Finite element analysis of the possible mechanism of cervical lesion formation by occlusal force.

Recently, various authors have proposed the interesting idea that occlusal force may be a principal factor in cervical lesions of the tooth. It is speculated that the lateral force in non-ideal mastication causes the tooth to bend and that the resulting tensile stress damages the enamel surface. In this study, we carried out stress analysis on the upper central incisor and the lower first molar using the plastic-elastic deformation theory with two-dimensional finite element method (FEM). The essential feature that the tensile yield strength is much smaller than the compressive one was taken into account. Our results suggested that oblique loading on the tooth stretches the enamel surface near the cemento-enamel junction and causes plastic deformation which eventually leads to the cervical lesion.

[1]  A L Yettram,et al.  Finite Element Stress Analysis of the Crowns of Normal and Restored Teeth , 1976, Journal of dental research.

[2]  F. A. Xhonga Bruxism and its effect on the teeth. , 1977, Journal of oral rehabilitation.

[3]  R DeLong,et al.  Biophysical stress analysis of restored teeth: experimental strain measurement. , 1988, Dental materials : official publication of the Academy of Dental Materials.

[4]  F. Nishimura,et al.  [Fracture toughness of human enamel]. , 1989, Shika zairyo, kikai = Journal of the Japanese Society for Dental Materials and Devices.

[5]  I C Howard,et al.  The Effects of Enamel Anisotropy on the Distribution of Stress in a Tooth , 1993, Journal of dental research.

[6]  W. C. Lee,et al.  Stress-induced cervical lesions: review of advances in the past 10 years. , 1996, The Journal of prosthetic dentistry.

[7]  H O Heymann,et al.  Non-carious cervical lesions. , 1994, Journal of dentistry.

[8]  S. Sloan A fast algorithm for constructing Delaunay triangulations in the plane , 1987 .

[9]  H Darendeliler,et al.  Analysis of a central maxillary incisor by using a three-dimensional finite element method. , 1992, Journal of oral rehabilitation.

[10]  H. Spranger Investigation into the genesis of angular lesions at the cervical region of teeth. , 1995, Quintessence international.

[11]  H O Heymann,et al.  Examining tooth flexure effects on cervical restorations: a two-year clinical study. , 1991, Journal of the American Dental Association.

[12]  W. Eakle,et al.  Possible role of tensile stress in the etiology of cervical erosive lesions of teeth. , 1984, The Journal of prosthetic dentistry.

[13]  P Lambrechts,et al.  Stress-induced cervical lesions. , 1992, The Journal of prosthetic dentistry.

[14]  F. Nishimura,et al.  Tensile Strength of Human Enamel , 1987 .