Background:

DRJ

Dent Res J

Dental Research Journal

1735-3327 2008-0255

Medknow Publications Pvt Ltd

India

DRJ-11-599

Original Article

Bacterial leakage in root canals filled with resin-based and mineral trioxide aggregate-based sealers

Razavian

Hamid

Barekatain

Behnaz

Shadmehr

Elham

Khatami

Mahdieh

Bagheri

Fahime

Heidari

Fariba

Dental materials Research Center and Departments of Endodontics, School of Dentistry, Isfahan University of Medical Sciences, Isfahan, Iran Dental Implants Research Center and Departments of Endodontics, School of Dentistry, Isfahan University of Medical Sciences, Isfahan, Iran Dental materials Research Center and Departments of Endodontics, School of Dentistry, Isfahan University of Medical Sciences, Isfahan, Iran Student, School of Dentistry, Isfahan University of Medical Sciences, Isfahan, Iran Student, School of Dentistry, Isfahan University of Medical Sciences, Isfahan, Iran Torabinejad Dental Research Center and Departments of Microbiology, School of Dentistry, Isfahan University of Medical Sciences, Isfahan, Iran

Address for correspondence:Mahdieh Khatami, Hezar-Jarib Avenue, Isfahan University of Medical Sciences, Isfahan, Iran mahdieh_kh007@yahoo.com

Sep–Oct 2014

11 5 599 603

2014

This is an open-access article distributed under the terms of the Creative Commons Attribution-Noncommercial-Share Alike 3.0 Unported, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

Background:

Sealing ability is one of the most important features of endodontic sealers. The purpose of this in vitro study was to compare the sealing ability of a resin-based sealer with a mineral trioxide aggregate-based sealer.

Materials and Methods:

A total of 60 single-rooted extracted human teeth were randomly divided into two experimental groups (n = 25) and two control groups (n = 5). After canal preparation and smear layer removal, both groups were obturated with gutta-percha and sealer. Resin-based AH26 sealer was used in the first group and Fillapex ^®sealer in the second group. Two layers of nail varnish were applied on tooth surfaces except for the apical 2 mm. In the negative control group, nail varnish was applied on the entire surface. The teeth were mounted according to Lima et al. study and then sterilized by ethylene oxide gas. The samples were evaluated for bacterial microleakage using Enterococcus faecalis (ATCC 29212) for 90 days. Data were analyzed by survival test (P < 0.05).

Results:

Control groups had either immediate leakage or no leakage. The Fillapex ^®showed significantly higher amounts of microleakage compared with AH26 sealer (P < 0.05) and both groups exhibited significant differences in comparison with control groups.

Conclusion:

Both sealers had bacterial leakage. Sealing ability of AH26 was significantly higher than that of Fillapex ^®.

</sec> <sec> <title>Introduction

The success of endodontic therapy relies on the three-dimensional sealing of the canal after removing bacteria from the root canal to prevent microleakage and penetration of microorganisms. It is reported that the most common reason for endodontic failure is the inability to achieve a three-dimensional seal. ¹, ²Strindberg ³and Allen ⁴showed that long-term endodontic failure is due to lack of complete canal seal.

The ideal features of a root canal filling material include tissue compatibility, antibacterial properties, radiopacity, easy handling, insolubility in tissue fluids, three-dimensional seal of the canal and no coronal discoloration. ⁵, ⁶Gutta-percha, the most common root-filling material does not adhere to the canal walls and shrinks after cooling down, resulting in gaps which provide an access route for bacteria. ⁷Sealers are required to fill these gaps. There are various types of sealers; zinc oxide-based sealers, resin-based sealers, silicon sealers and mineral trioxide aggregate (MTA)-based sealers.

Farhad et al. ⁸reported that epoxy resin-based sealers, such as AH26, could adhere to dentinal walls after removal of the smear layer. Resin-based sealers have other advantages, including setting in the presence of moisture, insolubility in tissue fluids, good setting time and antibacterial effects. ⁹

MTA cement has a great sealing ability and has been used widely in endodontic treatments for sealing perforation areas, ¹⁰, ¹¹internal and external root resorptions, ¹²creating an artificial barrier for non-vital open-apex teeth, ¹³root-end filling ¹⁴, ¹⁵and pulp capping. ¹⁶

Recently, researchers have tried to use MTA cement as a sealer. One of the MTA-based sealers introduced is Fillapex ^®(Angelus, Londrina, PR, Brazil), which is a double-paste sealer (base and catalyst). The manufacturer claims that it has good sealing ability and biocompatibility; it can stimulate the generation of mineralized tissue and has a favorable setting time. Camilleri et al. ¹⁷compared the sealing ability of Fillapex ^®and Pulp Canal sealer using fluid filtration technique and reported that the sealing ability of these sealers was comparable. Oliveira et al. ¹⁸compared bacterial microleakage resistance of two MTA-based sealers (MTA sealer and Endo CPM sealer) with six popular sealers (AH Plus, sealer 26, Epiphany SE, Sealapex, Activ GP and Endofill). Their results showed that AH Plus and Sealapex had the highest bacterial microleakage resistance whilst Activ GP and MTA-based sealers showed the greatest microleakage. Fillapex ^®sealer has been introduced recently but only a limited number of studies have evaluated the bacterial microleakage of this MTA-based sealer. ¹⁸, ¹⁹, ²⁰The aim of this study was to evaluate the apical microleakage of Fillapex sealer compared with AH26 sealer after filling of root canals prepared with hand instrumentation.

Materials and Methods

Sixty single-rooted extracted human teeth with mature and straight roots were included in this experimental study. The teeth were examined clinically and radiographically and those with vertical or transverse fractures, severe curvatures, internal or external resorption and pulpal calcification were excluded. All the remaining calculi and tissue remnants were removed using an ultrasonic devise (Juya Electronic Co, Tehran, Iran). Then the teeth were kept in 5.25% sodium hypochlorite (Golrang, Pakshoo Co. Tehran, Iran) for 30 min for further disinfection and dissolving of the organic tissues. The teeth were decoronated from the cementoenamel junction using a diamond disc (D and Z, Berlin, Germany) for achieving the average root length of 15 mm. The working length was established using a k-file #10 (Mani, Utsunomiya, Japan). The apical portion of the canal was prepared using the step-back technique up to k-file #30. Canal shaping was performed up to k-file #60 in the coronal portion. The canal was irrigated with 5.25% sodium hypochlorite between using each file. Finally, the smear layer was removed using 17% ethylenediaminetetraacetic acid (EDTA) (Merck, Darmstadt, Germany) for 1 min.

The teeth were randomly divided into four groups. The first group consisted of 25 teeth obturated with gutta-percha (Mani, Utsunomiya, Japan) and AH26 sealer (Dentsply, Konstanz, Germany). The second group also contained 25 teeth, which were obturated with gutta-percha (Mani, Utsunomiya, Japan) and Fillapex ^®sealer (Angelus, Londrina, PR, Brazil). Obturation was performed using a finger spreader (Mani, Utsunomiya, Japan) by lateral condensation technique. The third group (positive control) consisted of five teeth, which were obturated using a single gutta-percha cone without any sealer. The last group (negative control) also included five teeth, which were obturated with gutta-percha and AH26 sealer. The teeth were incubated for 48 h at 100% humidity and 37°C for complete sealer setting. Two layers of nail varnish (My Co., Tehran, Iran) were applied on the root surfaces except for the apical 2 mm. In the negative control group, nail varnish was applied on the entire root surface.

Then, the teeth were transferred to the system used in Lima et al. ²¹study to evaluate bacterial microleakage. The roots were placed inside sixty micropipettes with removed ends. The contact surface of the teeth and the micropipettes were sealed with two layers of cyanoacrylate glue and one layer of nail varnish. This system was placed inside the hole created on the anti-serum vial lids and then sterilized for 24 h using ethylene oxide gas. ²²Afterward, this system was transferred to anti-serum vials containing 10 mL of brain heart infusion (BHI) (Merck, Darmstadt, Germany) under aseptic conditions. The samples were kept inside an incubator for 3 days to ensure non-contamination.

A total volume of 1 mL of the solution containing 10 ⁹E. faecalis (ATCC 29212) was injected from the upper part of the system and bacterial microleakage was evaluated by observing turbidity in BHI solution. The samples were checked every day for 90 days, bacterial injection was performed every 3 days and the turbidity of the medium was recorded every day. The results were analyzed by survival test (P < 0.05).

Results

All specimens in positive control group had turbidity of the medium within 24 h, while none in the negative control group became turbid. During the experimental period, 26 specimens had bacterial leakage Table 1. The survival analysis showed that the Fillapex ^®group had more microleakage (mean: 77.92; standard deviation (SD): 5.48) than the AH26 sealer group (mean: 41.84; SD: 7.74). The difference was significant (P = 0.04) Figure 1. Both experimental groups had significant differences with control groups, showing the validity of the experiment (P < 0.05). Figure 1

Survival function for both groups

Figure 1

{Table 1}

Discussion

The most important factor for endodontic success is the three-dimensional canal seal. Gutta-percha and sealers are the most commonly used materials for canal obturation. Gutta-percha is rigid and cannot completely fill the inside of the canal; therefore, sealers are needed to complete the canal seal. ²³

All the procedures of this study were done by the same operator to avoid intra-operator discrepancies. Only teeth with single straight root canals were included because they can offer a more standardized method for evaluation of apical leakage.

The culture medium of positive control group became turbid within the first 24 h, confirming the importance of endodontic sealers when filling root canals. ²⁰In the present study, evaluation was carried out for 90 days in which the majority of the specimens showed bacterial leakage. Within the first 30 days, bacterial leakage was detected in 6% of the specimens filled with AH26 and 28% of the specimens filled with MTA Fillapex ^®. The first medium turbidity was seen in two specimens of AH26 group at day 4 ^th. Oliveira et al. ¹⁸observed bacterial leakage in 33% of the AH plus group 61% of MTA sealer group after 1 month. This divergence in bacterial leakage percentages may be due to the number of samples and anatomical complexity of the root canal systems.

Gomes-Filho et al. ¹⁹compared the sealing ability of two MTA-based sealers (Fillapex ^®and Endo CPM sealer) with a calcium hydroxide-based sealer (Sealapex), using dye penetration technique. The results showed that Fillapex ^®and Sealapex had significantly lower microleakage than Endo CPM sealer.

Yegin and Keser ²⁰evaluated the sealing ability of MTA Fillapex, Sealapex and AH Plus using fluid movement technique. They reported that during the first 24 h Fillapex ^®showed the least microleakage, but after 180 days AH Plus and Sealapex had the least microleakage.

AH26 sealer was more resistant against bacterial leakage, which may be related to its flowability and dimensional stability, which led to a reduction in marginal leakage. ²⁴, ²⁵, ²⁶, ²⁷Oliveira et al. ¹⁸also verified that AH Plus had good resistance to leakage, which suggests better adaptation of this material to dentine walls. Farhad et al. ⁸and Saleh et al. ²⁸reported that AH26 had less leakage when the smear layer was removed, highlighting the importance of using EDTA.

Fillapex ^®is based on MTA with additional substances to obtain a consistency suitable to be used as a sealer in root canal treatment. MTA can form calcium ions and hydroxyl ions important for stimulation of hard tissue deposition. ²²The presence of MTA also suggests a possibility of setting expansion, which might have favored the sealability. Most of the dental materials have a tendency to shrink away from their interfacial margins, exposing a gap through which contaminating elements can penetrate. MTA setting results in the hydration of anhydrous mineral oxide compounds to produce calcium silicate hydrate and calcium hydroxide phases ⁶, ⁷, ²²which produces expansion against its confining margins, enhancing the seal and minimizing leakage. ⁵, ¹⁶, ²⁵

The results of this study showed that AH26 was more resistant to bacterial microleakage compared with MTA Fillapex ^®. This finding was similar to those of Oliveira et al. ¹⁸but contrary to the findings reported by Camilleri et al. ¹⁷and Gomes-Filho et al. ¹²This difference might be attributed to the selected sealers and microleakage evaluation techniques.

In the present study, microleakage of Fillapex ^®increased over time, which is similar to the results of a study by Yegin and Keser. ²⁰This proves the decreasing sealing ability of this sealer. Fillapex ^®had lower sealing ability compared with AH26, but resulted in a significantly higher sealing ability than the positive control group, demonstrating that it can improve the root canal seal. Various factors affect the sealing ability of sealers, including moisture, removal of the smear layer and penetration of sealer into inaccessible regions, dimensional stability and sealer setting time. All these factors can affect the sealing ability of MTA Fillapex ^®. The difference between the chemical composition of MTA-based materials can lead to differences in sealing ability, which was shown in a study by Gomes-Filho et al. ¹⁹Further studies are necessary, particularly animal studies, to evaluate the sealing ability of MTA-based sealers.

Conclusion

According to the results of this in vitro study, the sealing ability of gutta-percha and AH26 sealer is higher than that of gutta-percha and MTA Fillapex ^®.

Pameijer

Zmener

Resin materials for root canal obturation

Dent Clin North Am 2010 54 325 44

Kakehashi

Stanley

Fitzgerald

The effects of surgical exposures of dental pulps in germfree and conventional laboratory rats

J South Calif Dent Assoc 1966 34 449 51

Strindberg

Effect of an antibacterial dressing in conservative root canal treatment

SSO Schweiz Monatsschr Zahnheilkd 1966 76 151 65

Allen

Method for hermetically sealing smaller root canals

J Am Dent Assoc 1968 76 579 81

Caicedo

von Fraunhofer

The properties of endodontic sealer cements

J Endod 1988 14 527 34

Grossman

Rationale of endodontic treatment

Dent Clin North Am 1967 483 90

Madison

Swanson

Chiles

An evaluation of coronal microleakage in endodontically treated teeth.Part II

Sealer types An evaluation of coronal microleakage in endodontically treated teeth Part II Sealer types J Endod 1987;13:109-12

Farhad

Barekatain

Koushki

The effect of three different root canal irrigant protocols for removing smear layer on the apical microleakage of AH-26 sealer

Iran Endod J 2008 3 62 7

Moazami

Nabavizadeh

Sahebi

An in vitro evaluation of human saliva penetration in obturated root canals with different pairs of root canal filling materials

Shiraz Univ Dent J 2010 10 9 14

Lee

Monsef

Torabinejad

Sealing ability of a mineral trioxide aggregate for repair of lateral root perforations

J Endod 1993 19 541 4

Pitt Ford

Torabinejad

McKendry

Hong

Kariyawasam

Use of mineral trioxide aggregate for repair of furcal perforations

Oral Surg Oral Med Oral Pathol Oral Radiol Endod 1995 79 756 63

Gomes-Filho

Watanabe

Bernabé

de Moraes Costa

A mineral trioxide aggregate sealer stimulated mineralization

J Endod 2009 35 256 60

Shadmehr

Farhad

Clinical management of dens invaginatus type 3: A case report

Iran Endod J 2011 6 129 32

Torabinejad

Pitt Ford

McKendry

Abedi

Miller

Kariyawasam

Histologic assessment of mineral trioxide aggregate as a root-end filling in monkeys

J Endod 1997 23 225 8

Bakland

Management of traumatically injured pulps in immature teeth using MTA

J Calif Dent Assoc 2000 28 855 8

Faraco Junior

Holland

Histomorphological response of dogs′ dental pulp capped with white mineral trioxide aggregate

Braz Dent J 2004 15 104 8

Camilleri

Gandolfi

Siboni

Prati

Dynamic sealing ability of MTA root canal sealer

Int Endod J 2011 44 9 20

Oliveira

Tanomaru

Faria-Junior

Tanomaru-Filho

Bacterial leakage in root canals filled with conventional and MTA-based sealers

Int Endod J 2011 44 370 5

Gomes-Filho

Moreira

Watanabe

Lodi

Cintra

Dezan Junior

Sealability of MTA and calcium hydroxide containing sealers

J Appl Oral Sci 2012 20 347 51

Yegin

Keser

Tosun

Evaluation of A New Root Canal Sealer′s Apical Sealing Ability, 2012

Last accessed May . 3. Evaluation of A New Root Canal Sealer's Apical Sealing Ability, 2012 Available from: http://wwwiadrconfexcom/iadr/per12/webprogram/Paper168359html Last accessed May 2013

Lima

Fava

Siqueira JF

Susceptibilities of Enterococcus faecalis biofilms to some antimicrobial medications

J Endod 2001 27 616 9

Parker HH 4 t

Johnson

Effectiveness of ethylene oxide for sterilization of dental handpieces

J Dent 1995 23 113 5

Skidmore

Berzins

Bahcall

An in vitro comparison of the intraradicular dentin bond strength of Resilon and gutta-percha

J Endod 2006 32 963 6

Yücel

Güler

Ertaş

Bacterial penetration after obturation with four different root canal sealers

J Endod 2006 32 890 3

Timpawat

Amornchat

Trisuwan

Bacterial coronal leakage after obturation with three root canal sealers

J Endod 2001 27 36 9

Kopper

Figueiredo

Della Bona

Vanni

Bier

Bopp

Comparative in vivo analysis of the sealing ability of three endodontic sealers in post-prepared root canals

Int Endod J 2003 36 857 63

Carvalho-Junior

Correr-Sobrinho

Correr

Sinhoreti

Consani

Sousa-Neto

Solubility and dimensional change after setting of root canal sealers: A proposal for smaller dimensions of test samples

J Endod 2007 33 1110 6

Saleh

Ruyter

Haapasalo

Ørstavik

Bacterial penetration along different root canal filling materials in the presence or absence of smear layer

Int Endod J 2008 41 32 40