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Comparison of using different bridge prosthetic designs for partial defect restoration through mathematical modeling
Author(s) -
Oksana Styranivska,
N.R. Kliuchkovska,
N. I. Mykyyevych
Publication year - 2017
Publication title -
the european journal of dentistry/the european journal of dentistry
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.625
H-Index - 31
eISSN - 1305-7464
pISSN - 1305-7456
DOI - 10.4103/ejd.ejd_72_17
Subject(s) - abutment , saddle , multiphysics , dentures , premolar , bridge (graph theory) , finite element method , deformation (meteorology) , stress (linguistics) , crown (dentistry) , orthodontics , computer science , removable partial denture , dentistry , structural engineering , molar , materials science , engineering , composite material , medicine , surgery , linguistics , philosophy
Objective: To analyze the stress–strain states of bone and abutment teeth during the use of different prosthetic designs of fixed partial dentures with the use of relevant mathematical modeling principles. Materials and Methods: The use of Comsol Multiphysics 3.5 (Comsol AB, Sweden) software during the mathematical modeling of stress–strain states provided numerical data for analytical interpretation in three different clinical scenarios with fixed dentures and different abutment teeth and demountable prosthetic denture with the saddle-shaped intermediate part. Statistical Analysis Used: Microsoft Excel Software (Microsoft Office 2017) helped to evaluate absolute mistakes of stress and strain parameters of each abutment tooth during three modeled scenarios and normal condition and to summarize data into the forms of tables. Results: In comparison with the fixed prosthetic denture supported by the canine, first premolar, and third molar, stresses at the same abutment teeth with the use of demountable denture with the saddle-shaped intermediate part decreased: at the mesial abutment tooth by 2.8 times, at distal crown by 6.1 times, and at the intermediate part by 11.1 times, respectively, the deformation level decreased by 3.1, 1.9, and 1.4 times at each area. Conclusions: The methods of mathematical modeling proved that complications during the use of fixed partial dentures based on the overload effect of the abutment teeth and caused by the deformation process inside the intermediate section of prosthetic construction.

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