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Three-dimensional finite element model of a human mandible incorporating six osseointegrated implants for stress analysis of mandibular cantilever prostheses.
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1995
Year
EngineeringMechanical EngineeringResidual StressBiomedical EngineeringOsseointegrated ImplantsMechanics Of MaterialsOrthopaedic SurgerySimulated Human MandibleBiomechanicsStressstrain AnalysisCantilever SegmentMaxillofacial SurgeryProsthesisMechanical BehaviorDistraction OsteogenesisMechanical ModelingMandibular Cantilever ProsthesesOrthognathic SurgeryImplantable DeviceComplete-arch ProsthesisDental BiomechanicsStructural MechanicsStress Analysis
The three-dimensional finite element stress analysis method was used to determine the distribution of stresses in and around a model of six implants which supported a typical fixed complete-arch prosthesis in a simulated human mandible. A load of 100 N was applied at different intervals along the cantilever segment. There was a decrease of stress that reached a minimal level at 15 mm along the cantilever segment. Thereafter, a progressive increase of stresses in the lingual and buccal plates was demonstrated.