Abstract
In recent years in the field of biomechanics, the intensive development of various experimental methods has been observed. The implementation of virtual studies that for a long time have been successfully used in technical sciences also represents a new trend in dental engineering. Among these methods, finite element analysis (FEA) deserves special attention. FEA is a method used to analyze stresses and strains in complex mechanical systems. It enables the mathematical conversion and analysis of mechanical properties of a geometric object. Since the mechanical properties of the human skeleton cannot be examined in vivo, a discipline in which FEA has found particular application is oral and maxillofacial surgery. In this review we summarize the application of FEA in particular oral and maxillofacial fields such as traumatology, orthognathic surgery, reconstructive surgery and implantology presented in the current literature. Based on the available literature, we discuss the methodology and results of research where FEA has been used to understand the pathomechanism of fractures, identify optimal osteosynthesis methods, plan reconstructive operations and design intraosseous implants or osteosynthesis elements. As well as indicating the benefits of FEA in mechanical parameter analysis, we also point out the assumptions and simplifications that are commonly used. The understanding of FEA’s opportunities and advantages as well as its limitations and main flaws is crucial to fully exploit its potential.
Highlights
Finite element analysis is an advanced numerical method for conducting computer-aided engineering
In terms of its practical application, finite element analysis (FEA) is commonly used by various researchers to analyze stresses and strains in complex mechanical systems [1]
A geometric model which constitutes a basis for its virtual digital equivalent is typically a three-dimensional image of a part of the human stomatognathic system obtained using cone beam computed tomography (CBCT), microtomography, intra- and extraoral scanners (Figure 1) or computer-aided design (CAD) software
Summary
Finite element analysis is an advanced numerical method for conducting computer-aided engineering. Thanks to FEA, models which give feedback on the biological responses of bone to biomechanical changes can be generated and numerous complementary components to determine the impact on the tested subject as well as the adjacent anatomical elements can be simulated. It enables the testing of different fixation systems before applying them to patients, allowing the prevention of future failure derived from its unsuitable selection or positioning. It organizes the information on FEA’s usability and promotes the wider implementation of numerical methods in oral and maxillofacial studies
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