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Finite Element Analysis of Stress Distributions for Mandibular Dental Implant-Supported Overdentures with Magnetic Attachments in Osteoporotic and Normal Bone

Fengling Hu, Limin Zhang, Jianguo Zhang, Yicai Zheng, Yuan Li, Xiaoying Zhang, Liang Song

2022The International Journal of Prosthodontics14 citationsDOI

Abstract

PURPOSE: To compare the biomechanical responses of a normal mandible to an osteoporotic mandible with two-implant-supported magnetic attachments. MATERIALS AND METHODS: A 3D finite-element model of a two-implant-supported mandibular overdenture with magnetic attachments was developed, and normal and osteoporotic bone samples were prepared. Four types of load were applied to the overdenture in each model: 100 N vertical and oblique loads on the right first molar, and a 100 N vertical load on the right canine and incisors. Biomechanical behaviors of the peri-implant bone, implant, and mucosa were recorded. Maximum equivalent stresses and elastic strains were analyzed. RESULTS: Equivalent elastic strain in osteoporotic cortical and cancellous bone was 9% to 71% and was 142% and 207% greater than in normal cortical bone, respectively. Equivalent elastic strain in the first molar oblique loading condition was 101% to 190% greater than in the first molar vertical loading condition. CONCLUSIONS: Osteoporotic cancellous bone was weaker and less resistant to deformation than normal bone, and oblique loading was more harmful than vertical loading.

Topics & Concepts

Cancellous boneImplantMandible (arthropod mouthpart)Materials scienceCortical boneMolarDentistryDental implantMandibular first molarFinite element methodOblique caseStress (linguistics)OrthodonticsMedicineStructural engineeringAnatomySurgeryEngineeringBiologyBotanyGenusLinguisticsPhilosophyDental Implant Techniques and OutcomesBone Tissue Engineering MaterialsDental Radiography and Imaging
Finite Element Analysis of Stress Distributions for Mandibular Dental Implant-Supported Overdentures with Magnetic Attachments in Osteoporotic and Normal Bone | Litcius