Effect of sodium/calcium hypochlorite on adhesion and adaptation of fiber posts luted with a dual resin cement

Pauletto, Guilherme; Carlotto, Israel Bangel; Rosa, Lucas Saldanha Da; Pereira, Gabriel Kalil Rocha; Bier, Carlos Alexandre Souza

doi:10.1590/0103-6440202305396

Abstract

This study aimed to evaluate the effect of different concentrations of sodium hypochlorite (NaOCl) and calcium hypochlorite [Ca(OCl)₂] on the bond strength and adaptation of glass fiber posts luted with a dual-curing resin cement. Fifty decoronated premolars were sectioned 14 mm from the apex and endodontically treated. The root canal filling was partially removed. The specimens were divided into 5 groups (n=10) according to the irrigant for post space irrigation: 0.9% sodium chloride (NaCl), (control); 2.5% NaOCl; 5.25% NaOCl; 2.5% Ca(OCl)₂; and 5.25% Ca(OCl)₂. For each group, irrigation was performed with 5 ml of solution. Afterward, the posts were luted with a dual-curing resin cement. One slice from each third was obtained and submitted to the push-out test and failure modes analysis. An additional slice from the middle third was submitted to confocal images for analysis of adaptation failures (gaps). Two-way ANOVA, Tukey’s post-hoc, Kruskal-Wallis with Bonferroni adjusted, and chi-square tests, analyzed data. The group treated with 5.25% NaOCl showed lower bond strength values and generated more cohesive failures compared to the control (p < 0.05). Bond strength decreased from coronal to apical in the post space (p < 0.001). The groups treated with NaOCl had the highest percentages of gaps compared to the control (p < 0.05). Regardless of concentration, Ca(OCl)₂ did not influence the bond strength and the occurrence of gaps (P > 0.05). Ca(OCl)₂ is a good option for irrigating the post space before luting a fiber post with a dual-curing resin cement.

Key Words:
bond strength; calcium hypochlorite; sodium hypochlorite; glass fiber post; resin cement

Resumo

Este estudo teve como objetivo avaliar o efeito de diferentes concentrações de hipoclorito de sódio (NaOCl) e hipoclorito de cálcio [Ca(OCl)₂] na resistência de união e adaptação de pinos de fibra de vidro cimentados com um cimento resinoso dual. Cinquenta pré-molares tiveram suas coroas removidas, foram seccionados a 14 mm do ápice e tratados endodonticamente. A obturação do canal radicular foi parcialmente removida. Os espécimes foram divididos em 5 grupos (n=10) de acordo com o irrigante para irrigação do espaço do pino: cloreto de sódio 0.9% (NaCl), (controle); NaOCl 2.5%; NaOCl 5.25%; Ca(OCl)₂ 2.5%; e Ca(OCl)₂ 5.25%. Para cada grupo, a irrigação foi realizada com 5 ml da solução. Posteriormente, os pinos foram cimentados com um cimento resinoso dual. Uma fatia de cada terço foi obtida e submetida ao teste push-out e análise dos modos de falha. Um corte adicional do terço médio foi submetido a imagens confocais para análise de falhas de adaptação (gaps). Os dados foram analisados pelos testes ANOVA de duas vias, post-hoc de Tukey, Kruskal-Wallis com ajuste de Bonferroni e qui-quadrado. O grupo tratado com NaOCl 5.25% apresentou menores valores de resistência de união e gerou mais falhas coesivas em relação ao controle (p < 0.05). A resistência de união diminuiu de coronal para apical no espaço do pino (p < 0.001). Os grupos tratados com NaOCl apresentaram os maiores percentuais de gaps em relação ao controle (p < 0.05). Independentemente da concentração, o Ca(OCl)₂ não influenciou a resistência de união e a ocorrência de gaps (P > 0.05). O Ca(OCl)₂ é uma boa opção para irrigar o espaço do pino antes de cimentar um pino de fibra com um cimento resinoso dual.

Introduction

The longevity of a restorative procedure is directly related to the amount of remaining tooth structure and the effectiveness of the adhesive protocol ¹1 Özcan M, Volpato CAM. Current perspectives on dental adhesion: (3) Adhesion to intraradicular dentin: Concepts and applications. Jpn Dent Sci Rev2020;56(1):216-23.. Endodontically treated teeth, that show extensive coronary destruction, often require root retention for coronary reconstruction using an intraradicular post ⁽ ²2 Bhuva B, Giovarruscio M, Rahim N, Bitter K, Mannocci F. The restoration of root filled teeth: a review of the clinical literature. Int Endod J 2021;54(4):509-35.. Glass fiber posts are recommended for devitalized teeth, as they have a similar elastic modulus to dentin, are aesthetically superior, and are cost-effective ⁽ ³3 Carvalho MA, Lazari PC, Gresnigt M, Del Bel Cury AA, Magne P. Current options concerning the endodontically-treated teeth restoration with the adhesive approach. Braz Oral Res 2018;32(suppl 1):e74..

Adequate bonding between cement and dentin is important for post-retention ¹1 Özcan M, Volpato CAM. Current perspectives on dental adhesion: (3) Adhesion to intraradicular dentin: Concepts and applications. Jpn Dent Sci Rev2020;56(1):216-23.. The post space is vulnerable to microbial contamination, recommending the use of irrigates similar to those used in endodontic treatment ⁽ ⁴4 Reyhani MF, Ghasemi N, Rahimi S, Milani AS, Barhaghi MH, Azadi A. Apical microleakage of AH Plus and MTA Fillapex® sealers in association with immediate and delayed post space preparation: a bacterial leakage study. Minerva Stomatol 2015;64(3):129-34. However, endodontic irrigants can negatively affect the bonding procedure ⁽ ⁵5 Elnaghy AM. Effect of QMix irrigant on bond strength of glass fibre posts to root dentine. Int Endod J2014;47(3):280-9.. Sodium hypochlorite (NaOCl) is the most widely used solution in Endodontics due to its antimicrobial action and tissue dissolution capacity ⁽ ⁶6 Haapasalo M, Shen Y, Wang Z, Gao Y. Irrigation in endodontics. Br Dent J. 2014;216(6):299-303.. However, NaOCl is associated with a significant deproteinization of dentin ⁽ ⁷7 da Cunha LF, Furuse AY, Mondelli RF, Mondelli J. Compromised bond strength after root dentin deproteinization reversed with ascorbic acid. J Endod2010;36(1):130-4. and worse bond strength values in the adhesive luting of fiber posts ⁽ ⁵5 Elnaghy AM. Effect of QMix irrigant on bond strength of glass fibre posts to root dentine. Int Endod J2014;47(3):280-9.. Based on that, there is still no consensus on the ideal solution for use in the post space, as the irrigant must present a balance between its antimicrobial action and its influence on dentin adhesion ⁸8 Haragushiku GA, Back ED, Tomazinho PH, Baratto Filho F, Furuse AY. Influence of antimicrobial solutions in the decontamination and adhesion of glass-fiber posts to root canals. J Appl Oral Sci 2015;23(4):436-41.. Recently, promising investigations have emerged regarding the use of calcium hypochlorite [Ca(OCl)₂] in Endodontics ⁽ ⁹9 Soligo LT, Lodi E, Farina AP, Souza MA, Vidal CMP, Cecchin D. Antibacterial Efficacy of Synthetic and Natural-Derived Novel Endodontic Irrigant Solutions. Braz Dent J 2018;29(5):459-64. ^, ¹⁰10 Durigon M, Cecchin D, de Carli JP, Souza MA, Farina AP. Could calcium hypochlorite and grape seed extract keep the mechanical properties of root dentin and fracture resistance of weakened roots? J Mech Behav Biomed Mater 2020;106:103736.. Ca(OCl)₂ has similar antimicrobial action to NaOCl ⁽ ⁹9 Soligo LT, Lodi E, Farina AP, Souza MA, Vidal CMP, Cecchin D. Antibacterial Efficacy of Synthetic and Natural-Derived Novel Endodontic Irrigant Solutions. Braz Dent J 2018;29(5):459-64. and seems to induce less structural changes to dentin ⁽ ¹¹11 Cecchin D, Soares Giaretta V, Granella Cadorin B, Albino Souza M, Vidal CMP, Paula Farina A. Effect of synthetic and natural-derived novel endodontic irrigant solutions on mechanical properties of human dentin. J Mater Sci Mater Med 2017;28(9):141..

Despite the aforementioned presupposes, the influence of Ca(OCl)₂ on the adhesion of fiber posts was the subject of scarce studies, with conflicting results ⁽ ¹²12 Seballos VG, Barreto MS, Rosa RAD, Machado E, Valandro LF, Kaizer OB. Effect of Post-Space Irrigation with NaOCl And CaOCl at Different Concentrations on the Bond Strength of Posts Cemented with a Self-Adhesive Resin Cement. Braz Dent J 2018;29(5):446-51. ^, ¹³13 Khoroushi M, Najafabadi MA, Feiz A. Effects of Calcium Hypochlorite and Sodium Hypochlorite, as Root Canal Irrigants, on the Bond Strength of Glass Fiber Posts Cemented with Self-Adhesive Resin Cement. Front Dent2019;16(3):214-23. ^, ¹⁴14 Ghahderijani MS, Khoroushi M, Feiz A. Effect of Calcium Hypochlorite and Sodium Hypochlorite as Root Canal Irrigants on Push-out Bond Strength of Fiber Post Cemented with Etch-and-Rinse Resin Cement: An in Vitro Study. Front Dent 2021;18:18.. Furthermore, none of these studies has compared the influence of Ca(OCl)₂ on the adaptation of resin cement to dentin in the post space.

Therefore, the purpose of this in vitro study was to evaluate the bond strength in the different dentinal thirds of the post space and adaptation failures (gaps) at the cement/dentin interface, resulting from the interaction between dual-curing resin cement and a substrate irrigated with different concentrations of NaOCl or Ca(OCl)₂. The study adopted null hypotheses was are that there would be no difference in bond strength from the use of different irrigants, regardless of the dentinal third (I); and that the different solutions and concentrations would also not have a significant effect on the presence of gaps (II).

Materials and methods

Ethical approval and sample selection

The ethics committee (no. 50355021.0.0000.5346) approved this research. The sample size was calculated (G*Power; Heinrich-Heine-Universität, Düsseldorf, Germany), considering: power = 90%, alpha-type error = 0.05 and effect size = 0.59 ⁽ ¹⁵15 Belizário LG, Kuga MC, Hungaro Duarte MA, Só MVR, Keine KC, Pereira JR. Effect of fiber post space irrigation with different peracetic acid formulations on the bond strength and penetration into the dentinal tubules of self-etching resin cement. J Prosthet Dent 2019;122(1):46.e1-46.e7.. A total of 50 specimens (ten teeth per group) were indicated as the ideal size. Fifty permanent human premolars were used. Digital periapical radiographs were performed to select single-rooted teeth, with a single main canal and complete root development, free of root caries, previous endodontic treatment, calcifications, resorption, and cracks/fractures. The teeth were kept in 1% chloramine-T solution for 48 hours and then stored in distilled water at 4ºC until the following methodological steps.

Sample preparation

The teeth were decoronated with a diamond disc under constant irrigation in a precision cutting machine set at 300 rpm (Isomet 1000; Buehler Ltd, Lake Bluff, USA). The roots were standardized at 14 mm and the working length was established at 1 mm from the apical foramen. The root canal was prepared with the Bassi Logic rotary files (Easy Equipamentos Odontológicos, Belo Horizonte, MG, Brazil), sizes 40.01 and 40.05, under 20 mL 2.5% NaOCl irrigation. After instrumentation, we used 2 mL of 17% EDTA for 1 minute, repeated 3 times, and a final irrigation with 10 mL of distilled water was performed. Then, the root canals were dried with 40.05 absorbent paper points (Easy Equipamentos Odontológicos). All roots were filled using the lateral condensation technique with gutta-percha and AH Plus sealer (Dentsply Maillefer, Ballaigues, Switzerland). Digital periapical radiographs were performed to confirm the quality of the filling. The roots were sealed using interim restorative material (Coltosol; Coltene, Alstatten, Switzerland) and stored in distilled water at 37ºC for one week.

The coronary seal was removed and the gutta-percha was then partially removed using 2 and 3 Largo burs (Dentsply Mailleifer), keeping the final 4 mm. Digital periapical radiographs were performed to confirm the desobturation. The post space was prepared using the Exacto Translúcido Angelus N2 bur (Angelus, Londrina, PR, Brazil). The samples were randomly allocated (http://www.randomized.org), according to the irrigant used, in five groups (n=10): 0.9% sodium chloride (NaCl), (control); 2.5% NaOCl; 5.25% NaOCl; 2.5%Ca(OCl)₂; and 5.25% Ca(OCl)₂. The post space was irrigated for 60 seconds with 5 mL of the irrigant and held in place for 3 minutes without agitation. Subsequently, the root canals were dried with 40.05 absorbent paper points (Easy Equipamentos Odontológicos).

The glass fiber posts (Exacto Translucido Angelus N2; Angelus) were cleaned with 70% alcohol, coated with silane (Monobond N; Ivoclar, Schaan, Liechtenstein), allowed to rest for 1 minute and air-dried. The post space was treated with primers (Multilink N Primer A + Multilink N Primer B; Ivoclar) for 30 seconds, the post was covered with resin cement (Multilink N, Ivoclar) (Box 1) and then inserted into the conduit up to the established length with rotary movements, and the set was light-cured for 40 seconds using a light-curing unit (Radii Cal; SDI, Bayswater, Australia) operating at 1200 mW/cm². The specimens were stored in distilled water at 37ºC during one week.

Push-out assessment

The samples were sectioned using a precision cutting machine (Isomet 1000; Buehler) set at 300 rpm and equipped with a diamond disc, obtaining four slices per sample, with a thickness of 1mm ± 0.1mm (one slice from the cervical and apical thirds, and two slices from the middle third).

Box 1
General description of the dual-curing self-etching resin cement system used (Ivoclar Vivadent)

A slice of each third was positioned in a universal testing machine (Emic DL-2000; Emic, Pinhais, PR, Brazil). The post was loaded in the apical-coronal direction using a stainless-steel plunger (Ø = 0.8 mm) at a speed of 0.5 mm/min until failure. The data obtained in newtons (N) were converted into megapascals (MPa) using the following formula: σ = F / A. F is the force for specimen rupture (N), and A is the bond area (mm²). The following formula was used to determine the bonded interface area:

A = π (R + r) \sqrt{h^{2} + (R - r) ²}

In the formula, π = are the constant 3.14, R = coronal radius, r = apical radius, and h = slice thickness ⁽ ¹⁶16 Parčina Amižić I, Baraba A, Ionescu AC, Brambilla E, Van Ende A, Miletić I. Bond Strength of Individually Formed and Prefabricated Fiber-reinforced Composite Posts. J Adhes Dent 2019;21(6):557-65.. A digital caliper was used to obtain measurements (CD-15C; Mitutoyo Co., Kawasaki, Japan).

Failure modes analysis

After failure, a blinded examiner, through a stereomicroscope (Discovery V20; Carl-Zeiss, Gottingen, Germany) at × 40 magnification, evaluated the samples. Failure patterns were classified into: Ac/d = Predominant adhesive at cement/dentin interface; Ac/p = Predominant adhesive at cement/post interface; C = Cohesive of dentin. The calibration consisted of repeating the analysis of the fracture pattern of 30 slices, with an interval of two weeks. Examiner reproducibility, which was calculated using the Kappa test, was 0.943.

Evaluation of adaptation in cement/dentin interface

The first slice of the middle third was analyzed by confocal laser scanning microscopy (CLSM) (FV1000; Olympus, Tokyo, Japan). A metallographic preparation was previously carried out with sandpaper of decreasing grit size (up to 1200) and felt discs with polishing paste. The slices were submitted to an ultrasonic bath for 5 minutes, rinsed in distilled water and decalcified superficially with 37% phosphoric acid for 15 seconds ¹⁷17 Wiesse PEB, Silva-Sousa YT, Pereira RD, Estrela C, Domingues LM, Pécora JD, et al. Effect of ultrasonic and sonic activation of root canal sealers on the push-out bond strength and interfacial adaptation to root canal dentine. Int Endod J 2018;51(1):102-11.. Two images in stitching mode at ×40 magnification were obtained from the cervical surface and transformed into a single one, with a size of 1376 x 1038 pixels and a scale set to 1 mm. In addition, a mapping of the images in the CLSM software itself at ×200 magnification was performed to assist in the identification of gaps. The method proposed by De-Deus et al. ⁽ ¹⁸18 De-Deus G, Reis C, Di Giorgi K, Brandão MC, Audi C, Fidel RA. Interfacial adaptation of the Epiphany self-adhesive sealer to root dentin. Oral Surg Oral Med Oral Pathol Oral Radiol Endod 2011;111(3):381-6. to calculate the presence of gaps between the filling material and the dentin was adapted. First, in each sample, the total perimeter of the cement/dentin interface was measured. Then, the perimeter with gaps at the cement/dentin interface was measured. The percentage of gaps was calculated by the ratio between the total perimeter and the perimeter with gaps (Figure 1). A blinded observer was responsible for this analysis. All computational work was performed using Image J software (National Institutes of Health, Bethesda, USA). The calibration consisted of repeating the analysis of gaps of 10 slices, with an interval of two weeks. Examiner reproducibility, which was calculated using the intraclass correlation coefficient, was 0.997.

Figure 1
Representative image obtained under CLSM at ×40 magnification. (A) = confocal image of resin cement/glass fiber post junction to the root dentin; (B) = measurement of the total perimeter of the adhesive interface; and (C) = evident gaps (arrows) at the interfacial adaptation. (po = post; re = resin cement; de = dentin)

Statistical analysis

After the Shapiro-Wilk and Levene tests, the bond strength values presented a normal homoscedastic distribution, but the gap values did not. Based on that, bond strength data were analyzed by two-way ANOVA and Tukey’s post-hoc tests. For data on the gaps, post-hoc pairwise comparisons were performed using the Kruskal-Wallis test adjusted using the Bonferroni method. The chi-square test was used to analyze the failure modes. The level of statistical significance was set at p < 0.05. All analyses were performed using the SPSS Statistics V.26 program (SPPS Inc., Chicago, USA).

Results

Push-out bond strength

The mean and standard deviation of bond strength are shown in Table 1. The type of irrigant (p < 0.05) and the third of the post space (p < 0.001) had a significant effect on the bond strength. 5.25% NaOCl was associated with the lowest bond strength values when compared to the control (p < 0.05). Regardless of concentration, Ca(OCl)₂ had no negative influence on the bond strength (p > 0.05). Bond strength decreased from coronal to apical in the post space (p < 0.001). The failure modes are shown in Figure 2. 5.25% NaOCl generated more cohesive failures compared to the control group and Ca(OCl)₂ 2.5% (p < 0.001).

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Table 1
Mean and standard deviation of bond strength values (MPa) in the root dentin of the post space in relation to different irrigating solutions and root thirds

Figure 2
Failure modes (%) in each group after push-out. Different lowercase letters represent significant differences between groups (p <0 .05). Ac/d = mainly adhesive failure at cement/dentin interface; Ac/p = mainly adhesive failure at cement/post interface; C = cohesive failures of the dentin.

Evaluation of adaptation

The median and percentile values in the percentage of gaps at the cement/dentin interface are shown in Table 2. The groups treated with NaOCl showed the highest percentage of gaps (p < 0.05) and the groups treated with Ca(OCl)₂ had no influence on the occurrence of gaps, regardless of the concentration (p > 0.05), when compared to the control.

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Table 2
Gaps values in percentage (Median [P25-P75]) of the cement/dentin interface of the post space in relation to different irrigating solutions

Discussion

The present study found lower bond strength values and a greater presence of gaps when 5.25% NaOCl was used compared to the control. In this sense, 2.5% NaOCl was also associated with higher percentages of gaps. The cervical third of the post space was associated with greater bond strength. Thus, the null hypotheses were rejected.

Lower bond strength in the post space for higher concentrations of NaOCl was also reported by other studies ⁵5 Elnaghy AM. Effect of QMix irrigant on bond strength of glass fibre posts to root dentine. Int Endod J2014;47(3):280-9. ^, ⁷7 da Cunha LF, Furuse AY, Mondelli RF, Mondelli J. Compromised bond strength after root dentin deproteinization reversed with ascorbic acid. J Endod2010;36(1):130-4.. NaOCl interacts with the organic portion of dentin causing collagen degradation. Furthermore, the higher the concentration of NaOCl, the greater the collagen degradation ⁽ ¹⁹19 Dumitriu D, Dobre T. Effects of Temperature and Hypochlorite Concentration on the Rate of Collagen Dissolution. J Endod2015;41(6):903-6.. Therefore, since bond strength is directly related to the quality of the dentin substrate, these facts explain the findings of this study. The group treated with 5.25% NaOCl had more cohesive failures compared to the control and 2.5% Ca(OCl)₂ groups. A possible explanation is based on the fact that NaOCl is associated with lower values of fracture resistance ⁽ ¹¹11 Cecchin D, Soares Giaretta V, Granella Cadorin B, Albino Souza M, Vidal CMP, Paula Farina A. Effect of synthetic and natural-derived novel endodontic irrigant solutions on mechanical properties of human dentin. J Mater Sci Mater Med 2017;28(9):141., microhardness, and flexural strength of the dentin ⁽ ¹⁰10 Durigon M, Cecchin D, de Carli JP, Souza MA, Farina AP. Could calcium hypochlorite and grape seed extract keep the mechanical properties of root dentin and fracture resistance of weakened roots? J Mech Behav Biomed Mater 2020;106:103736., facilitating cohesive failures.

In this study, the third of the post space had a significant impact on bond strength. The values followed the decreasing sequence: cervical > middle > apical. These results are possibly attributed to the fact that the number of dentinal tubules per mm² decreases from the coronal portion of the root canal to the apical one, therefore, decreasing the density of the hybrid layer in the same direction, and the adhesion becoming poorer ⁽ ²⁰20 Mjör IA, Smith MR, Ferrari M, Mannocci F. The structure of dentine in the apical region of human teeth. Int Endod J 2001;34(5):346-53.. Another point to consider is the light transmission/reach difficulty at deeper layers, which despite herein it being used as a dual-curing agent, it is known that such aspect may alter the degree of conversion of the resin material and consequently is logical to assume that the deeper the region, the lower bond strength expected ⁽ ²¹21 Bitter K, Falcon L, Prates Soares A, Sturm R, von Stein-Lausnitz M, Sterzenbach G. Effect of Application Mode on Bond Strength of Adhesively Luted Glass-fiber Bundles Inside the Root Canal. J Adhes Dent 2019;21(6):517-24..

During fiber post luting, polymerization shrinkage, bubbles, and gaps negatively affect retention ⁽ ²²22 Grandini S, Goracci C, Monticelli F, Borracchini A, Ferrari M. SEM evaluation of the cement layer thickness after luting two different posts. J Adhes Dent 2005;7(3):235-40.. Although premolars may present a complex internal anatomy, equivalent degrees of adaptation are reported between oval and circular posts even in the presence of oval root canals, since the associated resin cement occupies the unfilled areas ²³23 Scotti N, Forniglia A, Bergantin E, Paolino DS, Pasqualini D, Berutti E. Fibre post adaptation and bond strength in oval canals. Int Endod J 2014;47(4):366-72.. Despite the cement application method in the post space can influence the formation of gaps ²⁴24 Pedreira AP, D'Alpino PH, Pereira PN, Chaves SB, Wang L, Hilgert L, et al. Effects of the application techniques of self-adhesive resin cements on the interfacial integrity and bond strength of fiber posts to dentin. J Appl Oral Sci2016;24(5):437-46., the same luting technique was used in all groups, and herein the evaluation of gaps was made by a researcher that was blind for the study group being accessed. Therefore, it is consistent to assume that in our results the irrigation solution really influenced the formation of gaps, as it was observed statistical differences among conditions. Furthermore, a previous systematic review reported that the simultaneous application of cement around the post and inside the root canal is associated with less adhesion compared with the application only around the post ²⁵25 Skupien JA, Sarkis-Onofre R, Cenci MS, Moraes RR, Pereira-Cenci T. A systematic review of factors associated with the retention of glass fiber posts. Braz Oral Res 2015;29:S1806-83242015000100401., being therefore, the second method chosen for use in this study. In our results, the presence of gaps at the cement/dentin interface was more prevalent in the groups treated with NaOCl, regardless of concentration, compared to the control. Changes in dentin structure caused by the use of NaOCl and the consequent impact on adhesion are the possible reasons for this finding ⁽ ¹⁹19 Dumitriu D, Dobre T. Effects of Temperature and Hypochlorite Concentration on the Rate of Collagen Dissolution. J Endod2015;41(6):903-6.. The use of Ca(OCl)₂ did not influence bond strength and the occurrence of gaps, possibly due to its compatibility with the dentin not altering its main properties ⁽ ¹⁰10 Durigon M, Cecchin D, de Carli JP, Souza MA, Farina AP. Could calcium hypochlorite and grape seed extract keep the mechanical properties of root dentin and fracture resistance of weakened roots? J Mech Behav Biomed Mater 2020;106:103736.. Recent studies have used CLSM to assess the presence of gaps at the cement/dentin interface ⁽ ²⁶26 Souza-Gabriel AE, Sousa-Neto MD, Ururahy MS, Andrade LM, Faraoni JJ, Romeo U, et al. Analysis of adhesive interface in root canals irradiated by Er,Cr:YSGG laser after luting a fiber post. Microsc Res Tech. 2016;79(11):1090-6. ^, ²⁷27 Soares IMV, Crozeta BM, Pereira RD, Silva RG, da Cruz-Filho AM. Influence of endodontic sealers with different chemical compositions on bond strength of the resin cement/glass fiber post junction to root dentin. Clin Oral Investig 2020;24(10):3417-23.. The use of CLSM is an accurate, non-destructive method, with results comparable to scanning electron microscopic analysis ⁽ ²⁸28 Bitter K, Paris S, Mueller J, Neumann K, Kielbassa AM. Correlation of scanning electron and confocal laser scanning microscopic analyses for visualization of dentin/adhesive interfaces in the root canal. J Adhes Dent 2009;11(1):7-14..

In this study, we chose to use a self-etching adhesive system and dual-curing resin cement. Self-etching adhesives have results comparable to conventional adhesives, in terms of continuity of the hybrid layer and presence of resin tags. However, they are highly recommended when dentin is the main tissue to be bonded due to less critical steps when compared to etch and rinse systems ⁽ ²⁹29 Yamauchi K, Tsujimoto A, Jurado CA, Shimatani Y, Nagura Y, Takamizawa T, et al. Etch-and-rinse vs self-etch mode for dentin bonding effectiveness of universal adhesives. J Oral Sci 2019;61(4):549-53.. Dentin presents lower mineral content than enamel and based on that the benefits of phosphoric acid etching use become questionable ⁽ ³⁰30 Van Meerbeek B, Yoshihara K, Van Landuyt K, Yoshida Y, Peumans M. From Buonocore's Pioneering Acid-Etch Technique to Self-Adhering Restoratives. A Status Perspective of Rapidly Advancing Dental Adhesive Technology. J Adhes Dent 2020;22(1):7-34.. Dual-curing resin cements are associated with greater bond strength than self-adhesive cements ⁽ ³¹31 Mazzoni A, Marchesi G, Cadenaro M, Mazzotti G, Di Lenarda R, Ferrari M, Breschi L. Push-out stress for fibre posts luted using different adhesive strategies. Eur J Oral Sci 2009;117(4):447-53..

Previous studies evaluated the influence of Ca(OCl)₂ on the adhesiveness of the post space using a self-adhesive cement ⁽ ¹²12 Seballos VG, Barreto MS, Rosa RAD, Machado E, Valandro LF, Kaizer OB. Effect of Post-Space Irrigation with NaOCl And CaOCl at Different Concentrations on the Bond Strength of Posts Cemented with a Self-Adhesive Resin Cement. Braz Dent J 2018;29(5):446-51. ^, ¹³13 Khoroushi M, Najafabadi MA, Feiz A. Effects of Calcium Hypochlorite and Sodium Hypochlorite, as Root Canal Irrigants, on the Bond Strength of Glass Fiber Posts Cemented with Self-Adhesive Resin Cement. Front Dent2019;16(3):214-23., or a conventional adhesive system and a dual-curing cement ⁽ ¹⁴14 Ghahderijani MS, Khoroushi M, Feiz A. Effect of Calcium Hypochlorite and Sodium Hypochlorite as Root Canal Irrigants on Push-out Bond Strength of Fiber Post Cemented with Etch-and-Rinse Resin Cement: An in Vitro Study. Front Dent 2021;18:18.. In such sense, discussion and a direct comparison of the findings should be done with caution, as such different luting systems present distinct mechanisms of interaction with the dentin, thus is logical to assume that the solution may present different performance depending on such variations. Based on that, more studies are still required to completely understand and validate the mechanisms of interaction between such solutions and the different existing luting systems.

The use of only one diameter of a stainless-steel plunger for all post-thirds during the push-out test may be pointed as a limitation of the present study. Although we used a standard diameter of a plunger for all slices and groups, which provided coverage of the post without touching the dentin wall, the root canal has a very complex internal configuration and different internal diameters according to its root third. Therefore, customizing a plunger of different diameters for each third may be a more suitable strategy to better represent bond strength values ³²32 Brichko J, Burrow MF, Parashos P. Design Variability of the Push-out Bond Test in Endodontic Research: A Systematic Review. J Endod2018;44(8):1237-45.. In addition, another limitation of our study was that we did not assess bond strength longevity. The bonding behavior can be different through time, with the aging of the samples decreasing the bond strength ³³33 Nima G, Cavalli V, Bacelar-Sá R, Ambrosano GMB, Giannini M. Effects of sodium hypochlorite as dentin deproteinizing agent and aging media on bond strength of two conventional adhesives. Microsc Res Tech 2020;83(2):186-95.. Thus, different aging conditions should be investigated in further studies to observe if the negative effect of NaOCl would be even more pronounced.

In our findings, 2.5% NaOCl did not change the bond strength. However, it is associated with higher percentages of gaps. Gaps will act as defects and stress concentrator zones during teeth function, based on that, with time, it may predispose to failures of the restorative set. On the other hand, Ca(OCl)₂ does not change the bond strength and is not associated with the occurrence of gaps, regardless of its concentration (2.5% or 5.25%), corroborating such solution as a promising alternative to be used on such scenario. Summed to that, from an antimicrobial point of view, NaOCl and Ca(OCl)₂ have similar effects, and the higher the concentration of both, the greater their antiseptic action ⁽ ⁹9 Soligo LT, Lodi E, Farina AP, Souza MA, Vidal CMP, Cecchin D. Antibacterial Efficacy of Synthetic and Natural-Derived Novel Endodontic Irrigant Solutions. Braz Dent J 2018;29(5):459-64.. Assuming that an ideal solution for use in the post space must present a balance between its antimicrobial capacity and its influence on dentin adhesiveness, 5.25% Ca(OCl)₂ seems to be the best option when using a dual-curing self-etching resin cement system. To consolidate the findings, more studies are needed to evaluate the different resin cements, as well as to carry out well-designed randomized clinical trials to investigate the clinical behavior of 5.25% Ca(OCl)₂ in the success rates of fiber post adhesive luting.

Considering the limitations of the in vitro study, in cases where a restorative plan includes a fiber post-luted with dual-curing resin cement, Ca(OCl)₂ is a good option to decontaminate the post space without negatively impacting dentin adhesion.

Acknowledgments

The authors declare no competing interests. This study was partly funded by Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) “Grant number 001”.

References

¹
Özcan M, Volpato CAM. Current perspectives on dental adhesion: (3) Adhesion to intraradicular dentin: Concepts and applications. Jpn Dent Sci Rev2020;56(1):216-23.
²
Bhuva B, Giovarruscio M, Rahim N, Bitter K, Mannocci F. The restoration of root filled teeth: a review of the clinical literature. Int Endod J 2021;54(4):509-35.
³
Carvalho MA, Lazari PC, Gresnigt M, Del Bel Cury AA, Magne P. Current options concerning the endodontically-treated teeth restoration with the adhesive approach. Braz Oral Res 2018;32(suppl 1):e74.
⁴
Reyhani MF, Ghasemi N, Rahimi S, Milani AS, Barhaghi MH, Azadi A. Apical microleakage of AH Plus and MTA Fillapex® sealers in association with immediate and delayed post space preparation: a bacterial leakage study. Minerva Stomatol 2015;64(3):129-34.
⁵
Elnaghy AM. Effect of QMix irrigant on bond strength of glass fibre posts to root dentine. Int Endod J2014;47(3):280-9.
⁶
Haapasalo M, Shen Y, Wang Z, Gao Y. Irrigation in endodontics. Br Dent J. 2014;216(6):299-303.
⁷
da Cunha LF, Furuse AY, Mondelli RF, Mondelli J. Compromised bond strength after root dentin deproteinization reversed with ascorbic acid. J Endod2010;36(1):130-4.
⁸
Haragushiku GA, Back ED, Tomazinho PH, Baratto Filho F, Furuse AY. Influence of antimicrobial solutions in the decontamination and adhesion of glass-fiber posts to root canals. J Appl Oral Sci 2015;23(4):436-41.
⁹
Soligo LT, Lodi E, Farina AP, Souza MA, Vidal CMP, Cecchin D. Antibacterial Efficacy of Synthetic and Natural-Derived Novel Endodontic Irrigant Solutions. Braz Dent J 2018;29(5):459-64.
¹⁰
Durigon M, Cecchin D, de Carli JP, Souza MA, Farina AP. Could calcium hypochlorite and grape seed extract keep the mechanical properties of root dentin and fracture resistance of weakened roots? J Mech Behav Biomed Mater 2020;106:103736.
¹¹
Cecchin D, Soares Giaretta V, Granella Cadorin B, Albino Souza M, Vidal CMP, Paula Farina A. Effect of synthetic and natural-derived novel endodontic irrigant solutions on mechanical properties of human dentin. J Mater Sci Mater Med 2017;28(9):141.
¹²
Seballos VG, Barreto MS, Rosa RAD, Machado E, Valandro LF, Kaizer OB. Effect of Post-Space Irrigation with NaOCl And CaOCl at Different Concentrations on the Bond Strength of Posts Cemented with a Self-Adhesive Resin Cement. Braz Dent J 2018;29(5):446-51.
¹³
Khoroushi M, Najafabadi MA, Feiz A. Effects of Calcium Hypochlorite and Sodium Hypochlorite, as Root Canal Irrigants, on the Bond Strength of Glass Fiber Posts Cemented with Self-Adhesive Resin Cement. Front Dent2019;16(3):214-23.
¹⁴
Ghahderijani MS, Khoroushi M, Feiz A. Effect of Calcium Hypochlorite and Sodium Hypochlorite as Root Canal Irrigants on Push-out Bond Strength of Fiber Post Cemented with Etch-and-Rinse Resin Cement: An in Vitro Study. Front Dent 2021;18:18.
¹⁵
Belizário LG, Kuga MC, Hungaro Duarte MA, Só MVR, Keine KC, Pereira JR. Effect of fiber post space irrigation with different peracetic acid formulations on the bond strength and penetration into the dentinal tubules of self-etching resin cement. J Prosthet Dent 2019;122(1):46.e1-46.e7.
¹⁶
Parčina Amižić I, Baraba A, Ionescu AC, Brambilla E, Van Ende A, Miletić I. Bond Strength of Individually Formed and Prefabricated Fiber-reinforced Composite Posts. J Adhes Dent 2019;21(6):557-65.
¹⁷
Wiesse PEB, Silva-Sousa YT, Pereira RD, Estrela C, Domingues LM, Pécora JD, et al. Effect of ultrasonic and sonic activation of root canal sealers on the push-out bond strength and interfacial adaptation to root canal dentine. Int Endod J 2018;51(1):102-11.
¹⁸
De-Deus G, Reis C, Di Giorgi K, Brandão MC, Audi C, Fidel RA. Interfacial adaptation of the Epiphany self-adhesive sealer to root dentin. Oral Surg Oral Med Oral Pathol Oral Radiol Endod 2011;111(3):381-6.
¹⁹
Dumitriu D, Dobre T. Effects of Temperature and Hypochlorite Concentration on the Rate of Collagen Dissolution. J Endod2015;41(6):903-6.
²⁰
Mjör IA, Smith MR, Ferrari M, Mannocci F. The structure of dentine in the apical region of human teeth. Int Endod J 2001;34(5):346-53.
²¹
Bitter K, Falcon L, Prates Soares A, Sturm R, von Stein-Lausnitz M, Sterzenbach G. Effect of Application Mode on Bond Strength of Adhesively Luted Glass-fiber Bundles Inside the Root Canal. J Adhes Dent 2019;21(6):517-24.
²²
Grandini S, Goracci C, Monticelli F, Borracchini A, Ferrari M. SEM evaluation of the cement layer thickness after luting two different posts. J Adhes Dent 2005;7(3):235-40.
²³
Scotti N, Forniglia A, Bergantin E, Paolino DS, Pasqualini D, Berutti E. Fibre post adaptation and bond strength in oval canals. Int Endod J 2014;47(4):366-72.
²⁴
Pedreira AP, D'Alpino PH, Pereira PN, Chaves SB, Wang L, Hilgert L, et al. Effects of the application techniques of self-adhesive resin cements on the interfacial integrity and bond strength of fiber posts to dentin. J Appl Oral Sci2016;24(5):437-46.
²⁵
Skupien JA, Sarkis-Onofre R, Cenci MS, Moraes RR, Pereira-Cenci T. A systematic review of factors associated with the retention of glass fiber posts. Braz Oral Res 2015;29:S1806-83242015000100401.
²⁶
Souza-Gabriel AE, Sousa-Neto MD, Ururahy MS, Andrade LM, Faraoni JJ, Romeo U, et al. Analysis of adhesive interface in root canals irradiated by Er,Cr:YSGG laser after luting a fiber post. Microsc Res Tech. 2016;79(11):1090-6.
²⁷
Soares IMV, Crozeta BM, Pereira RD, Silva RG, da Cruz-Filho AM. Influence of endodontic sealers with different chemical compositions on bond strength of the resin cement/glass fiber post junction to root dentin. Clin Oral Investig 2020;24(10):3417-23.
²⁸
Bitter K, Paris S, Mueller J, Neumann K, Kielbassa AM. Correlation of scanning electron and confocal laser scanning microscopic analyses for visualization of dentin/adhesive interfaces in the root canal. J Adhes Dent 2009;11(1):7-14.
²⁹
Yamauchi K, Tsujimoto A, Jurado CA, Shimatani Y, Nagura Y, Takamizawa T, et al. Etch-and-rinse vs self-etch mode for dentin bonding effectiveness of universal adhesives. J Oral Sci 2019;61(4):549-53.
³⁰
Van Meerbeek B, Yoshihara K, Van Landuyt K, Yoshida Y, Peumans M. From Buonocore's Pioneering Acid-Etch Technique to Self-Adhering Restoratives. A Status Perspective of Rapidly Advancing Dental Adhesive Technology. J Adhes Dent 2020;22(1):7-34.
³¹
Mazzoni A, Marchesi G, Cadenaro M, Mazzotti G, Di Lenarda R, Ferrari M, Breschi L. Push-out stress for fibre posts luted using different adhesive strategies. Eur J Oral Sci 2009;117(4):447-53.
³²
Brichko J, Burrow MF, Parashos P. Design Variability of the Push-out Bond Test in Endodontic Research: A Systematic Review. J Endod2018;44(8):1237-45.
³³
Nima G, Cavalli V, Bacelar-Sá R, Ambrosano GMB, Giannini M. Effects of sodium hypochlorite as dentin deproteinizing agent and aging media on bond strength of two conventional adhesives. Microsc Res Tech 2020;83(2):186-95.

Publication Dates

Publication in this collection
17 July 2023
Date of issue
May-Jun 2023

History

Received
19 Jan 2023
Accepted
16 May 2023

This is an open-access article distributed under the terms of the Creative Commons Attribution License

[1] ¹
Özcan M, Volpato CAM. Current perspectives on dental adhesion: (3) Adhesion to intraradicular dentin: Concepts and applications. Jpn Dent Sci Rev2020;56(1):216-23.

[2] ²
Bhuva B, Giovarruscio M, Rahim N, Bitter K, Mannocci F. The restoration of root filled teeth: a review of the clinical literature. Int Endod J 2021;54(4):509-35.

[3] ³
Carvalho MA, Lazari PC, Gresnigt M, Del Bel Cury AA, Magne P. Current options concerning the endodontically-treated teeth restoration with the adhesive approach. Braz Oral Res 2018;32(suppl 1):e74.

[4] ⁴
Reyhani MF, Ghasemi N, Rahimi S, Milani AS, Barhaghi MH, Azadi A. Apical microleakage of AH Plus and MTA Fillapex® sealers in association with immediate and delayed post space preparation: a bacterial leakage study. Minerva Stomatol 2015;64(3):129-34.

[5] ⁵
Elnaghy AM. Effect of QMix irrigant on bond strength of glass fibre posts to root dentine. Int Endod J2014;47(3):280-9.

[6] ⁶
Haapasalo M, Shen Y, Wang Z, Gao Y. Irrigation in endodontics. Br Dent J. 2014;216(6):299-303.

[7] ⁷
da Cunha LF, Furuse AY, Mondelli RF, Mondelli J. Compromised bond strength after root dentin deproteinization reversed with ascorbic acid. J Endod2010;36(1):130-4.

[8] ⁸
Haragushiku GA, Back ED, Tomazinho PH, Baratto Filho F, Furuse AY. Influence of antimicrobial solutions in the decontamination and adhesion of glass-fiber posts to root canals. J Appl Oral Sci 2015;23(4):436-41.

[9] ⁹
Soligo LT, Lodi E, Farina AP, Souza MA, Vidal CMP, Cecchin D. Antibacterial Efficacy of Synthetic and Natural-Derived Novel Endodontic Irrigant Solutions. Braz Dent J 2018;29(5):459-64.

[10] ¹⁰
Durigon M, Cecchin D, de Carli JP, Souza MA, Farina AP. Could calcium hypochlorite and grape seed extract keep the mechanical properties of root dentin and fracture resistance of weakened roots? J Mech Behav Biomed Mater 2020;106:103736.

[11] ¹¹
Cecchin D, Soares Giaretta V, Granella Cadorin B, Albino Souza M, Vidal CMP, Paula Farina A. Effect of synthetic and natural-derived novel endodontic irrigant solutions on mechanical properties of human dentin. J Mater Sci Mater Med 2017;28(9):141.

[12] ¹²
Seballos VG, Barreto MS, Rosa RAD, Machado E, Valandro LF, Kaizer OB. Effect of Post-Space Irrigation with NaOCl And CaOCl at Different Concentrations on the Bond Strength of Posts Cemented with a Self-Adhesive Resin Cement. Braz Dent J 2018;29(5):446-51.

[13] ¹³
Khoroushi M, Najafabadi MA, Feiz A. Effects of Calcium Hypochlorite and Sodium Hypochlorite, as Root Canal Irrigants, on the Bond Strength of Glass Fiber Posts Cemented with Self-Adhesive Resin Cement. Front Dent2019;16(3):214-23.

[14] ¹⁴
Ghahderijani MS, Khoroushi M, Feiz A. Effect of Calcium Hypochlorite and Sodium Hypochlorite as Root Canal Irrigants on Push-out Bond Strength of Fiber Post Cemented with Etch-and-Rinse Resin Cement: An in Vitro Study. Front Dent 2021;18:18.

[15] ¹⁵
Belizário LG, Kuga MC, Hungaro Duarte MA, Só MVR, Keine KC, Pereira JR. Effect of fiber post space irrigation with different peracetic acid formulations on the bond strength and penetration into the dentinal tubules of self-etching resin cement. J Prosthet Dent 2019;122(1):46.e1-46.e7.

[16] ¹⁶
Parčina Amižić I, Baraba A, Ionescu AC, Brambilla E, Van Ende A, Miletić I. Bond Strength of Individually Formed and Prefabricated Fiber-reinforced Composite Posts. J Adhes Dent 2019;21(6):557-65.

[17] ¹⁷
Wiesse PEB, Silva-Sousa YT, Pereira RD, Estrela C, Domingues LM, Pécora JD, et al. Effect of ultrasonic and sonic activation of root canal sealers on the push-out bond strength and interfacial adaptation to root canal dentine. Int Endod J 2018;51(1):102-11.

[18] ¹⁸
De-Deus G, Reis C, Di Giorgi K, Brandão MC, Audi C, Fidel RA. Interfacial adaptation of the Epiphany self-adhesive sealer to root dentin. Oral Surg Oral Med Oral Pathol Oral Radiol Endod 2011;111(3):381-6.

[19] ¹⁹
Dumitriu D, Dobre T. Effects of Temperature and Hypochlorite Concentration on the Rate of Collagen Dissolution. J Endod2015;41(6):903-6.

[20] ²⁰
Mjör IA, Smith MR, Ferrari M, Mannocci F. The structure of dentine in the apical region of human teeth. Int Endod J 2001;34(5):346-53.

[21] ²¹
Bitter K, Falcon L, Prates Soares A, Sturm R, von Stein-Lausnitz M, Sterzenbach G. Effect of Application Mode on Bond Strength of Adhesively Luted Glass-fiber Bundles Inside the Root Canal. J Adhes Dent 2019;21(6):517-24.

[22] ²²
Grandini S, Goracci C, Monticelli F, Borracchini A, Ferrari M. SEM evaluation of the cement layer thickness after luting two different posts. J Adhes Dent 2005;7(3):235-40.

[23] ²³
Scotti N, Forniglia A, Bergantin E, Paolino DS, Pasqualini D, Berutti E. Fibre post adaptation and bond strength in oval canals. Int Endod J 2014;47(4):366-72.

[24] ²⁴
Pedreira AP, D'Alpino PH, Pereira PN, Chaves SB, Wang L, Hilgert L, et al. Effects of the application techniques of self-adhesive resin cements on the interfacial integrity and bond strength of fiber posts to dentin. J Appl Oral Sci2016;24(5):437-46.

[25] ²⁵
Skupien JA, Sarkis-Onofre R, Cenci MS, Moraes RR, Pereira-Cenci T. A systematic review of factors associated with the retention of glass fiber posts. Braz Oral Res 2015;29:S1806-83242015000100401.

[26] ²⁶
Souza-Gabriel AE, Sousa-Neto MD, Ururahy MS, Andrade LM, Faraoni JJ, Romeo U, et al. Analysis of adhesive interface in root canals irradiated by Er,Cr:YSGG laser after luting a fiber post. Microsc Res Tech. 2016;79(11):1090-6.

[27] ²⁷
Soares IMV, Crozeta BM, Pereira RD, Silva RG, da Cruz-Filho AM. Influence of endodontic sealers with different chemical compositions on bond strength of the resin cement/glass fiber post junction to root dentin. Clin Oral Investig 2020;24(10):3417-23.

[28] ²⁸
Bitter K, Paris S, Mueller J, Neumann K, Kielbassa AM. Correlation of scanning electron and confocal laser scanning microscopic analyses for visualization of dentin/adhesive interfaces in the root canal. J Adhes Dent 2009;11(1):7-14.

[29] ²⁹
Yamauchi K, Tsujimoto A, Jurado CA, Shimatani Y, Nagura Y, Takamizawa T, et al. Etch-and-rinse vs self-etch mode for dentin bonding effectiveness of universal adhesives. J Oral Sci 2019;61(4):549-53.

[30] ³⁰
Van Meerbeek B, Yoshihara K, Van Landuyt K, Yoshida Y, Peumans M. From Buonocore's Pioneering Acid-Etch Technique to Self-Adhering Restoratives. A Status Perspective of Rapidly Advancing Dental Adhesive Technology. J Adhes Dent 2020;22(1):7-34.

[31] ³¹
Mazzoni A, Marchesi G, Cadenaro M, Mazzotti G, Di Lenarda R, Ferrari M, Breschi L. Push-out stress for fibre posts luted using different adhesive strategies. Eur J Oral Sci 2009;117(4):447-53.

[32] ³²
Brichko J, Burrow MF, Parashos P. Design Variability of the Push-out Bond Test in Endodontic Research: A Systematic Review. J Endod2018;44(8):1237-45.

[33] ³³
Nima G, Cavalli V, Bacelar-Sá R, Ambrosano GMB, Giannini M. Effects of sodium hypochlorite as dentin deproteinizing agent and aging media on bond strength of two conventional adhesives. Microsc Res Tech 2020;83(2):186-95.

Groups	Intraradicular Tooth Region
Groups	Cervical	Middle	Apical	Total
0.9% NaCl (control)	9.72 ± 3.72	7.55 ± 4.35	4.22 ± 3.75	7.16 ± 4.45^a
2.5% NaOCl	7.40 ± 1.76	4.85 ± 2.56	3.39 ± 2.09	5.21 ± 2.68^ab
5.25% NaOCl	5.85 ± 3.62	4.41 ± 3.03	3.28 ± 2.58	4.51 ± 3.18^b
2.5% Ca(OCl)₂	7.57 ± 1.74	4.77 ± 3.22	3.02 ± 1.69	5.12 ± 2.95^ab
5.25% Ca(OCl)₂	6.78 ± 2.31	4.85 ± 4.24	3.66 ± 3.38	5.09 ± 3.53^ab
Total	7.46 ± 2.95^A	5.29 ± 3.59^B	3.51 ± 2.72^C

Groups	Gaps
0.9% NaCl (control)	12.99 (7.84-16.50)^a
2.5% NaOCl	24.13 (18.05-45.38)^b
5.25% NaOCl	24.49 (20.23-46.62)^b
2.5% Ca(OCl)₂	20.87 (8.56-30.82)^ab
5.25% Ca(OCl)₂	18.03 (13.05-31.94)^ab

Brasil