Abstracts
The aim of this work was to measure the danger zone in mandibular molars, relating to strip perforations that might affect the mesial root during canal instrumentation. One hundred mesial roots were sectioned 2mm below the furcation and the distal concavities were measured with a microscope from the border of the canals to the outer dentin of the root. The average thickness of the danger zone of the mesial roots was 0.789 +/- 0.182mm. No significant statistical differences were observed comparing the danger zone of mesiobuccal and mesiolingual canals.
Danger zone; Safety zone; Mandibular molars
O objetivo deste estudo foi medir as zonas de risco de raízes mesiais de molares inferiores, demonstrando porque perfurações radiculares podem ocorrer durante o preparo do sistema de canais radiculares. Cem raízes mesiais de molares inferiores foram seccionadas horizontalmente 2mm abaixo da bifurcação e as concavidades distais foram medidas com o auxílio de um microscópio, desde a borda dos canais até a superfície externa da raiz. A espessura média para as zonas de risco das raízes mesiais foi 0,789 +/- 0,182 mm. Não houve diferença estatística significante entre as medidas das zonas de risco nos canais mésio-vestibulares e mésio-linguais de molares inferiores.
Zona de risco; Zona de segurança; Molares inferiores
ORIGINAL ARTICLES
Danger zone in mandibular molars before instrumentation: an in vitro study
Zona de risco em molares inferiores previamente a instrumentação: estudo "in vitro"
Paulo Ferreira Garcia Filho, DDS, MS, PhDI; Ariadne Letra, DDS, MSII; Renato Menezes, DDS, MSIII; Antônio Márcio Rezende do Carmo, DDS, MS, PhDIV
IDepartment of Endodontics, Federal University of Rio de Janeiro (UFRJ)
IIDepartment of Endodontics, Fluminense Federal University (UFF)
IIIDepartment of Endodontics (Post Graduation), Gama Filho University (UGF)
IVDepartment of Endodontics, Federal University of Juiz de Fora (UFJF)
Correspondence Correspondence to Renato Menezes Rua Amadeu Gomes, Cond. Ubá V, Rua 3, Quadra 5 , Casa 10 Pendotiba Niterói, 24320-010, RJ, Brasil. E mail: menezesr@uol.com.br
ABSTRACT
The aim of this work was to measure the danger zone in mandibular molars, relating to strip perforations that might affect the mesial root during canal instrumentation.
One hundred mesial roots were sectioned 2mm below the furcation and the distal concavities were measured with a microscope from the border of the canals to the outer dentin of the root. The average thickness of the danger zone of the mesial roots was 0.789 +/- 0.182mm. No significant statistical differences were observed comparing the danger zone of mesiobuccal and mesiolingual canals.
Uniterms: Danger zone; Safety zone; Mandibular molars.
RESUMO
O objetivo deste estudo foi medir as zonas de risco de raízes mesiais de molares inferiores, demonstrando porque perfurações radiculares podem ocorrer durante o preparo do sistema de canais radiculares. Cem raízes mesiais de molares inferiores foram seccionadas horizontalmente 2mm abaixo da bifurcação e as concavidades distais foram medidas com o auxílio de um microscópio, desde a borda dos canais até a superfície externa da raiz. A espessura média para as zonas de risco das raízes mesiais foi 0,789 +/- 0,182 mm. Não houve diferença estatística significante entre as medidas das zonas de risco nos canais mésio-vestibulares e mésio-linguais de molares inferiores.
Unitermos: Zona de risco; Zona de segurança; Molares inferiores.
INTRODUCTION
Danger zone refers to the distal area in the mesial root in mandibular molars. Usually a straight layer of dentin, it becomes a preferable site for strip perforation during instrumentation (Figure 1). Safety zone, on the other hand, is described as the mesial area of the root, with a thicker layer of dentin, slightly touched by the endodontic instruments.
Recent instrumentation techniques emphasize a progressive crown-down preparation of the root canal using NiTi rotary instruments, enhancing cleaning, improving identification of the foramen and facilitating the obturation process. Preenlargement of the coronal and mid-third aspect of the root canal system increases tactile control when directing small, precurved negotiating files into the delicate apical third microanatomy1.
Abou-Rass, Frank, Glick1 first described the danger zone and safety zone of the mandibular molars, showing their importance during cleaning and shaping procedures
Sinai9 observed that strip perforations in the cervical third of the root canal lead to inflammatory problems and subsequent breakdown of the supporting structures.
Dental literature studying the thickness of the dentin present in the danger and safety zones of mandibular molars is scarce, and most agree that canal instrumentation becomes somewhat difficult since transportation of the canal always occurs towards those areas during preparation of the cervical third of the canal2,7..
MATERIAL AND METHODS
Two hundred mesial canals from one-hundred mandibular molars extracted for several reasons were used in this study. All teeth should have complete root formation and diverging roots. Sex and age of the patients were not regarded as relevant. Carborundum disks were used to remove the dental crowns and distal roots. The circumferences around the mesial roots were marked at 2mm from the furcation. Mesial roots were marked at 2mm below the furcation, embedded in clear casting resin and horizontally cut. An optical microscope at 10X magnification and precision to the nearest 0.001mm (1u) was used to measure the danger zone of the mesial roots as follows: a point A1 was chosen on the border of the mesiobuccal canal (MB) and another point B1 on the border of the mesiolingual canal (ML). Two other points A2 and B2 were chosen in a straight line at the outer side of the root (Figure 2).
The distances between A1 and A2 and B1 and B2 were recorded as the danger zone of the mesiobuccal and mesiolingual canals, respectively.
RESULTS
The average thickness for the danger zones of the mesial roots was 0.789 +/- 0.182mm.
Statistical analysis (ANOVA and Tukey-Kramer) was conducted and showed no significant differences regarding the danger zone in the mesial root of mandibular molars.
DISCUSSION
Cleaning and shaping procedures must disinfect the root canal system and provide an adequate form to fit the obturation material3. Most instrumentation techniques adopt a flare preparation of the cervical third. However, excessive flaring might lead to undesirable episodes as transportation of the preparation into the danger zone, or even strip perforations of the root.
Kesseler, Peters, Lorton5, reported a mean value of 1.119 +/- 0.273mm for the danger zone of 20 mandibular molars.
Lim, Stock6, studied the risks of perforation in mandibular molars and found danger zones with an average size of 1.05 +/- 0.33mm in the MB canal and 1.05 +/- 0.24mm in the ML canal, with a mean size of 1.05 +/- 0.28mm.
Berutti, Feldon2 used 15 mandibular molars and found an average of 1.19mm for the MB danger zone and 1.25mm for the ML.
Montgomery9 studied the danger zones of mandibular molars after biomechanical preparation, finding an approximate value of 0.976 +/- 0.24mm.
Meister, et al. 8 reported that excessive flaring of curved canals represents a potential danger as the occurrence of strip perforations will end up in alveolar bone loss. Nevertheless, this study was published in 1979 and instruments used back then were not as developed as the ones available today. Modern instruments are capable to provide flaring with less canals transportation. New flute designs provide less "clogging" of smear layer.
Recent studies with instruments of differentiated designs have described that no differences can be observed in terms of danger zones in simulated canals3. However, Bryant, et al.4 have found the creation of danger zones and perforations (5%) using Profile rotary instruments in simulated canals.
This study used 200 mesial canals of mandibular molars with an average size of 0.791 +/- 0.187mm and 0.88 +/- 0.78mm for each mesiobuccal and mesiolingual canals. The mean size for the 200 canals used was 0.789 +/- 0.182mm.
A similar study by McCann, Keller, La Baunty7, found an average 0.8 +/- 0.2mm as the size of the danger zone in 20 molars and 0.7 +/- 0.1mm for another 20 molars. The mean size was 0.75 +/- 0.15mm. These same authors reported an average dentin loss of 0.448 +/- 0.04mm in the distal concavity after instrumentation. From this point of view, the distal walls of the roots used in this study, with 89.5% measuring 0.5 to 1mm, would be reduced to a critical point after canal instrumentation.
Lim, Stock6 reported the relationship between the size of the distal walls and vertical root fracture. The smaller the size, the greater the susceptibility for root fractures. Our study showed 13% distal concavities measuring 0.5 - 0.59mm, 2% measuring 0.4 0.49mm and 0.5% measuring 0.3 0.39mm, which, according to these authors, would be more susceptible to vertical fractures.
CONCLUSIONS
There was no significant statistical difference between the danger zone in MB and ML canals of mandibular molars. However, professionals must be acquainted with the sizes of the mesial roots of mandibular molars, in order to use appropriate instruments and avoid procedural accidents as strip perforations.
Recebido para publicação em: 10/06/2003
Enviado para reformulações em: 06/08/2003
Pronto para publicação em: 19/08/2003
References
- 1- Abou-Rass M, Frank AL, Glick DH. The anticurvature filing method to prepare the curved root canal. J Amer Dent Assoc 1980;101: 792-4.
- 2- Berutti L, Feldon G. Thickness of cementum/dentin in mesial root of mandibular first molars. J Endod 1992;18: 545 -8.
- 3- Bishop K, Dummer PM. A comparison of stainless steel Flexofiles and nickel-titanium Nitiflex files during the shaping of simulated canals. Int Endod J 1997; 30: 25-34.
- 4- Bryant ST, Dummer PM, Pitoni C, Bourba M, Moghal S. Shaping ability of .04 and .06 taper Profile rotary nickel-titanium instruments in simulated root canals. Int Endod 1999; 32: 155-64.
- 3- Cohen S, Burns R. Pathways of the Pulp. 8th Ed. Cleaning and Shaping the Root Canal System: Chapter 8, 246. Mosby, St. Louis, 2000.
- 5- Kessler JR, Peters DD, Lorton L. Comparison of the relative risk of molar root perforation using various endodontic instrumentation techniques. J Endod 1983; 9: 439 -77.
- 6- Lim SS, Stock CJR. The risk of perforation in the curved canal: anticurvature filing compared with step-back technique. Int Endod J 1987; 20: 33 -9.
- 7- Mc Cann JT, Keller DL, La Baunty GL. Remaining dentin /cementum thickness after hand and ultrasonic instrumentation. J Endod 1990;16:109-13.
- 8- Meister F, Tennyson JL, Gerstein H, Davies EE. Endodontic perforation which resulted in alveolar bone loss. Oral Surgery 1979;47: 463-70.
- 9- Montgomery S. Root canal wall thickness of mandibular molar after biomechanical preparation. Journal of Endodontics 1985;1: 257-63.
- 10- Sinai IH Endodontic perforation: their prognosis and treatment. J Amer Dent Assoc 1977;95: 90-5.
Publication Dates
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Publication in this collection
16 June 2004 -
Date of issue
Dec 2003
History
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Accepted
19 Aug 2003 -
Received
10 June 2003 -
Reviewed
06 Aug 2003