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The efficacy of the self-adjusting file and ProTaper for removal of calcium hydroxide from root canals

Abstract

OBJECTIVE:

The goal of this study was to evaluate the efficacy of the Self-Adjusting File (SAF) and ProTaper for removing calcium hydroxide [Ca(OH)2] from root canals.

MATERIAL AND METHODS:

Thirty-six human mandibular incisors were instrumented with the ProTaper system up to instrument F2 and filled with a Ca(OH)2-based dressing. After 7 days, specimens were distributed in two groups (n=15) according to the method of Ca(OH)2 removal. Group I (SAF) was irrigated with 5 mL of NaOCl and SAF was used for 30 seconds under constant irrigation with 5 mL of NaOCl using the Vatea irrigation device, followed by irrigation with 3 mL of EDTA and 5 mL of NaOCl. Group II (ProTaper) was irrigated with 5 mL of NaOCl, the F2 instrument was used for 30 seconds, followed by irrigation with 5 mL of NaOCl, 3 mL of EDTA, and 5 mL of NaOCl. In 3 teeth Ca(OH)2 was not removed (positive control) and in 3 teeth canals were not filled with Ca(OH)2 (negative control). Teeth were sectioned and prepared for the scanning electron microscopy. The amounts of residual Ca(OH)2 were evaluated in the middle and apical thirds using a 5-score system.

RESULTS:

None of the techniques completely removed the Ca(OH)2 dressing. No difference was observed between SAF and ProTaper in removing Ca(OH)2 in the middle (P=0.11) and the apical (P=0.23) thirds.

CONCLUSION:

The SAF system showed similar efficacy to rotary instrument for removal of Ca(OH)2 from mandibular incisor root canals.

Calcium hydroxide; Endodontics; Root canal therapy; Irrigation


INTRODUCTION

The use of calcium hydroxide [Ca(OH)2] as intracanal dressing has been recommended to induce apexification, to control internal and external inflammatory root reabsorption and in the treatment of necrotic teeth with periapical lesions22- Ayna B, Ayna E, Celenk S. Endodontic and prosthetic treatment of teeth with periapical lesions in a 16-year-old-girl. J Appl Oral Sci. 2010;18:201-6. , 66- Faria G, Nelson-Filho P, Freitas AC, Assed S, Ito IY. Antibacterial effect of root canal preparation and calcium hydroxide paste (Calen) intracanal dressing in primary teeth with apical periodontitis. J Appl Oral Sci. 2005;13:351-5. , 77- Faria G, Silva RA, Fiori-Junior M, Nelson-Filho P. Re-eruption of traumatically intruded mature permanent incisor: case report. Dent Traumatol. 2004;20:229-32. , 1717- Mohammadi Z, Dummer PM. Properties and applications of calcium hydroxide in endodontics and dental traumatology. Int Endod J. 2011;44:697-730.. However, failing to completely remove the dressing may interfere with the seal, adhesion, and penetration of endodontic sealers44- Barbizam JV, Trope M, Teixeira EC, Tanomaru-Filho M, Teixeira FB. Effect of calcium hydroxide intracanal dressing on the bond strength of a resin-based endodontic sealer. Braz Dent J. 2008;19:224-7. , 55- Calt S, Serper A. Dentinal tubule penetration of root canal sealers after root canal dressing with calcium hydroxide. J Endod. 1999;25:431-3. , 1414- Margelos J, Eliades G, Verdelis C, Palaghias G. Interaction of calcium hydroxide with zinc oxide-eugenol type sealers: a potential clinical problem. J Endod. 1997;23:43-8., adversely affecting the clinical performance of the sealer and possibly the long-term prognosis of root canal therapy1414- Margelos J, Eliades G, Verdelis C, Palaghias G. Interaction of calcium hydroxide with zinc oxide-eugenol type sealers: a potential clinical problem. J Endod. 1997;23:43-8..

The most commonly described method for Ca(OH)2 removal is the use of a master apical file at working length combined with the use of sodium hypochlorite (NaOCl) irrigation and EDTA33- Balvedi RP, Versiani MA, Manna FF, Biffi JC. A comparison of two techniques for the removal of calcium hydroxide from root canals. Int Endod J. 2010;43:763-8. , 1313- Lambrianidis T, Margelos J, Beltes P. Removal efficiency of calcium hydroxide dressing from the root canal. J Endod. 1999;25:85-8. , 2020- Rödig T, Vogel S, Zapf A, Hülsmann M. Efficacy of different irrigants in the removal of calcium hydroxide from root canals. Int Endod J. 2010;43:519-27. , 2121- Salgado RJ, Moura-Netto C, Yamazaki AK, Cardoso LN, Moura AA, Prokopowitsch I. Comparison of different irrigants on calcium hydroxide medication removal: microscopic cleanliness evaluation. Oral Surg Oral Med Oral Pathol Oral Radiol Endod. 2009;107:580-4. , 2323- Victorino FR, Bramante CM, Zapata RO, Casaroto AR, Garcia RB, Moraes IG, et al. Removal efficiency of propolis paste dressing from the root canal. J Appl Oral Sci. 2010;18:621-4.. Rotary instruments1111- Kenee DM, Allemang JD, Johnson JD, Hellstein J, Nichol BK. A quantitative assessment of efficacy of various calcium hydroxide removal techniques. J Endod. 2006;32:563-5. , 1212- Kuga MC, Tanomaru-Filho M, Faria G, Só MV, Galletti T, Bavello JR. Calcium hydroxide intracanal dressing removal with different rotary instruments and irrigating solutions: a scanning electron microscopy study. Braz Dent J. 2010;21:310-4., sonically or ultrasonically-activated tips33- Balvedi RP, Versiani MA, Manna FF, Biffi JC. A comparison of two techniques for the removal of calcium hydroxide from root canals. Int Endod J. 2010;43:763-8. , 2424- Wiseman A, Cox TC, Paranjpe A, Flake NM, Cohenca N, Johnson JD. Efficacy of sonic and ultrasonic activation for removal of calcium hydroxide from mesial canals of mandibular molars: a microtomographic study. J Endod. 2011;37:235-8., and devices such as the CanalBrush2222- Tasdemir T, Celik D, Er K, Yildirim T, Ceyhanli KT, Yesilyurt C. Efficacy of several techniques for the removal of calcium hydroxide medicament from root canals. Int Endod J. 2011;44:505-9. in conjunction with irrigation have also been recommended. None of these methods, however, have been able to completely remove Ca(OH)2 from the root canal, especially in the apical third33- Balvedi RP, Versiani MA, Manna FF, Biffi JC. A comparison of two techniques for the removal of calcium hydroxide from root canals. Int Endod J. 2010;43:763-8. , 1111- Kenee DM, Allemang JD, Johnson JD, Hellstein J, Nichol BK. A quantitative assessment of efficacy of various calcium hydroxide removal techniques. J Endod. 2006;32:563-5..

The Self-Adjusting File - SAF (ReDent-Nova, Ra'anana, Israel) is a hollow cylindrical file recently launched in the market. Its thin compressible walls are made of a nickel-titanium mesh, allowing its shape to adapt to root canal's along the cross-section, as well as longitudinally. Therefore, the SAF will three-dimensionally conform to canals with circular or oval cross-section, allowing maintenance of the original canal shape. Moreover, the design of SAF allows continuous flow of irrigant through its hollow file, while the solution is continuously activated by its vibrating motion1515- Metzger Z, Teperovich E, Cohen R, Zary R, Paqué F, Hulsmann M. The self-adjusting file (SAF). Part 3: removal of debris and smear layer - a scanning electron microscope study. J Endod. 2010;36:697-702. , 1616- Metzger Z, Teperovich E, Zary R, Cohen R, Hof R. The selfadjusting file (SAF). Part 1: respecting the root canal anatomy - a new concept of endodontic files and its implementation. J Endod. 2010;36:679-90..

According to Gu, et al.88- Gu LS, Kim JR, Ling J, Choi KK, Pashley DH, Tay FR. Review of contemporary irrigant agitation techniques and devices. J Endod. 2009;35:791-804. (2009), the continuous flow of fresh irrigant in conjunction with the vibrating motion may have positive effects on the cleaning ability, especially on the apical third of the root canal system, generally the most difficult portion to clean. Previous works have shown that SAF is efficacious for removing smear layer and debris, especially in the apical third11- Adigüzel O, Yigit-Özer S, Kaya S, Uysal I, Ganidagli-Ayaz S, Akkus Z. Effectiveness of ethylenediaminetetraacetic acid (EDTA) and MTAD on debris and smear layer removal using a selfadjusting file. Oral Surg Oral Med Oral Pathol Oral Radiol Endod. 2011;112:803-8. , 1010- Kaya S, Yigit-Özer S, Adigüzel Ö. Evaluation of radicular dentin erosion and smear layer removal capacity of Self-Adjusting File using different concentrations of sodium hypochlorite as an initial irrigant. Oral Surg Oral Med Oral Pathol Oral Radiol Endod. 2011;112:524-30. , 1515- Metzger Z, Teperovich E, Cohen R, Zary R, Paqué F, Hulsmann M. The self-adjusting file (SAF). Part 3: removal of debris and smear layer - a scanning electron microscope study. J Endod. 2010;36:697-702..

Due to SAF's irrigation system and its ability to adapt to root canals with different shapes, this system may represent an efficient method for removal of Ca(OH)2 from root canals.

The goal of the present study was to evaluate, by scanning electron microscopy (SEM), the efficacy of SAF in comparison to ProTaper in the removal of Ca(OH)2 from root canals.

MATERIAL AND METHODS

The Ethics Committee of the Institution in which the study was carried out approved the project and the use of extracted teeth from its teeth bank for research purpose (Process number 58/11). Thirty-six freshly extracted permanent human mandibular incisors with lengths varying from 19 to 21 mm were selected after radiographs were taken in both buccolingual and mesiodistal directions. Exclusion criteria were: root canals allowing introduction of an instrument exceeding ISO size 10 to the apical foramen, teeth presenting apical curvature or two root canals, teeth with previous endodontic treatment and presence of external or internal root reabsorption.

A small amount of composite resin (Z-100, 3M/ESPE, Salt Lake City, UT, USA) was placed on each root tip to prevent irrigant extrusion from the apical foramen during root canal preparation and Ca(OH)2 removal.

After coronal access, the cervical and middle thirds were prepared using S1 and SX instruments (ProTaper System - Dentsply Maillefer, Ballaigues, Switzerland). The working length was established as 1.0 mm shorter than the canal length. Biomechanical preparation of the root canals was performed using ProTaper Universal rotary system (Dentsply Maillefer) from S1 to F2 driven at 250 rpm with 1.6 N/cm of torque using an electric engine (X-Smart; Dentsply Maillefer) under irrigation with 2.5% NaOCl. After biomechanical preparation, the root canals were irrigated with 5 mL of 17% EDTA (Biodinâmica, Ibiporã, PR, Brazil) followed by 5.0 mL of 2.5% NaOCl, dried with absorbent paper points, and filled with Ca(OH)2 paste (Calen; S.S.White Artigos Dentários Ltda., Rio de Janeiro, RJ, Brazil), employing a Lentulo spiral. Radiographs were taken from a mesiodistal orientation, in order to confirm complete filling of the root canals. The coronal access cavities were sealed with a cotton pellet and Coltosol (Coltène, WhaleDent, Switzerland). All specimens were kept in a closed box with 100% relative humidity at 37ºC for 7 days. After this period, the temporary coronal seal was removed and specimens were randomly distributed into 2 groups (n=15), according to the method used for Ca(OH)2 removal. In 3 teeth, Ca(OH)2 was not removed (positive control) and another 3 teeth were not filled with Ca(OH)2 (negative control).

The Ca(OH)2 dressing was removed by a single operator in the following sequences:

Group I (SAF): After irrigating the root canal with 5 mL of 2.5% NaOCl, the SAF was operated in root canal for 30 seconds under constant irrigation with 5 mL of 2.5% NaOCl. The SAF was operated with a vibrating hand piece at an amplitude of 0.4 mm and 5,000 vibrations/min, attached to a special irrigation device (Vatea, ReDent-Nova)1616- Metzger Z, Teperovich E, Zary R, Cohen R, Hof R. The selfadjusting file (SAF). Part 1: respecting the root canal anatomy - a new concept of endodontic files and its implementation. J Endod. 2010;36:679-90. , 1818- Peters OA, Boessler C, Paqué F. Root canal preparation with a novel nickel-titanium instrument evaluated with micro-computed tomography: canal surface preparation over time. J Endod. 2010;36:1068-72. that provided continuous flow of the irrigation solution at a rate of 10 mL/min. An in-and-out manual motion was continuously performed by the operator. After that, canals were irrigated with 3 mL of 17% EDTA, followed by 5 mL of 2.5% NaOCl.

Group II (ProTaper): After root canal irrigation with 5 mL of 2.5% NaOCl, the ProTaper F2 instrument was used for 30 seconds, followed by irrigation with 5 mL of 2.5% NaOCl, 3 mL of 17% EDTA and 5 mL of 2.5% NaOCl. The ProTaper instrument was driven at 250 rpm with 1.6 N/cm of torque using an electric engine (X-Smart; Dentsply Maillefer).

For both groups, the irrigating solutions were placed in 5 mL syringes attached to a 30-gauge needle (Ultradent, South Jordan, UT, USA), which was placed 2 mm short of the working length. Canals were irrigated in an up-and-down motion, except during the use of SAF. The solutions were suctioned with a NaviTip (Ultradent), and the root canals were dried with absorbent paper points. All specimens were prepared by a single operator.

SEM evaluation

Longitudinal grooves were cut on the mesial and distal root surfaces with a diamond disk, preserving the inner shelf of dentin surrounding the canal. Roots were then sectioned using a chisel and a hammer. For SEM analysis, the specimens were dehydrated, fixed on aluminum stubs, sputter-coated with gold, and examined under a scanning electron microscopy at 20 kV (EVO 50, Carl Zeiss, Oberkochen, Germany). The residual Ca(OH)2 was visualized under 500x magnification at 4 different fields in the apical and middle thirds. After general evaluation of the canal wall, 2 representative SEM photomicrographs were taken under 500x magnification at the middle and apical thirds of each specimen. The amount of Ca(OH)2 debris was scored using the following system: 1 - clean root canal wall, with only a few small debris particles; 2 - few small agglomerations of debris; 3 - many agglomerations of debris covering less than 50% of the root canal wall; 4 - more than 50% of the root canal wall covered by debris; and 5 - root canal wall completely or almost completely covered by debris99- Hülsmann M, Rümmelin C, Schäfers F. Root canal cleanliness after preparation with different endodontic handpieces and hand instruments: a comparative SEM investigation. J Endod. 1997;23:301-6.. Four calibrated examiners analyzed, independently and in a blind manner, Ca(OH)2. Ten specimens were examined for calibration purpose. The scores were compared, and when a difference was found, the evaluators jointly examined the sample and its scoring, reaching an agreed score.

Data were analyzed by the Mann-Whitney non-parametric test at 5% significance level, using the Graph Pad Prism 5 software (Graph Pad Software In., San Diego, California, USA).

RESULTS

None of the techniques was able to completely remove the Ca(OH)2 dressing. Figure 1 shows the comparison between groups. No difference was observed between SAF and ProTaper in removing Ca(OH)2 in the middle (P=0.11) and the apical (P=0.23) thirds. The negative controls had no residues on the dentinal walls and the positive controls had the root canals completely filled with Ca(OH)2. SEM images representing the middle and apical thirds of each group are shown in Figure 2.

Figure 1
Comparison of the efficacy of Self-Adjusting File (SAF) and ProTaper for removal of Ca(OH)2 from the root canal. ns=non-significant
Figure 2
Scanning electron microscopy images representative of the Self-Adjusting File (A=middle third; B=apical third) and ProTaper (C=middle third; D=apical third) groups showing calcium hydroxide residues (arrows). A and C are representative of score 2: few small agglomerations of debris. B and D are representative of score 3: many agglomerations of debris covering less than 50% of the root canal wall. Scale bar=100 μm

DISCUSSION

This study evaluated the efficacy of SAF compared with ProTaper rotary instrument for removal of a Ca(OH)2 dressing from root canals in mandibular incisors. SAF showed similar efficacy to ProTaper in removing Ca(OH)2.

Use of rotary instruments in conjunction with irrigation has been recommended for removal of Ca(OH)2 from root canals1111- Kenee DM, Allemang JD, Johnson JD, Hellstein J, Nichol BK. A quantitative assessment of efficacy of various calcium hydroxide removal techniques. J Endod. 2006;32:563-5. , 1212- Kuga MC, Tanomaru-Filho M, Faria G, Só MV, Galletti T, Bavello JR. Calcium hydroxide intracanal dressing removal with different rotary instruments and irrigating solutions: a scanning electron microscopy study. Braz Dent J. 2010;21:310-4.. However, the authors do not specify the length of time for which the instrument was used: these studies only mention the use of this type of instrument1212- Kuga MC, Tanomaru-Filho M, Faria G, Só MV, Galletti T, Bavello JR. Calcium hydroxide intracanal dressing removal with different rotary instruments and irrigating solutions: a scanning electron microscopy study. Braz Dent J. 2010;21:310-4. or their insertion to work length1111- Kenee DM, Allemang JD, Johnson JD, Hellstein J, Nichol BK. A quantitative assessment of efficacy of various calcium hydroxide removal techniques. J Endod. 2006;32:563-5. during the procedure. In the present study, after testing different lengths of time of SAF and ProTaper use for removal of Ca(OH)2 from root canals, the time selected was 30 seconds. This option was due to the fact that after 30 second, no Ca(OH)2 residues were observed in the solution suctioned from the root canal. Moreover, when compared with the usual time necessary for root canal instrumentation with SAF, 4 minutes1616- Metzger Z, Teperovich E, Zary R, Cohen R, Hof R. The selfadjusting file (SAF). Part 1: respecting the root canal anatomy - a new concept of endodontic files and its implementation. J Endod. 2010;36:679-90., 30 seconds would have little or no impact on canal shape.

Achievement of thoroughly clean root canals depends on effective irrigant delivery, solution agitation88- Gu LS, Kim JR, Ling J, Choi KK, Pashley DH, Tay FR. Review of contemporary irrigant agitation techniques and devices. J Endod. 2009;35:791-804., and its direct contact with the entire canal wall, particularly in the apical third88- Gu LS, Kim JR, Ling J, Choi KK, Pashley DH, Tay FR. Review of contemporary irrigant agitation techniques and devices. J Endod. 2009;35:791-804. , 2525- Zehnder M. Root canal irrigants. J Endod. 2006;32:389-98.. SAF utilizes an irrigation device (Vatea; ReDent-Nova) which provides continuous flow of the irrigant during use. Since SAF is a hollow file, the irrigant enters the full length of the canal and is activated by the vibrating motion of the file's metal lattice, reportedly facilitating its cleaning and debridement effects1515- Metzger Z, Teperovich E, Cohen R, Zary R, Paqué F, Hulsmann M. The self-adjusting file (SAF). Part 3: removal of debris and smear layer - a scanning electron microscope study. J Endod. 2010;36:697-702.. Moreover, SAF is able to adapt three-dimensionally to the shape of the root canal1616- Metzger Z, Teperovich E, Zary R, Cohen R, Hof R. The selfadjusting file (SAF). Part 1: respecting the root canal anatomy - a new concept of endodontic files and its implementation. J Endod. 2010;36:679-90., and thus is expected to adapt to root canals prepared using any files, not necessarily SAF, during removal of Ca(OH)2.

According to the literature, the success of SAF for removal of debris and smear layer, especially in the apical third11- Adigüzel O, Yigit-Özer S, Kaya S, Uysal I, Ganidagli-Ayaz S, Akkus Z. Effectiveness of ethylenediaminetetraacetic acid (EDTA) and MTAD on debris and smear layer removal using a selfadjusting file. Oral Surg Oral Med Oral Pathol Oral Radiol Endod. 2011;112:803-8. , 1010- Kaya S, Yigit-Özer S, Adigüzel Ö. Evaluation of radicular dentin erosion and smear layer removal capacity of Self-Adjusting File using different concentrations of sodium hypochlorite as an initial irrigant. Oral Surg Oral Med Oral Pathol Oral Radiol Endod. 2011;112:524-30. , 11- Adigüzel O, Yigit-Özer S, Kaya S, Uysal I, Ganidagli-Ayaz S, Akkus Z. Effectiveness of ethylenediaminetetraacetic acid (EDTA) and MTAD on debris and smear layer removal using a selfadjusting file. Oral Surg Oral Med Oral Pathol Oral Radiol Endod. 2011;112:803-8. , may be due to the vibrating motion of the file within the continuously replaced fluid, allied to the scrubbing effect of the file lattice against the root canal dentin1010- Kaya S, Yigit-Özer S, Adigüzel Ö. Evaluation of radicular dentin erosion and smear layer removal capacity of Self-Adjusting File using different concentrations of sodium hypochlorite as an initial irrigant. Oral Surg Oral Med Oral Pathol Oral Radiol Endod. 2011;112:524-30.. Under the conditions of the present study, SAF used for 30 seconds showed similar efficacy to ProTaper in removing Ca(OH)2, regardless of the root third analyzed. It is possible that longer times of SAF use may remove more Ca(OH)2 by increasing the amount of time contact with the canal walls, as well as the amount of time of irrigant activation.

The rotary instrument shows efficacy similar to passive ultrasonic irrigation in removing Ca(OH)2 from root canals and removes significantly more Ca(OH)2 than only traditional needle irrigation. The explanation for this is that while the irrigants alone could not penetrate well into the apical third, the rotary instrument reaches the apical third of root canals favoring the Ca(OH)2 removal1111- Kenee DM, Allemang JD, Johnson JD, Hellstein J, Nichol BK. A quantitative assessment of efficacy of various calcium hydroxide removal techniques. J Endod. 2006;32:563-5..

A recent study used ProTaper or K3 Endo rotary instruments combined with NaOCl or EDTA to remove Ca(OH)2 from the root canals and showed that ProTaper was more effective than K3 Endo regardless of the irrigating solution used. The best results of ProTaper could be explained because the biomechanical preparation of root canals was performed with the ProTaper rotary system and consequently the ProTaper instrument had a better adaptation than K3 Endo instrument to the root canal walls1212- Kuga MC, Tanomaru-Filho M, Faria G, Só MV, Galletti T, Bavello JR. Calcium hydroxide intracanal dressing removal with different rotary instruments and irrigating solutions: a scanning electron microscopy study. Braz Dent J. 2010;21:310-4..

Various irrigants such as NaOCl and EDTA havs been investigated for removal of Ca(OH)2 from root canals2020- Rödig T, Vogel S, Zapf A, Hülsmann M. Efficacy of different irrigants in the removal of calcium hydroxide from root canals. Int Endod J. 2010;43:519-27. , 2121- Salgado RJ, Moura-Netto C, Yamazaki AK, Cardoso LN, Moura AA, Prokopowitsch I. Comparison of different irrigants on calcium hydroxide medication removal: microscopic cleanliness evaluation. Oral Surg Oral Med Oral Pathol Oral Radiol Endod. 2009;107:580-4.. Rödig, et al.2020- Rödig T, Vogel S, Zapf A, Hülsmann M. Efficacy of different irrigants in the removal of calcium hydroxide from root canals. Int Endod J. 2010;43:519-27. (2010) using the master apical file and irrigation with different solutions showed that 20% EDTA performed significantly better than 1% NaOCl. However, when rotary instruments are used for removal of Ca(OH)2 from root canal, there is no difference in the efficacy of 2.5% NaOCl or 17% EDTA as a final rinse, showing that the rotary instrument has more influence than final irrigation solutions in the removal of Ca(OH)2 1212- Kuga MC, Tanomaru-Filho M, Faria G, Só MV, Galletti T, Bavello JR. Calcium hydroxide intracanal dressing removal with different rotary instruments and irrigating solutions: a scanning electron microscopy study. Braz Dent J. 2010;21:310-4..

In the present study, neither SAF nor ProTaper were able to completely remove calcium hydroxide from the root canals. This is in agreement with results from previous studies, which showed the presence of Ca(OH)2 debris on the root canal walls regardless of the removal technique1111- Kenee DM, Allemang JD, Johnson JD, Hellstein J, Nichol BK. A quantitative assessment of efficacy of various calcium hydroxide removal techniques. J Endod. 2006;32:563-5. , 1313- Lambrianidis T, Margelos J, Beltes P. Removal efficiency of calcium hydroxide dressing from the root canal. J Endod. 1999;25:85-8. , 1919- Rödig T, Hirschleb M, Zapf A, Hülsmann M. Comparison of ultrasonic irrigation and RinsEndo for the removal of calcium hydroxide and Ledermix paste from root canals. Int Endod J. 2011;44:1155-61. , 2020- Rödig T, Vogel S, Zapf A, Hülsmann M. Efficacy of different irrigants in the removal of calcium hydroxide from root canals. Int Endod J. 2010;43:519-27. , 2222- Tasdemir T, Celik D, Er K, Yildirim T, Ceyhanli KT, Yesilyurt C. Efficacy of several techniques for the removal of calcium hydroxide medicament from root canals. Int Endod J. 2011;44:505-9.. This highlights the need for further studies evaluating SAF use for increased times or other techniques for removal of Ca(OH)2 from root canal walls.

CONCLUSION

The SAF system showed similar efficacy to rotary instrument for removal of Ca(OH)2 from mandibular incisor root canals.

This research was supported by the Fundação para o Desenvolvimento da UNESP (FUNDUNESP) by means of Research Grant to G. Faria (Process number: 00917/11-DFP).

REFERENCES

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  • 2
    - Ayna B, Ayna E, Celenk S. Endodontic and prosthetic treatment of teeth with periapical lesions in a 16-year-old-girl. J Appl Oral Sci. 2010;18:201-6.
  • 3
    - Balvedi RP, Versiani MA, Manna FF, Biffi JC. A comparison of two techniques for the removal of calcium hydroxide from root canals. Int Endod J. 2010;43:763-8.
  • 4
    - Barbizam JV, Trope M, Teixeira EC, Tanomaru-Filho M, Teixeira FB. Effect of calcium hydroxide intracanal dressing on the bond strength of a resin-based endodontic sealer. Braz Dent J. 2008;19:224-7.
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    - Calt S, Serper A. Dentinal tubule penetration of root canal sealers after root canal dressing with calcium hydroxide. J Endod. 1999;25:431-3.
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    - Faria G, Nelson-Filho P, Freitas AC, Assed S, Ito IY. Antibacterial effect of root canal preparation and calcium hydroxide paste (Calen) intracanal dressing in primary teeth with apical periodontitis. J Appl Oral Sci. 2005;13:351-5.
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    - Faria G, Silva RA, Fiori-Junior M, Nelson-Filho P. Re-eruption of traumatically intruded mature permanent incisor: case report. Dent Traumatol. 2004;20:229-32.
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    - Kuga MC, Tanomaru-Filho M, Faria G, Só MV, Galletti T, Bavello JR. Calcium hydroxide intracanal dressing removal with different rotary instruments and irrigating solutions: a scanning electron microscopy study. Braz Dent J. 2010;21:310-4.
  • 13
    - Lambrianidis T, Margelos J, Beltes P. Removal efficiency of calcium hydroxide dressing from the root canal. J Endod. 1999;25:85-8.
  • 14
    - Margelos J, Eliades G, Verdelis C, Palaghias G. Interaction of calcium hydroxide with zinc oxide-eugenol type sealers: a potential clinical problem. J Endod. 1997;23:43-8.
  • 15
    - Metzger Z, Teperovich E, Cohen R, Zary R, Paqué F, Hulsmann M. The self-adjusting file (SAF). Part 3: removal of debris and smear layer - a scanning electron microscope study. J Endod. 2010;36:697-702.
  • 16
    - Metzger Z, Teperovich E, Zary R, Cohen R, Hof R. The selfadjusting file (SAF). Part 1: respecting the root canal anatomy - a new concept of endodontic files and its implementation. J Endod. 2010;36:679-90.
  • 17
    - Mohammadi Z, Dummer PM. Properties and applications of calcium hydroxide in endodontics and dental traumatology. Int Endod J. 2011;44:697-730.
  • 18
    - Peters OA, Boessler C, Paqué F. Root canal preparation with a novel nickel-titanium instrument evaluated with micro-computed tomography: canal surface preparation over time. J Endod. 2010;36:1068-72.
  • 19
    - Rödig T, Hirschleb M, Zapf A, Hülsmann M. Comparison of ultrasonic irrigation and RinsEndo for the removal of calcium hydroxide and Ledermix paste from root canals. Int Endod J. 2011;44:1155-61.
  • 20
    - Rödig T, Vogel S, Zapf A, Hülsmann M. Efficacy of different irrigants in the removal of calcium hydroxide from root canals. Int Endod J. 2010;43:519-27.
  • 21
    - Salgado RJ, Moura-Netto C, Yamazaki AK, Cardoso LN, Moura AA, Prokopowitsch I. Comparison of different irrigants on calcium hydroxide medication removal: microscopic cleanliness evaluation. Oral Surg Oral Med Oral Pathol Oral Radiol Endod. 2009;107:580-4.
  • 22
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Publication Dates

  • Publication in this collection
    Jul-Aug 2013

History

  • Received
    08 Jan 2013
  • Reviewed
    12 Apr 2013
  • Accepted
    20 June 2013
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