Three-dimensional finite element analysis of stress-distribution around single tooth implants as a function of bony support, prosthesis type, and loading during function

doi:10.1016/S0022-3913(96)90442-4

The Journal of Prosthetic Dentistry

Volume 76, Issue 6, December 1996, Pages 633-640

https://doi.org/10.1016/S0022-3913(96)90442-4 Get rights and content

Abstract

The elastic limit of bone surrounding implants may be surpassed and thus produce microfractures in bone. The purpose of this study was to use computer simulations to examine clinical situations with IMZ implants in edentulous mandibles and to identify loading conditions that could lead to bone microfractures. Three-dimensional finite element analysis models were used to examine effects of: (1) types of edentulous mandibles, (2) veneering materials, (3) the absence of cortical bone, (4) different intramobile elements, (5) loading directions, and (6) loading levels. Stress distribution patterns were compared and interfacial stresses were monitored specifically at four heights along the bone-implant interface. Stresses were concentrated toward cortical bone (0.8 to 15.0 MPa). There were no differences between types of veneering materials and the absence of cortical bone increased interfacial stresses. The use of a titanium intramobile element decreased stresses. Minor stress increases were associated with smaller mandibles. Oblique loads increased stresses 15 times, and 200 N loads increased stresses 10 times. Conditions for bone microfracturing were associated with oblique loads, high occlusal stress magnitudes, and the absence of cortical bone.

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^☆: This project was supported by the Onassis Foundation, The Greek Scholarship Foundation, and National Institutes of Health-National Institute of Dental Research grant No. DE08651.

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Research and educationThree-dimensional finite element analysis of stress-distribution around single tooth implants as a function of bony support, prosthesis type, and loading during function☆

Abstract

J Prosthet Dent

Int J Oral Maxillofac Implants

J Prosthet Dent

Tissue-integrated prostheses

Tissue-integrated prostheses

Tissue-integrated prostheses

A 15-year study of osseointegrated implants in the treatment of the edentulous jaw

Int J Oral Surg

Osseointegrated oral implants. A multicenter study of 8139 consecutively inserted Nobelpharma implants

J Periodontol

In vivo fracture of a basket-type osseointegrating dental implant: a case report

Int J Oral Maxillofac Implants

Measurement of stress in mastication. I

J Dent Res

Measurement of stress in mastication. II

J Dent Res

Functional strain as a determinant for bone remodeling

Calcif Tissue Int

Osteoregulatory nature of mechanical stimuli: function as a determinant for adaptive remodeling in bone

J Orthop Res

Loosening of the femoral component of the ICLH double cup hip prosthesis. A biomechanical investigation with reference to clinical results

Acta Orthop Scand

Deformation of the human mandible during simulated tooth clenching

J Dent Res

Bone dynamics: stress, strain and fracture

J Sports Sci

Osteoporosis and physical activity

Acta Med Scand

The influence of implant elastic modulus on the stress distribution around LTI carbon and aluminum oxide dental implants

J Biomed Mater Res

Research and education
Three-dimensional finite element analysis of stress-distribution around single tooth implants as a function of bony support, prosthesis type, and loading during function☆