Yasameen.doc


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Restorative Dentistry  57 
 

A Comparison of the Effectiveness of Reciprocating 
System with Continuous Rotary Systems in Non-Surgical 

Endodontic Retreatment (An In vitro study) 
 
Ayad M. Mahmoud Al-Obaidi, B.D.S., M.Sc. (1) 
Yasameen Hasan Motea, B.D.S., M.Sc. (1) 
 
ABSTARCT 
Background: Optimal root canal retreatment was required safe and efficient removal of filling material from root 
canal. The aim of this in vitro study was to compare the efficacy of reciprocating and continuous motion of four 
retreatment systems in removal of root canal filling material. 
Materials and Methods: Forty distal roots of the mandibular first molars teeth were used in this study, these roots were 
embedded in cold clear acrylic,roots were instrumented using crown down technique and rotary ProTaper systemize 
Sx to size F2 ,instrumentation were done with copiousirrigation of 2.5% sodium hypochlorite and 17% buffered solution 
of EDTA was used as final irrigant followed by distilledwater, roots were obturated with AH26 sealer and Protaper 
gutta-percha point F2 and medium fine accessory gutta-percha using lateral condensation technique,roots were 
left for 7 days with 100% humidity at 37ºC in an incubator. Roots were randomly divided into four groups according to 
technique used for removing the root filling material (ten teeth for each group): group I: reciprocating technique 
and Wave One system, group II: continuous technique and ProTaper retreatment system, group III: continuous 
technique and R-Endo system, group IV: continuous technique and D–RaCere treatment system. All the roots were 
radiographed before and after removal of gutta-percha from both bucco-lingual and mesiodistal directions using 
custom made platform and digital radiograph system RVG to havea digitized images. The total surface area of all 
root canals was measured before removal ofthe gutta-percha and the area of the remaining gutta-percha filling in 
the canals after retreatment procedure from both directions. These measurements were analyzed with Adobe 
Photoshop CS6 software, the percentage of removed gutta-percha calculated. 
Results: Statistical analysis was performed and the result showed group Ihad the highest mean values in removal of 
root canal filling material in both bucco-lingual and mesiodistal direction of dental radiograph and there were 
significant difference between group I and most of the other groups ,there were non significant difference between 
group II,group III and group IV. 
Conclusion: This study was showed all the used retreatment systems did notcompletely remove the root canal filling 
material. The reciprocating technique was most effective method for removing gutta-percha and sealer than 
continuous rotary technique. 
Key words: Retreatment, reciprocating motion, root canal filling, rotary instrument. (J Bagh Coll Dentistry 2016; 
28(1):57-62). 
 

INTRODUCTION  
Safe and efficient removal of the root canal 

filling material was essential for optimal root 
canal retreatment.  Ideally, all sealer androot canal 
material should be removed from canal walls to 
regain access to microorganisms and pulptissue 
remnants thatmightberesponsible for periapical 
inflammation and thus post treatment disease (1,2). 

Gutta-percha was the most commonly used 
root filling material in conjunction with a sealer. 
The proper removal of these materials from 
inadequately prepared and filled canals required a 
substantial effort and could be time-consuming 
and challenging. Nevertheless, performing this 
procedure effectively had an important clinical 
impact because the irrigating solutions and the 
instruments used during retreatment could reach 
the entire root canal system, thus promoting better 
cleaning and disinfection (3). 

Various techniques were used for removal of 
gutta-percha such as hand instruments with or 
without chemical solvents, rotary instruments, 
heat and ultrasonic devices (4,5). 
(1)Assistant Lecturer. Department of Conservative Dentistry, 

College of Dentistry, University of Baghdad. 

The nickel-titanium (NiTi) rotary instruments 
used for root filling removal and rootcanal 
retreatment had been widely investigated (6). Their 
use allowed gutta-percha removal with no 
solvent(7), thus prevented the formation of a thin 
film of gutta-percha on the walls of the root 
canal(8). 

A new concept was recently introduced, in 
whichcanal preparation was accomplished using a 
specificallydesigned nickel–titanium engine-
driven instrumentthat employed a reciprocating 
motion. The same techniquewas also indicated for 
retreatment purposes, inwhich the instruments 
were used with a brushingmotion against the 
lateral walls of the canal toremove any residual 
filling material (9,10). 

There were only a few reports analyzed the 
performance of reciprocating instruments in 
endodontic retreatment (11). 

Different methodologies had been used for the 
evaluation of the cleaning efficacy of different 
endodontic retreatment systems including 
longitudinal cleavage of teeth (12); association of 
longitudinal and transverse cleavage for 
evaluation in thirds and cleavage and 



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Restorative Dentistry  58 
 

photographic recordingor with the operating 
dental microscope (13,14). Others methods used 
radiographic examination with different computer 
software (15). 

 In the present study, radiographic evaluation 
of the retreatment techniques were used, this 
method is more reliable as splitting the roots 
might disturb the remaining filling material (16), 
bucco-lingual and mesiodistal images were taken 
and evaluated for each root to overcome the 
limitation of the radiographic images of providing 
only two dimensional information,. In accordance 
with other studies (17). The aim of this studywould 
be to evaluate the effectiveness of reciprocating 
system versus continuous rotary systems in 
endodontic retreatment. 
 
MATERIALS AND METHODS 

Forty extracted human distal roots of 
mandibular First molar with mature apices were 
selected for this study from the clinics of the 
University of Baghdad, College of Dentistry. The 
gender, pulpal status and reason for 
extractionwere not considered and criteria for 
teeth selection included the following: mature, 
centrally located apical foramen, Patent apical 
foramen, roots devoid of any, cracks, resorptions 
or fractures. 
 
Samples Preparation: 

The extracted teeth stored indistilledwater at 
room temperature any remnants of soft tissue and 
calculus on the external root surface were 
mechanically removedwithsharp periodontal 
curette. A magnifying eye lens and light cure 
device were used toverify the root surfacesfor any 
visible cracks orfractures.The teeth were 
decoronated at the cemento-enamel junction using 
a high speed diamond burwith straight handpiece 
and water spray and the distal roots separated 
from the mesial roots. 

Clear cold cure acrylic was mixed andplaced 
in a rubber mold where the rootswere embedded. 
A bench vice was used to achieve standardized 
position of the resin mounted roots throughout the 
whole procedure. 

Barbed broach was used toremovethe pulpal 
tissue and the working length of each canal 
established with size 15 K-file 1mm short of the 
anatomical apex. The canals were instrumented 
using a crown-down technique with Protaper NiTi 
rotary instruments (Sx-F2) (Densply, Maillefer/ 
Switzerland) and e3 torque control electricmotor 
(Dentsply, Tulsa) which was set according to 
manufacture’s instructions. Master apical file 
would be F2 for all canals. Alternative irrigation 
with total of 10 ml of 2.5% of sodiumhypochlorite 

(NaOCl) was used for irrigation and the smear 
layer was removed by irrigating with 5ml of 17% 
EDTA for 1 minute thenfollowed by a final rinse 
of 5 ml of distilledwater to avoid development of 
NaOC1 crystals. The canals were then dried with 
Protaper paper points F2. 
 
Canal Filling: 

AH 26 root canal sealerwas mixed according 
to the manufacturer’s instructions .The mixture 
had a homogenous creamy consistency with string 
out at least 1 inch when the spatula was raised 
slowly from the glass slab. The sealer was 
introduced into the canal using ProTaper paper 
point F2 by rotating the paper point twice counter 
clock wise to coat the canal walls by thin film of 
sealer.The canals werefilled using the lateral 
condensationtechnique. The tip of master gutta-
percha cone corresponding to the last file size F2 
(Densply, Maillefer/ Switzerland) was dipped into 
the sealer and placed into canal. The previously 
checked finger spreaderwere used for lateral 
compaction of the master conecreating a space for 
an additional accessory cone.Medium-fine 
accessory gutta-percha cones were laterally 
compacted until the spreader could not introduced 
deeper than 2-3 mm into the root canalorifice. A 
heated plugger was used to cut the gutta-percha at 
the entrance of the canal. Each canal orifice was 
sealed by temporary filling. Prior to temporary 
filling placement the specimens were radiographed 
in bucco-lingual and mesiodistal directions to 
confirm the adequacy of the root canal obturation 
and these radiograph images were used later to make 
measurements of total canals area. All roots were 
left for 7 days with 100% humidity at 37ºC in an 
incubator. 
 
Retreatment Techniques: 

The coronal 2-mm of each root canal filling 
was removed using GatesGlidden burs 2 and 3 
(Dentsply, Maillefer). Gutta-percha obturation 
material was then easily removed from the canal 
with rotary retreatment files systems.Each rotary 
system wasused withe3torque control electric 
motor (Dentsply, Tulsa).The torque and speed 
settings for each filewere used as recommended 
by the manufacturer. A total volume of 25 mL 
of2.5% NaOCl was delivered from aneedle 
with30-gauge (tip size 25) during retreatment 
procedure then the canals were dried with paper 
points. 

The roots were randomly divided into four 
groups of ten roots each. 
Group I: 

Gutta-percha obturation material was removed 
from the canal with the primary wave one file #25 
thatwasapplied in a reciprocating motion. The 



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Restorative Dentistry  59 
 

silicone stopper was set on the primary wave one 
file (Dentsply, Maillefer) at 2/3 of the estimated 
canal length. Primary wave one file was 
introduced into the canal with a slow in-and-out 
pecking motion without pulling the instrument 
completely out of the canal. The amplitude of the 
in- and out- movement did notexceed 3-4 mm. 
Gentle apical pressure wascombined with a 
brushing action against the lateralwalls. The 
instrument advanced easily in the obturation 
material and the canal in an apical direction. After 
maximum three in- and out-movements, or when 
more pressure was needed to make the instrument 
advance further in the canal, or when resistance 
was encountered, the instrument was pulled out of 
the canal to clean the flutes.The canal was 
copiously irrigated with sodium hypochlorite. 
Primary wave one filewas used in the same 
manner until it has reached 2/3 of the estimated 
working length as indicated by the stopper on the 
instrument. The instrument is then removed from 
the canal; the canal was irrigated. This procedure 
was repeated until the instrument reached original 
working length. 
Group II:  

The ProTaper retreatment instruments (D1, 
D2, D3) (Dentsply, Maillefer) of which the tapers 
and tip diameters were equivalent to size 
0.09/0.30mm, 0.08/0.25mm, and 0.07/0.020mm 
respectively were used sequentiallyfor removing 
gutta-percha from each root canal in a crown-
down technique each filewere used as 
recommended by manufacturer then apical 
enlargement was performed with finishing file F2. 
Group III: 

The R-Endo instruments (R1, R2 and R3) 
(Micro-Mega, France) were used sequentially to 
remove gutta-percha and its sealer in abrushing 
circumferential movement as recommended bythe 
manufactures. The three instruments have the 
same tip size equivalent to no 25 but with 
different tapers; 0.08 for R1, 0.06 for R2, 0.04 for 
R3. R3 prepares the canal at 0.04 taper so the R2 
file was used again to the full working length to 
establish the 0.06 taper. An HERO Shaper file no 
25 (Micro Mega Besancon, France) was used as a 
finishing file to the full length of the canal. 
Group IV: 

The D – RaCere treatment instruments (DR1, 
DR2) (FKG Dentaire, Swiss Dental Products) of 
which the tapers and tip diameters were 
equivalent to size 10% ISO 30, 4% ISO 25 
respectively were used sequentially in a crown-
down technique for removing gutta-percha from 
each canal.Finalapical enlargement was 
performed with RaCe file size 25. 

Removal of filling material was judged completed 
when no gutta-percha or sealer on the last 
instrument used andthe working length was 
reached. 
 
Evaluation of Effective Gutta-Percha Removal: 

All the roots were radiographed before and 
after removal of gutta-percha from both bucco-
lingual and mesiodistal directions using custom 
made platform and digital radiograph system 
RVG to have a digitized image. Radiographic 
platform provided standardized position for 
periapical films, root blocks and x-ray cone. The 
source-film distance was adjusted to 18cm 
between X- ray source and the object and the 
exposure time was 0.12 sec.  

The total surface area of all root canals were 
measured before removal of gutta-percha (figure. 
1) and the area of the remaining gutta-percha 
filling in the canals after retreatment procedure 
(figure 2) from both directions. These 
measurements were analyzed with adobe 
Photoshop CS6 software and specific software 
tool (magnetic lasso)was used tooutline the total 
canal areaand the filling debris area(Fig 3).The 
software was calibrated to convert pixels into 
actual millimeter units. A measurement scale was 
made to have area in mm2. 

The percentage of removed gutta-percha 
calculated by the following equations: 

Area of removed gutta-percha= area of gutta-
percha before removal – area of remnant gutta-
percha after removal  

Percent of gutta-percha removal=(area of 
removed gutta-percha/area of gutta-percha before 
removal)*100. 
 

Figure 1: The Use of Adobe Photoshop CS6 
Software and Magnetic Lasso Tool to 

Measure the Total Canal Area. 
 
 



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Restorative Dentistry  60 
 

Figure 2: The Use of Adobe Photoshop CS6 
Software and magnetic Lasso Tool to 

Measure the Area of the Remaining Filling 
Debris Area. 

 
 
 
 
 
 
 
 
 
 
 
 
 
 

Figure 3: Radiograph to Trace Remaining 
Filling Material in Both Bucco-Lingual and 

Mesio-Distal Directions by the Use of 
magnetic Lasso Tool. 

 
RESULTS 

The present study showed the following results 
(table 1): in bucco-lingual direction, the highest 
and the lowest mean values for of the percentage 
of root canal filling removalwere seen at group I 
Wave One system (79.90) and group IV D–RaCe 
system (66.85) respectively. In mesiodistal 
direction, the highest and the lowest mean values 
for of the percentage of root canal filling 
removalwere seen at group I Wave One system 
(76.74) and group II ProTaper Retreatment system 
(64.46) respectively.The rest mean values for the 
study groups were fluctuating between these 
values.  

To compare between the four retreatment 
systems ANOVA test and the least significance 
difference test (LSD) were performed to evaluate 

the significant differences between each two 
retreatment system for their effectiveness in 
removal of root canal filling materialsthe results 
showed the following, in bucco-lingual direction 
(table 2): 
1- There were significant difference (p <0.05) 

between group I (Wave One) and group II 
(ProTaper Retreatment), group IV (D – RaCe). 

2- There was non-significant difference (p >0.05) 
between group I (Wave One) and group III (R-
Endo). 

3- There were non significant difference (p 
>0.05) between group II (ProTaper 
Retreatment) and group III (R-Endo), group 
IV (D – RaCe). 

4- There were non significant difference (p 
>0.05) between group III (R-Endo) and group 
IV (D – RaCe).  
The results showed the following, in mesio-

distal direction (table 2): 
1- There were significant difference (p <0.05) 

between group I (Wave One) and group II 
(ProTaper Retreatment) , group III (R-Endo). 

2- There were non significant difference (p 
>0.05) between group I (Wave One) and group 
IV (D – RaCe). 

3- There were non significant difference (p 
>0.05) between group II (ProTaper 
Retreatment) and group III (R-Endo), group 
IV (D – RaCe). 

4- There were non significant difference (p 
>0.05) between group III (R-Endo) and group 
IV (D – RaCe). 

 
Table 1: Mean Value and Standard 

Deviation of Four Retreatment Techniques. 
Studied  
groups N 

Bucco-lingual 
(BL) 

Mesiodistal 
(MD) 

Mean% +SD Mean% +SD 
Wave One 10 79.90 6.52 76.74 8.31 
ProTaper 

Retreatment 10 71.48 12.33 64.46 9.73 

R-Endo 10 74.01 11.82 66.46 11.32 
D – RaCe 10 66.85 14.75 67.75 14.85 

 
DISCUSSION 

Nonsurgical endodontic retreatment was aimed 
to remove the contaminated filling material and 
the remnants pulp tissue or bacteria that might 
because the previous treatment to fail (18).  

Success rates of nonsurgical endodontic 
retreatment were ranged from 40% to100% (19). 
This variability might be related to different 
factors: the techniques that were used to remove 
the filling materials (20), the repairing possibility 
of pathologic or iatrogenic defects and the 
alterations in the natural course of the root 



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Restorative Dentistry  61 
 

canals(21).   Removal of sealers and   gutta-percha   
from  

Table 2: The Least Significance Difference 
Test (LSD) of the Percentage of Root Canal 

Filling Removal between the Four 
Retreatment Techniques. 

Studied 
 groups 

(LSD test) 
Bucco-
lingual  
(BL) 

(LSD test) 
Mesio-
distal 
(MD) 

p-
value Sig. 

p-
value Sig. 

Wave  
One 

ProTaper .028 S .020 S 
R-Endo .094 N.S .050 S 

D – RaCe .024 S .084 N.S 
Pro 

Taper 
R-Endo .579 N.S .694 N.S 

D – RaCe .942 N.S .521 N.S 
R-Endo D – RaCe .530 N.S .802 N.S 

*S =significant*N.S= non significant 
 
inadequately filled root canal systems was 
essential in root canal retreatment as it was 
unlikely to uncover remaining necrotic tissue or 
bacteria that might be the cause for periapical 
inflammation and post treatment disease (22).  

A number of new endodontic materials 
hadbeen introduced in the last few years among 
them wasthe resin based sealer (23). Despite the 
material wasacclaimed to have superior 
properties, regarding its adherence to the tooth 
structure, no obturation system yet claimedto have 
a 100% success rate and a number of reasons 
would necessitate the retreatment of filled 
teeth(24). 

The present study evaluated the effectiveness 
of retreatmenttechniquesinremoval of gutta-
percha and AH26 resin sealers. 

All specimens were obturated using lateral 
condensation technique to condense ProTaper GP 
point (F2), as it showedbetter treatment outcome 
(prevent bacterial penetration of the root canal) 
than single ProTaper GP point which 
wasinaccordance with study performed by Yucel 
and Ciftci in 2006. 

Retreatment solvents were notused in this 
study because the combined use of solvents 
androtary files complicatedthe debridementof the 
root canal, the solvents dissolved flowed into and 
coated canal irregularities or penetrated into the 
peri-radicular tissues (25). 

Previous studies suggested that further root 
canal refining is necessary afterusing retreatment 
systemsbecause of the apical diameter of the last 
instrument was designed to reach the working 
length, but it did not permit a complete cleaning 
action (26). In the present study finishing files were 
used at the end of the retreatment procedure 

forrotary instruments to properly enlarged the 
canal, F2, HERO Shaper file no 25 and RaCe file 
size 25 as recommended by the manufactures. 

Reciprocating systems were an interesting 
alternative for removal of root fillings in 
retreatment cases. However, few studies had 
investigated the efficiency of reciprocating 
systems for emptying filled root canals (27). 

The findings of the present study showed that 
the use of group I (Wave One) with reciprocating 
motion was more efficient in removal of root 
canal filling materials in both bucco-lingual and 
mesiodistal direction of dentalradiographthese 
results might be attributed to that Wave One file 
was used with reciprocating movement with 
unequal clockwise and counter clockwise rotation 
based on reverse balanced force technique (28). 
These reciprocating movements caused 
engagement of the filling material with the first 
motion and dislodgment of the filling from the 
canals via the second motion. 

The other retreatment systems used in the 
other groups with continuousrotation motion 
showed less efficiency in removing of root canal 
filling materials and these results vary according 
to difference in taper, design and cross section of 
each retreatment systems. Different 
methodologies had been used for the evaluation of 
the remaining filling material, in this study 
radiographic examination with computers 
software which were more appropriate than other 
methods such as longitudinal cleavage of the root 
which might cause displacement of the filling 
debris that was to be evaluated, which would 
compromise the accuracy of the measurements(29). 
To overcome the limitation of the radiographic 
images that provided only two dimensional 
information, bucco-lingual and mesiodistal 
images were taken and evaluated for each root. 
This is in accordance with other studies (30). 

Within the limitation of the present study 
remnants of filling material were observed in all 
samples regardless of the groups examined. 
Rotaryretreatment instrumentsused with 
continuous motion were not as effective in 
removing filling material remnants as the 
reciprocating instrument. The reciprocating 
technique was most effective method for 
removing gutta-percha and sealer than 
continuousrotary technique. 
 
 
 
 
 



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Restorative Dentistry  62 
 

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