Introduction
The calcium silicate–based sealer iRoot SP (Innovative BioCreamix Inc., Vancouver, Canada), also named Endosequence BC Sealer (Brassiere, Savannah, Georgia, USA), has attracted considerable attentions due to its good biocompatibility, bioactivity, sealing ability, osteoconductive effects [
1‐
3], and ability to chemically bond to root canal dentin [
4]. It is a premixed, injectable material composed of zirconium oxide, calcium silicates, calcium phosphate, calcium hydroxide, filler, and thickening agents [
5]. iRoot SP has favorable flowability, small particle size, and no setting shrinkage, as well as volume expansion to some extent [
6,
7]; thus, the manufacturer has recommended using the single-cone (SC) technique for iRoot SP.
Sealer penetration into dentinal tubules by mechanical locking and chemical bonding [
8] forms a physical barrier, improves the retention of the root canal filling, and entombs residual bacteria [
8‐
10]. On the other hand, a desirable property of an ideal root filling material or sealer outlined by Grossman [
11] was the ability to be easily removed from the root canal if necessary. Retreatment consists of the removal of existing filling material to allow disinfection of the root canal system to promote periapical healing [
12]. Several parameters have been used to assess the retreatability of sealers, including the ability to regain the working length (WL) and patency, the time to reach the WL, and the amount of remaining root canal filling material or debris [
5,
13,
14]. Studies on the dentinal tubule penetration and retreatability of iRoot SP have led to inconsistent results since different obturation techniques have been used [
14‐
17]. It was reported that iRoot SP with the continuous wave condensation (CWC) technique was more effective at filling artificial lateral canals than the SC technique [
18]. However, recent studies demonstrated that heat affected the physical properties and chemical composition of sealers [
19‐
22]. A previous study demonstrated that AH Plus showed acceptable changes in physical properties at a high temperature, while iRoot SP showed significant reductions in setting time and flow [
23]. The changes in sealers induced by high temperature may affect the quality of obturation during warm vertical compaction.
To overcome the quality constraint resulting from high temperature, a novel premixed bioceramic sealer called EndoSequence BC Sealer HiFlow (Brasseler, Savannah, Georgia, USA) has been introduced recently. According to the manufacturer’s claims, BC Sealer HiFlow exhibits a lower viscosity when heated and is more radiopaque than BC Sealer, making it optimized for warm obturation techniques. Recent studies demonstrated that HiFlow had similar cytocompatibility and bioactivity to that of BC Sealer [
24], while it showed better performance on flow than BC Sealer when the warm vertical compaction technique was used [
25]. However, there are no published data on the dentinal tubule penetration of BC Sealer HiFlow using different obturation techniques. Likewise, the retreatability of the sealer remains unknown.
Therefore, the aim of this study was to evaluate and compare the dentinal tubule penetration and retreatability of BC Sealer HiFlow, iRoot SP, and AH Plus with the CWC and SC techniques.
Discussion
Three-dimensional obturation of the root canal system is of vital importance for successful endodontic therapy [
31]. The combination of gutta-percha and root canal sealer is suggested to provide an adequate seal for root canal obturation. Microleakage, which adversely affects the success of root canal therapy [
32], could be influenced by root canal sealing [
33]. Calcium silicate–based sealers possess high hydraulic conductance which tends to obstruct dentinal tubules [
34]. Therefore, an assessment of the dentinal tubule penetration of sealers with different obturation methods could reflect their potential sealing effect in filled root canals. In this study, the novel calcium silicate–based sealer EndoSequence BC Sealer HiFlow was evaluated for dentinal tubule penetration. To our knowledge, this is the first in vitro study on the dentinal tubule penetration and retreatability of the novel EndoSequence BC Sealer HiFlow.
Sealer penetration is related to several factors, such as the flow of the sealer [
17,
35], the number and diameter of tubules, and the obturation technique required [
36]. The influential factors for the flow of the sealer include temperature, setting time, and particle size [
37]. In the present study, the percentage of sealer penetration area in the HiFlow/CWC group was significantly higher than that in the iRoot SP/SC group at the 4-mm level. It was reported that the maximal temperature during warm vertical compaction in the root canal was 118 °C at the 8-mm level and 52 °C at the 4-mm level from the apex [
38]. Another study showed that the maximal intracanal temperature increase was 19.2 °C (under a 37 °C environment) at the 6-mm level using CWC, with no significant difference between the 3-mm and 6-mm levels [
39]. More recently, System B at 200 °C exhibited the highest temperature at the 12-mm level, followed by the 2-mm and 8-mm levels, with a range of 40~60 °C [
40]. Taken together, the intracanal temperature changes appeared to be limited during CWC. Another discrepant factor between the CWC and SC techniques that may affect dentinal penetration was compaction. However, one study demonstrated that the dentinal penetration depth of calcium silicate–based sealers at the 4-mm level from the apex was not affected by the extra pressure created by warm vertical compaction [
33]. Therefore, the difference in dentin penetration between the HiFlow/CWC and iRoot SP/SC groups at the 4-mm level might be attributed to the flow of the sealers rather than the obturation technique used. According to a recent study [
25], HiFlow had higher flow than iRoot SP at both room temperature and high temperature, while the setting times of the two sealers were similar at 37 °C and 100 °C. Notably, both HiFlow and iRoot SP are premixed calcium silicate–based sealers, which have major inorganic components including C
3S, C
2S, and calcium phosphates. This indicates that the two sealers have similar particle sizes. The present study appears to indicate that BC Sealer HiFlow with the matched CWC technique may achieve better sealing ability than iRoot SP with the recommended SC technique in the apical third. As an adequate seal of the apical third is essential for the placement of a post and core [
41], BC Sealer HiFlow in combination with the CWC technique may represent a noteworthy alternative to iRoot SP with the SC technique when an intracanal post is indicated following obturation. Further studies are required to confirm this speculation. In the middle and coronal thirds with an increasing number and diameter of dentinal tubules, a significant difference was found in the penetration depth rather than in the penetration area between the HiFlow/CWC and iRoot SP/SC groups. In addition to the difference in sealer flow, the compaction force during the CWC technique may be the other contributing factor, as the AH Plus/CWC group tended to demonstrate deeper penetration than that of the iRoot/SC group at the 8-mm level as well. Taken together, HiFlow with the CWC technique had better performance in sealer penetration along the root canal than iRoot SP with the SC technique, which may result in better root canal sealing and improve the obturation outcome.
Persistent infections are considered the most common cause of root canal failures [
42]. Re-establishing patency and WL in retreatment cases is fundamental for successful retreatment [
43]. In the present study, the retreatability of calcium silicate–based sealers was investigated and patency was achieved in every specimen. Previous studies have compared the retreatment time of calcium silicate–based sealers with that of epoxy resin-based sealers with different obturation techniques but failed to draw a concrete conclusion. To our knowledge, there have been no comparative studies on the retreatment time between the SC and CWC techniques using the same calcium silicate–based sealer. In the present study, the HiFlow/CWC and iRoot SP/CWC groups required a significantly longer time to reach the WL than the groups using the SC technique. Kim et al. commented that calcium silicate–based sealers used in the CWC technique would have larger volumetric ratio of gutta-percha than the SC technique and thus might have better retreatability [
44]. However, we found that the removal of gutta-percha from canals filled with the CWC technique was more time-consuming than the removal of a single gutta-percha point in the SC group. In addition, calcium silicate–based sealers with the CWC technique required much more time than the AH Plus/CWC group, which was consistent with some previous studies [
5,
45]. This might be because the dentine bond strength of bioceramic sealers is higher than that of resin-based sealers [
4,
46]. The main components of bioceramic sealers—calcium silicate and calcium phosphate—could form a chemical bond with the root canal, reducing the occurrence of microleakage [
14]. However, the dentine bond strength also increases the difficulty in removing the sealers during retreatment. In addition, the bioceramic sealers become very hard to penetrate after they have been allowed to set completely [
5]. Eymirli et al. [
47] demonstrated that working length could not be achieved during retreatment in root canals obturated with sealers only.
Previous studies have reported that the majority of the remaining filling material on the canal walls was sealer based [
48]. Adequate removal of the sealer is essential during retreatment procedures to establish healthy periapical tissues [
49]. Two studies previously found that the use of solvents, such as chloroform and Endosolv, in the early stages of instrumentation could reduce the time to reach the working length but does not facilitate root canal cleanliness [
50,
51]. Ethylene diamine tetracetic acid (EDTA) is a calcium chelator and is usually employed for smear layer removal in endodontics [
52]. A recent preliminary study proved that the 17% EDTA used in combination with mechanical cleaning was more effective in the removal of bioceramic-coated gutta-percha than conventional gutta-percha cone and sealer [
53]. Moreover, 10% formic acid in conjunction with mechanical instrumentation could effectively remove conventional gutta-percha and sealer, as well as the bioceramic-coated gutta-percha [
53]. So, the use of 17% EDTA or 10% formic acid in combination with proper mechanical instrumentation could help promote the removal of gutta-percha and sealer. The instruments used in root canal retreatment also play a key role in the outcome of non-surgical endodontic retreatment. According to a systematic review [
54], reciprocating and rotary systems exhibited similar potential in removing root filling materials, while solvents hindered root canal cleaning. The PTN and ProTaper universal retreatment systems showed favorable effectiveness in removing filling material [
55‐
57]. Therefore, in the present study, we used ProTaper universal retreatment files and a PTN rotary system without solvent during retreatment. The master apical file (MAF) for retreatment was one size larger (X4, size 40 06 taper) than MAF (X3, size 30 07 taper) for initial treatment based on a previous study [
29] to remove more filling materials. Our findings, in accordance with previous studies, showed that conventional retreatment techniques failed to fully remove calcium silicate–based or epoxy resin-based sealers [
5,
14]. Furthermore, a study showed that more filling material, including sealers and gutta-percha, remained in the apical third after retreatment [
58]. Cleaning of the apical third has become a challenge in root canal retreatment. When we evaluated the remaining sealer among different groups in this study, we found that less sealer remained when using BC Sealer HiFlow than when using AH Plus at the 4-mm level regardless of the obturation techniques. This may be related to the low film thickness of HiFlow at both room and high temperatures [
25], which is regarded as an important physical property for sealers. Previous studies indicated that film thickness and the flow of the sealers were related to the ability to fill root canals successfully [
59,
60]. Our study further suggested that sealers characterized by lower film thickness and a better flow ability might present improved convenience regarding removal for retreatment cases.
Three-dimensional obturation of irregular root canals with complex anatomy has been a challenge in endodontics, as well as root canal retreatment if necessary. Based on the present study, the combination use of BC Sealer HiFlow with the CWC technique seemed to exhibit better dentinal tubule penetration and retreatability, which may be advantageous for irregular root canals to achieve better apical sealing, as well as better root canal cleaning in case of retreatment. Besides, BC Sealer HiFlow was proved to have favorable biological properties and promote expressions of oste/cementogenic genes by human periodontal ligament stem cells [
24]. These characteristics may make the combination use of BC Sealer HiFlow with CWC technique more beneficial for irregular root canals with apical lesions. Further studies are needed to confirm this speculation.
To evaluate dentinal tubule penetration or remaining debris in root canal, various methods have been applied, including micro computerized tomography (micro CT), stereomicroscopy, SEM, and CLSM. Micro CT is a non-destructive method which provides 3D images with high accuracy and spatial resolution [
61]. It is usually used to detect dentine defects such as cracks or to measure the volumes of filling material in root canal [
62‐
64], rather than the sealers penetration in the dentinal tubules or remaining sealers along canal wall. In a study using stereomicroscopy method for evaluation, sealer could only be classified or scored based on the presence of the material [
14]. Various studies have applied CLSM and SEM for evaluations of sealer penetration into dentinal tubules or remaining sealers [
5,
15,
33,
47,
65]. In the present study, CLSM was applied to effectively evaluate the depth and areas of sealer penetration into dentinal tubules at different levels, as well as the remaining sealer after retreatment. SEM was applied for direct morphology of residual debris in the root canal. The combination of CLSM and SEM provided both quantitative and morphological evaluations of representative samples. However, in order to reduce the influence of fluorescence intensity on quantitative evaluation, samples need to be evaluated with CLSM in short time. A limitation for SEM is the difficulty of sample preparation, including longitudinal section of samples to expose the entire root canal.
The manufacturers claimed that BC cones, which are impregnated and coated with bioceramic particles, would allow for chemical bonding with BC Sealer. Recently, a new BC Points 150 series was recommended for combined use with BC Sealer HiFlow. In this study, we used gutta-perchas matched for nickel titanium rotary instruments to mimic most clinical situations, similar to many previous studies of BC Sealer or iRoot SP [
4,
5,
14]. It would be interesting to observe the potential advantages when BC Points 150 series are used with BC Sealer HiFlow. Further studies are required to evaluate the apical sealing ability and clinical performance of the novel sealer. A limitation of an in vitro study lies in the fact that although a balanced distribution was attempted to be achieved in terms of the dimensions of the experimental teeth, standardization is difficult to be provided in terms of the number of dentinal tubules as well as their areas. Another limitation is that the canal anatomy in clinical cases would be much more complex than single root teeth used in this study. Nevertheless, our study may lay foundation for further study using teeth with more complex anatomy.
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