Affiliation:
1. Stavropol State Medical University of the Ministry of Health of the Russian Federation
2. Federal State Budgetary Educational Institution of Higher Professional Education «Kosta Khetagurov North Ossetian State University» (NOSU)
Abstract
Introduction. The development of new dental implants in the context of the booming domestic industry makes it possible to find alternative options in the treatment of clinically difficult situations, to select the necessary individual solution during dental implant surgery and consequently to perform the surgery in an error-free manner and achieve the desired results. The development of a dental implant is a multistep process, and the characteristics of the implant material and its biophysical characteristics must be studied in detail until the implant is integrated into the bone tissue.The aim of the study: to estimate the opportunities and prospects of applying the finite elements method by developing the new systems of dental implants according to the literature data.Materials and methods. A search was carried out in the national digital libraries e-library, CyberLeninka, as well as PubMed, Medline, Web of Science and Google Scholar using the following keywords: dental implant, finiteelement analysis, mathematical model. Sixty-nine papers were selected and analysed.Results. The finite element method is an accurate method to analyse the implant being developed, but it has certain limitations, because in the finite element mesh, the implant-bone interface is a continuous relationship. The absence of micro-movement at the implant-bone interface during loading is different from the actual clinical situation. The expected 100 % osseointegration based on 3D-modelling can’t be an ideal option and never corresponds to the reality in the clinical situation. However, the use of the finite element method makes it possible to test single loads and inclination angles, which in the clinical situation is very rare
Reference67 articles.
1. Ananth, H.; Kundapur, V.; Mohammed, H.; Anand, M.; Amarnath, G.; Mankar, S. A review on biomaterials in dental implantology. Int. J. Biomed. Sci. 2015, 11, 113.
2. Kawahara et al.//Image synthesis with deep convolutional generative adversarial networks for material decomposition in dual-energy CT from a kilovoltage CT/Comput. Biol. Med.(2021)
3. Marcián P. et al.//Micro finite element analysis of dental implants under different loading conditions/Comput. Biol. Med.(2018)
4. Chang, P.-K.; Chen, Y.-C.; Huang, C.-C.; Lu, W.-H.; Chen, Y.-C.; Tsai, H.-H. Distribution of micromotion in implants and alveolar bone with different thread profiles in immediate loading: A finite element study. Int. J. Oral Maxillofac. Implant. 2012, 27, e96-e101.
5. Dos Santos, M.C.L.G.; Campos, M.I.G.; Line, S.R.P. Early dental implant failure: A review of the literature. Braz. J. Oral Sci. 2002, 1, 103–111.