Effects of post system and length on the strain and fracture resistance of root filled bovine teeth.

AIM To investigate ex vivo the effects of different post systems and lengths on the strain and fracture resistance of root-filled teeth. METHODOLOGY One hundred and thirty-five bovine incisors were sectioned 15 mm from their apices, root-filled and divided into three groups (n = 45): fibreglass post; prefabricated steel post; cast post and core. Each group was divided into three subgroups (n = 15) according to the post length: 5.0 mm; 7.5 mm; 10.0 mm. All teeth were restored with metal crowns. For strain-gauge measurement, two strain gauges per sample were used. The fracture resistance (N) was measured and the data were analysed with two-way analyses of variance, followed by the Tukey's HSD test (alpha = 05). RESULTS For all posts, decreased lengths resulted in increased microstrain values. However, the fibreglass posts were associated with lower increases when compared with cast post and cores and prefabricated steel posts, which showed microstrain values two times higher when the post length was 5.0 mm. The two-way analyses of fracture resistance values revealed that post length was statistically significant for the metal posts and not significant for the fibreglass post. The fracture mode analysis indicated that all groups tended to demonstrate root fractures in groups restored with metal posts and resin core fractures in groups restored with fibreglass posts. CONCLUSIONS The cast post and core when the length was 10.0 mm had the highest fracture resistance; however, the fibreglass post was effective with the three post lengths, with higher fracture resistance than metal posts when the length was 5.0 mm.

[1]  R. Aversa,et al.  Evaluation of the biomechanical behavior of maxillary central incisors restored by means of endocrowns compared to a natural tooth: a 3D static linear finite elements analysis. , 2006, Dental materials : official publication of the Academy of Dental Materials.

[2]  R Pietrabissa,et al.  Stress distribution in a post-restored tooth using the three-dimensional finite element method. , 2006, Journal of oral rehabilitation.

[3]  L. Correr-Sobrinho,et al.  Influence of cavity preparation design on fracture resistance of posterior Leucite-reinforced ceramic restorations. , 2006, The Journal of prosthetic dentistry.

[4]  M. Sousa-Neto,et al.  Removal resistance of glass-fiber and metallic cast posts with different lengths. , 2006, Journal of oral science.

[5]  J. Sancho-Bru,et al.  Influence of prefabricated post material on restored teeth: fracture strength and stress distribution. , 2006, Operative dentistry.

[6]  O. Yoldaş,et al.  An experimental analysis of stresses in simulated flared root canals subjected to various post-core applications. , 2005, Journal of oral rehabilitation.

[7]  T. Dietrich,et al.  Survival of glass fibre reinforced composite post restorations after 2 years-an observational clinical study. , 2005, Journal of dentistry.

[8]  H. Worthington,et al.  Randomized clinical comparison of endodontically treated teeth restored with amalgam or with fiber posts and resin composite: five-year results. , 2005, Operative dentistry.

[9]  A. Torbjörner,et al.  A literature review on the prosthetic treatment of structurally compromised teeth. , 2004, The International journal of prosthodontics.

[10]  A. Kishen,et al.  Stress-strain response in human dentine: rethinking fracture predilection in postcore restored teeth. , 2004, Dental traumatology : official publication of International Association for Dental Traumatology.

[11]  Lu Zhi-Yue,et al.  Effects of post-core design and ferrule on fracture resistance of endodontically treated maxillary central incisors. , 2003, The Journal of prosthetic dentistry.

[12]  C. Kreulen,et al.  A survey of cusp fractures in a population of general dental practices. , 2002, The International journal of prosthodontics.

[13]  Begüm Akkayan,et al.  Resistance to fracture of endodontically treated teeth restored with different post systems. , 2002, The Journal of prosthetic dentistry.

[14]  G. Heydecke,et al.  Fracture strength after dynamic loading of endodontically treated teeth restored with different post-and-core systems. , 2002, The Journal of prosthetic dentistry.

[15]  L. Forner-Navarro,et al.  Abstracts , 2001, British Dental Journal.

[16]  J. Nissan,et al.  The use of reinforced composite resin cement as compensation for reduced post length. , 2001, The Journal of prosthetic dentistry.

[17]  Fernandes As,et al.  Factors affecting the fracture resistance of post-core reconstructed teeth: a review. , 2001 .

[18]  T. Watson,et al.  Intermittent loading of teeth restored using quartz fiber, carbon-quartz fiber, and zirconium dioxide ceramic root canal posts. , 1999, The journal of adhesive dentistry.

[19]  E. K. Hansen,et al.  Visible-light curing units: correlation between depth of cure and distance between exit window and resin surface. , 1997, Acta odontologica Scandinavica.

[20]  R. Love,et al.  Rigidity and retention of carbon fibre versus stainless steel root canal posts. , 1996, International endodontic journal.

[21]  J M Leary,et al.  Influence of post dimension on stress distribution in dentin. , 1996, The Journal of prosthetic dentistry.

[22]  A. Deutsch,et al.  Comparison of the torsional forces at failure for seven endodontic post systems. , 1995, The Journal of prosthetic dentistry.

[23]  D Assif,et al.  Biomechanical considerations in restoring endodontically treated teeth. , 1994, The Journal of prosthetic dentistry.

[24]  M. Torabinejad,et al.  Coronal dye penetration of the apical filling materials after post space preparation. , 1992, Oral surgery, oral medicine, and oral pathology.

[25]  A. Caputo,et al.  The retentive and stress distributing properties of split threaded endodontic dowels. , 1992, The Journal of prosthetic dentistry.

[26]  J. Gutmann The dentin-root complex: anatomic and biologic considerations in restoring endodontically treated teeth. , 1992, The Journal of prosthetic dentistry.

[27]  D. Setchell,et al.  An in vitro evaluation of a prototype CFRC prefabricated post developed for the restoration of pulpless teeth. , 1990, Journal of oral rehabilitation.

[28]  J. Sorensen,et al.  Ferrule design and fracture resistance of endodontically treated teeth. , 1990, The Journal of prosthetic dentistry.

[29]  C. Reit,et al.  The relative frequency of periapical lesions in teeth with root canal-retained posts. , 1989, Journal of endodontics.

[30]  D. Assif,et al.  Photoelastic analysis of stress transfer by endodontically treated teeth to the supporting structure using different restorative techniques. , 1989, The Journal of prosthetic dentistry.

[31]  L. Tronstad,et al.  Resistance to fracture of restored endodontically treated teeth. , 1985, Endodontics & dental traumatology.

[32]  A. H. Tjan,et al.  Resistance to root fracture of dowel channels with various thicknesses of buccal dentin walls. , 1985, The Journal of prosthetic dentistry.

[33]  D. J. Sokol Effective use of current core and post concepts. , 1984, The Journal of prosthetic dentistry.

[34]  J. Martinoff,et al.  Intracoronal reinforcement and coronal coverage: a study of endodontically treated teeth. , 1984, The Journal of prosthetic dentistry.

[35]  R G Craig,et al.  Stress Analysis of a Tooth Restored with a Post and Core , 1983, Journal of dental research.

[36]  J. Nicholls,et al.  In vitro comparison of intact endodontically treated teeth with and without endo-post reinforcement. , 1979, The Journal of prosthetic dentistry.

[37]  M Abou-Rass,et al.  Tooth fracture--a comparison of endodontic and restorative treatments. , 1978, Journal of endodontics.

[38]  J. Nicholls,et al.  Pin-retained amalgam cores vs. cast-gold dowel-cores. , 1977, The Journal of prosthetic dentistry.

[39]  K. E. Thayer,et al.  Restoration of endodontically treated teeth. A review. , 1974, Dental journal.

[40]  A A Caputo,et al.  Analysis of stress distribution by endodontic posts. , 1972, Oral surgery, oral medicine, and oral pathology.

[41]  Robert E. Moyers,et al.  Handbook of Orthodontics , 1963 .