for a detailed preoperative analysis of teeth prior to the use of nickel-titanium
instruments
To access this exclusive content, click on Dental Professionals from the www.aae.org home page, and select Clinical
Topics from the menu. This issue, as well as all back issues of this newsletter, are available for your ongoing reference.

The AAE wishes to thank Dr. Ove A. Peters for authoring this issue of the newsletter, as well as the following article
reviewers: Drs. James A. Abbott, Jessica L. Barr, Gerald C. Dietz Jr., Gerald N. Glickman and Shepard S. Goldstein.
Do you have questions for the author? Visit the Dental Professionals section of the AAE Web site at www.aae.org/
dentalpro/clinicaltopics, and click on the link for this issue of ENDODONTICS: Colleagues for Excellence. Questions
and comments for the author can be posted to a special discussion board dedicated to this topic.

The information in this newsletter is designed to aid dentists. Practitioners must use their best professional judgment,
taking into account the needs of each individual patient when making diagnosis/treatment plans.The AAE neither expressly
nor implicitly warrants against any negative results, associated with the application of this information. If you would like
more information, you’re your endodontic colleague or contact the AAE.

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